KERJA SAMA PEMERINTAH REPUBLIK INDONESIA DENGAN UNICEF
PETUNJUK SURVEY DAN PERENCANAAN SYSTEM PERPIPAAN SEDERHANA BANTUAN UNICEF
November 2009 Disiapkan oleh Robby Kamarga
Daftar Isi PETUNJ PETUNJUK UK SURVEY SURVEY 1 Persiapan 1.1 Penyiapan Data 1.2 Penyiapan Peralatan 2. Survey 2.1 Pengumpulan data di kantor Kecamatan dan Desa 2.2 Survey Sumber Air 2.3 Survey Daerah Pelayanan 2.4 Survey Jalur Transmisi dan Distribusi 2.5. Survey Lokasi Reservoir.
PETUNJUK PENYIAPAN PERENCANAAN/DESIGN 1. Pengolahan Data dan Persiapan 2. Perencanaan Perencanaan 2.1. Kriteria Perencanaan 2.2 A Penangkap Mata Air (Jika Sumber Air adalah Mata Air) 2.2.B Intake (Jika Sumber Air adalah Sungai) 2.2.C Sumur Dalam (Jika Sumber Sumber Air adalah Sumur Sumur Dalam 2.2.D Pengolahan Air (Jika Sumber Air adalah Sungai) 2.3 Reservoir 2.3.1 Lokasi Reservoir (untuk system dengan pengaliran gravitasi) 2.3.2 Volume Reservoir. Reservoir. 2.3.3 Menara air 2.4. Bak Pelepas Tekanan. (BPT) 2.5. Perpipaan 2.5.1. Menghitung Kebutuhan Air 2.5.2 Menentukan Jenis Pipa 2.5.3 Merencanakan Pipa Transmisi 2.5.4 Merencanakan Merencanakan Jalur Jalur Pipa Distribusi Distribusi 2.5.5 Menentuk Menentukan an Diameter Pipa dan Perhitungan Perhitungan Hidraulis Hidraulis 2.5.6 Penempatan Perlengkapan Pipa. 2.5.7 Detail Sambungan Sambungan Pipa
ii
Daftar Lampiran
Lampiran 1: Petunjuk pengukuran debit dengan penggunaan pelimpah. Lampiran 2: Tabel Pola Pemakaian air di Perdesaan Lampiran 3 : Contoh Perhitungan Volume Reservoir Lampiran 4: Contoh perhitungan volume Reservoir dan Menara air Lampiran 5: Contoh Perhitungan Design Perpipaan dan BOQ Lampiran 6: Contoh Gambar Design Perpipaan (Peta Indeks, Peta Demografi, Skema Blok Pelayanan, Skema Distribusi Air, Skema Jaringan Pipa Distribusi, Pete Jaringan Distribusi, Detail Juntions) Lampiran 7: Daftar Pipa dan Fitting yang disediakan UNICEF Lampiran 8: Gambar Typical Reservoir Volume 10 m 3 – 300 m 3
iii
PETUNJUK SURVEY 1 Persiapan 1.1 Penyiapan Data Sebelum survey Sebelum survey lapa lapanga ngan, n, kump kumpulka ulkan n dat data a yan yang g mung mungkin kin tela telah h tersedia tersedia untuk dipelajari terlebih dahulu. Data tersebut antara lain: Penelitian sumber air yang mungkin pernah dilakukan sebelumnya Design perpipaan yang mungkin pernah dibuat sebelumnya Peta topography untuk daerah yang akan disurvey Peta hydrogeology untuk daerah yang akan disurvey Dll
1.2 Penyiapan Peralatan Peralata Peralatan n yan yang g dipe diperluk rlukan an dala dalam m survey survey air minu minum m harus harus disiapk disiapkan an sebe sebelum lum berangkat ke lapangan. Peralatan tersebut adalah:
2 bua buah h GPS yang yang sudah sudah dileng dilengka kapi pi de deng ngan an altime altimeter ter (Garmi (Garmin n GPSMAP GPSMAP 60CSx atau yang sederajat). Alat ini digunakan digunakan untuk memetakan lokasi mata air, lokasi reservoir, reservoir, lokasi daerah dae rah pe pelay layan anan, an, jaring jaringan an pip pipa a ba baik ik distri distribus busii mau maupun pun transm transmisi isi,, lokas lokasii rumah rumah dll. dll. Alat Alat ini (altim (altimete eter) r) dig diguna unaka kan n jug juga a unt untuk uk men mengu guku kurr ket keting inggia gian n semua titik titik lokasi yang disebutkan diatas jika perbedaan antara sumber air dan titik titik lokasi tersebut cukup besar. Untuk mengukur ketinggian, 2 buah altimeter harus digunakan dimana 1 buah hanya akan digunakan untuk kontrol.
1 set Thodolite. Alat Alat ini digunakan digunakan untuk memetakan situasi sumber air dan reservoir. Alat ini juga digunakan digunakan untuk membuat profil memanjang jalur pipa transmisi dan distribusi jika pengukuran ketinggian dengan GPS tidak meyakinkan karena perbedaa perbedaan n ketinggi ketinggian an anta antara ra sumb sumber er air/rese air/reservoi rvoirr dan daerah daerah pela pelayana yanan n tidak besar
Roda ukur/measuring wheel atau pita ukur 50 meter untuk mengukur jarak
Roll meter (2 meter) untuk mengukur panjang dan tinggi
Altimeter mengukur ketinggian berdasarkan tekanan udara yang dipengaruhi oleh temperature sehingga pengukuran ketinggian tidak akurat. Jadi jika perbedaan ketinggian yang tidak besar, pengukuran harus dilakukan dengan theodolite.
Peralatan untuk mengukur debit air o Stop watch dengan ember 10 liter, atau o Pelimpah berbentuk berbentuk segitiga (untuk (untuk debit kecil) kecil) atau Pelimpah berbentu trapesium (untuk debit besar) o o Jerican 4 liter untuk sample air Alat tulis o
2. Survey 2.1 Pengumpulan data di kantor Kecamatan dan Desa Sebelum Sebelu m ke lap lapanga angan, n, kum kumpu pulk lkan an da data ta yan yang g dip diperl erluka ukan n yan yang g ada di kanto kantor r Camat dan Desa. Data data tersebut adalah: Peta Kecamatan dan peta desa Lokasi daerah pelayanan, gambarkan pada peta Lokasi dan debit mata air yang ada, gambarkan pada peta Jumlah penduduk per dusun jika mungkin per RT, gambarkan lokasi masing masing dusun atau RT Data penduduk desa selama 5 tahun terakhir Rencana pembangunan/perluasan desa (arah perkembangan desa, rencana tata ruang dll) Batas administrative dan infrasruktur Dll
2.2 Survey Sumber Air Berbagai macam sumber air dapat digunakan untuk sistim air minum perdesaan. Tetap Tetapii sumb umber er air yang aka akan n dijela dijelaska skan n disini disini ad adala alah h sum sumber ber air yang yang da dapa patt digunaka digu nakan n untu untuk k sistim sistim perpipa perpipaan an (bantuan (bantuan UNICEF) UNICEF) dima dimana na air dari sumber terseb tersebut ut tidak tidak mem memer erluk lukan an pe pengo ngolah lahan an yang yang sulit sulit da dan n da dapa patt did didist istrib ribus usikan ikan deng de ngan an cara cara yang yang mu mura rah; h; de deng ngan an kata kata lain lain syst system em pe peny nyed edia iaan an air air minu minum m dengan den gan meng menggun gunakan akan sumber air yang dipilih dipilih aka akan n dap dapat at dikelola dikelola sen sendiri diri oleh masyarak masyarakat at secara secara berkesin berkesinambu ambungan ngan.. Sumb Sumber er air tersebut tersebut menurut urutan urutan prioritas adalah sebagai berikut:
Mata air yang terletak pada lokasi yang lebih tinggi dari daerah permukiman sehingga dapat dialirkan secara gravitasi Sungai didaerah hulu yang airnya jernih dan terletak pada lokasi yang lebih tingg tinggii da dari ri da daera erah h pe permu rmukim kiman an sehin sehingga gga da dapat pat dia dialir lirka kan n secar secara a gravit gravitasi asi setelah melalui pengolahan sederhana (Saringan Pasir Lambat) Mata air yang terletak pada lokasi yang lebih rendah dari daerah permukiman dengan deng an deb debit it yan yang g besa besarr seh sehingg ingga a dap dapat at dipo dipompa mpa den dengan gan pomp pompa a hidram hidram atau ata u tu turbi rbin. n. Jika Jika dip diperl erluka ukan n po pompa mpa listri listrik, k, mas masya yarak rakat at ha harus rus mem memah ahami ami konsekuensi biaya yang harus mereka tanggung.
2
Sumur da Sumur dalam lam yang yang te telah lah dib dibor or ole oleh h proye proyek k lain lain da dan n tidak tidak dim dimanf anfaat aatkan kan.. Peng Pe ngeb ebor oran an send sendir irii da dapa patt dila dilaku kuka kan n jika jika pe pern rnah ah dila dilaku kuka kan n stud studii yang yang menyatakan bahwa air tanah dalam di daerah tersebut adalah potensial.
Mata Air Pekerjaan yang harus dilakukan adalah: Periks Periksa a keada keadaan an mat mata a air, air, ap apaka akah h be betul tul mat mata a air yan yang g dap dapat at dig diguna unaka kan n sebagai sumber air minum dan bukan rembesan dari sawah, saluran, kolam dll dll ya yang ng ad ada a diat diatas asny nya. a. Temp Temper erat atur ur ma mata ta air air ak aka an lebi lebih h rend rendah ah da dari ri tempe tem perat ratur ur air disek disekita itarn rnya ya (air sun sunga gai, i, air kolam kolam dll) dll) karena karena ad ada a korel korelas asii antara temperatur air dari mata air dengan ketinggian dari mana air berasal (catchment (catchment area). Ukur debit mata air dengan teliti dan lakukan beberapa kali. Catat debit mata air da dan n tan tangg ggal al pen pengu gukur kuran an.. Pen Pengu gukur kuran an un untuk tuk de debit bit air yan yang g kecil kecil dap dapat at dilakukan dengan menggunakan ember dan stop watch. Untuk mata air yang besar dapat dilakukan dengan melewatkan aliran melalui pelimpah. Petunjuk penggunaan pelimpah dapat dilihat dalam lampiran 1. Kumpul Kum pulkan kan inform informasi asi dari dari pen endud duduk uk setem setempa patt yang yang bia biasa sa men menggu gguna nakan kan mata air tentang debit mata air pada musim kemarau. Catat berapa persen penurunan debit pada musim kemarau Ambilil sampl Amb sample e air un untuk tuk dikiri dikirim m ke labor laborato atoriu rium m kimia kimia air air un untuk tuk dip diper eriks iksa a kwalitasnya secara kimiawi. Pemeriksaan bakteriologis tidak diperlukan pada tahap ini. Buat sketsa kondisi mata air Petaka Pet akan n seca secara ra det detail ail da daera erah h sekit sekitar ar mat mata a air den denga gan n ala alatt ukur ukur seh sehing ingga ga dapat dibuat garis contour setiap 0.5 meter dan potongan baik memanjang maupun melintang. Pasang 2 buah patok tetap sebagai referensi. Ketinggian muka air harus diukur.
Sungai Pekerjaan yang harus dilakukan adalah: Ukur/perkirakan debit sungai. Catat debit sungai dan tanggal pengukuran. Cari dan tentukan letak intake yang cocok. Intake biasanya ditempatkan pada akh ak hir belok lokan luar dari ari sun ung gai untuk tuk men eng ghind indari ga gan ngguan dari pengendapan. Kumpulkan informasi dari penduduk setempat yang biasa menggunakan air sungai tersebut tentang debit air pada musim kemarau. Catat berapa persen penurunan debit pada musim kemarau dan tinggi muka air pada saat musim hujan/banjir Ambilil sampl Amb sample e air un untuk tuk dikiri dikirim m ke labor laborato atoriu rium m kimia kimia air air un untuk tuk dip diper eriks iksa a kwalitasnya secara kimiawi. Buat sketsa kondisi sungai dimana intake akan dibuat
Ada banyak sumur yang telah di bor baik oleh Dinas Pertambangan maupun Dinas PU untuk tujuan penelitian; dengan izin dari dinas tersebut, sumur ini dapat digunakan sebagai sumber air minum.
3
Petakan secara detail daerah sekitar intake dengan alat ukur sehingga dapat dibuat garis contour setiap 0.5 meter dan potongan baik memanjang maupun melintang. Pasang 2 buah patok tetap sebagai referensi. Ketinggian muka air harus diukur.
Sumur Bor. Pekerjaan yang harus dilakukan adalah: Lakuk Lak ukan an pu pump mping ing tes testt un untuk tuk men menget getah ahui ui kapa kapasit sitas as sum sumur ur (l/det (l/det/m. /m.dra draw w down) jika tidak ada data pumping test sebelumnya. Kumpulkan data tentang sumur dan peralatan yang ada seperti diameter pipa casing, pompa, surge tank, genset, menara air dll
2.3 Survey Daerah Pelayanan Pekerjaan yang harus dilakukan adalah sbb: Check peta yang diperoleh dari kantor desa dan sesuaikan dengan keadaan lapanga lapa ngan. n. Jika tidak dipe diperole roleh h peta dari kan kantor tor desa desa,, buat buatlah lah sketsa desa yang menggambarkan kondisi desa termasuk semua jalan yang ada. Tentukan daerah pelayanan (daerah yang dapat/mungkin dijangkau jaringan perpipaan) dan gambarkan pada peta. Perkirakan jalur jalur pipa distribusi dan gambarkan pada peta.
2.4 Survey Jalur Transmisi dan Distribusi Pekerjaan yang harus dilakukan adalah: Tentuk Tentukan an jalur jalur trans transmis misii dan distr distrib ibusi usi.. Dalam Dalam me menen nentuk tukan an jalur jalur jalur jalur ini, ini, hindari daerah yang lebih tinggi dari sumber air dan penyeberangan sungai yang terlalu lebar. Hindari juga daerah daerah yang terlalu curam sehingga pemasangan pipa menjadi sulit. Pasang Pasang pato patok k kayu pada temp tempat at temp tempat at tertentu tertentu seb sebagai agai reference. reference. Pato Patok k kayu harus dipasang kuat sehingga tidak mudah hilang. Petakan Peta kan jalur jalur pipa trasmisi trasmisi,, distribu distribusi si dan semu semua a ban banguna gunan/ru n/rumah mah dala dalam m daerah pelayanan dengan menggunakan GPS. Pemetaan dilakukan dengan menghidupkan fungsi track pada GPS dan marking lokasi mata air dan setiap rumah rumah dan saran sarana a umu umum m dal dalam am dae daerah rah pe pelay layana anan. n. GPS aka akan n mereka merekam m koor koordi dina nat, t, wakt waktu u da dan n keti keting nggi gian an seti setiap ap pe peri riod oda a wakt waktu u tert terten entu tu (unt (untuk uk perbed perbedaa aan n ketin ketingg ggian ian yan yang g tidak tidak terla terlalu lu be besa sar, r, ketin ketingg ggian ian harus harus diu diuku kur r dengan menggunakan Theodolite). Jika Jika jalur jalur pip pipa a mel melin intas tasii sunga sungai, i, gorong gorong go goron rong, g, bu buat at skets sketsa a pe penam nampan pang g melintangnya dan ukur lebar dan tingginya.
4
2.5. Survey Lokasi Reservoir. Pekerjaan yang harus dilakukan adalah: Dengan Dengan meng menggun gunakan akan GPS perkira perkirakan kan dima dimana na leta letak k reservoi reservoir. r. Reservoi Reservoir r sebaik seba iknya nya dite ditempat mpatkan kan sed sedekat ekat mung mungkin kin den dengan gan daerah daerah pela pelayana yanan n teta tetapi pi mempunyai ketinggian yang cukup dan tidak lebih dari 60 meter (sampai 80 m untuk kondisi tertentu) dari daerah pelayanan terendah, sehingga tekanan stat statik ik tida tidak k te terl rlal alu u ba basa sarr ya yang ng ak akan an me meny nyeb ebab abka kan n ke kebo boco cora ran n pa pada da sambungan pipa dan fittings Petakan Peta kan lokasi lokasi reservoi reservoirr den dengan gan meng menggun gunakan akan theodolite theodolite sehingga sehingga dapa dapatt dibuat potongan memanjang dan melintang.
5
Petunjuk Penyiapan Perencanaan/Design 1. Pengolahan Data dan Persiapan Semua Semu a da data ta yang yang dipe dipero role leh h da dari ri lapa lapang ngan an pe perl rlu u diol diolah ah da dan n dihi dihitu tung ng sert serta a digambar diga mbar untu untuk k dapa dapatt digu digunaka nakan n dala dalam m perencan perencanaan. aan. Semua gamb gambar/prin ar/printt out haru ha rus s dibu dibuat at da dala lam m uk ukur uran an ke kert rtas as A-3. A-3. Hal Hal ya yang ng pe perl rlu u disi disiap apka kan n da dala lam m perencanaan design adalah sbb:
Peta Situasi Mata Air. (Jika Sumber Air Adalah Mata Air). Dari data pengukuran situasi mata air, petakan semua titik titik yang diukur denga den gan n skala skala 1:5 1:50 0 ata atau u 1: 1:100 100.. Bua Buatt ga garis ris con contou tourr setia setiap p pe perbe rbeda daan an 0,5 meter met er.. Gam Gamba barka rkan n beb beber erapa apa pot potong ongan an mem memanj anjang ang da dan n mel melint intan ang g yang yang penting. Gambar ini nantinya akan digunakan untuk merencanakan bangunan penangka penangkap p air.
Peta Situasi Sungai dan Lokasi Intake. (Jika Sumber Air Adalah Sungai). Dari data pen penguku gukuran ran situasi sungai dan lokasi lokasi inta intake ke petaka petakan n semua titik titik yang yang diuk diukur ur de deng ngan an skal skala a 1: 1:50 50 at atau au 1:10 1:100. 0. Bu Buat at ga gari ris s cont contou ourr seti setiap ap perbed perbedaa aan n 0,5 met meter er.. Gam Gamba barka rkan n beb beber era apa po poton tonga gan n mem meman anjan jang g da dan n melintang yang penting. Gambar ini nantinya akan digunakan untuk membuat rencana bangunan intake
Peta Desa Dari data survey dengan menggunakan GPS, buat peta desa yang mencakup semua jalan, lokasi mata air, reservoir dll. Untuk daerah pelayanan yang luas sehing seh ingga ga sem semua ua da daera erah h pe pelay layana anan n tidak tidak dap dapat at dig digamb ambar ar dal dalam am 1 lemb lembar ar kertas ukuran A3, daerah pelayanan harus digambar dalam beberapa lembar kertas A3. Untuk memudahkan pembacaan gambar, gambar harus dilengkapi dengan peta indeks.
Peta Demografi Dari Dari da data ta GPS, GPS, ga gamba mbarka rkan n lokasi lokasi semua semua rumah rumah da dan n ba bangu nguna nan n lain lain yan yang g akan mendapat pelayanan dalam peta desa.
Potongan memanjang jalur pipa transmisi Dari hasil pengukuran gambarkan potongan memanjang jalur pipa transmisi
Proyeksi Penduduk Dari data jumlah penduduk desa, proyeksikan jumlah penduduk untuk 10 - 20 tahun mendatang. Rumus yang digunakan adalah: Mn = (1 + p) n Mo Dimana Dimana Mo = jumlah jumlah pen pendudu duduk k awal Mn = jumlah penduduk proyeksi P = persenta persentase se pertamba pertambahan han pend penduduk uduk n = juml jumlah ah ta tahu hun n 6
Pemeriksaan Kwalitas Air Kirimkan contoh air ke laboratorium kimia air yang terdekat untuk diperiksa kwalitas kwalitasnya nya secara kimiawi. kimiawi. Jika kwalitas kwalitas air tida tidak k meme memenuhi nuhi stan standard dard air mimun mim un da dan n mem memerl erluk ukan an pe pengo ngolah lahan an yan yang g sulit sulit da dan n mah mahal, al, ha harus rus dicar dicarii alternative sumber lain atau project perpipaan dibatalkan
2. Perencanaan Perencanaan 2.1. Kriteria Perencanaan
Perioda design Pendistribusian air
: 10 – 20 tahun : Sambungan rumah dan kran umum Kebutuhan air : 60 liter/orang/hari Kebutuhan non-d n-domestic : 5% dari kebutuhan domestic Kehilangan air : 15% dari total kebutuhan Faktor hari maksimum : 1,1 Faktor jam puncak : 2 –4 (makin (makin besa besarr varias variasii pemak pemakaia aian n air, air, facto factorr jam jam punc puncak ak harus harus diren rencanaka akan mak makin kecil dan begitu itu sebalik liknya. Unt Untuk perd perdesa esaan an diman dimana a pemak pemakaia aian n air air hampi hampirr serag seragam, am, facto factorr jam jam puncak harus direncanakan direncanakan besar) Sisa Sisa te teka kanan nan min minimu imum m pa pada da pip pipa a ind induk uk : 10 met meter er Tekanan statis maksimum : 6 0 meter (80 meter untuk keadaan tertentu Maksimum panjang pipa : 5,000 m untuk penduduk 1,000 orang Kecapatan aliran dalam pipa : 0,3 – 2 m/detik Kehilangan tekanan pada pipa : < 10 meter per kilometer
2.2 A. Penangkap Mata Air (Jika Sumber Air adalah Mata Air) Jika Jika sumbe sumberr air air ada adalah lah mat mata a air, air, harus harus dip dipast astika ikan n bah bahwa wa kapa kapasit sitas as mat mata a air cukup untuk melayani target daerah pelayanan 20 tahun mendatang. Penangkap Mata Air (PMA) harus direnc di rencanak anakan an sed sedemik emikian ian rupa seh sehingg ingga a mata air dapa dapatt betull betu betu betull terlindu terlindung ng dari pencemaran pencemaran.. Untuk Untuk itu PMA harus harus didirencan didirencanaka akan n tertutup tertutup.. Saluran Saluran terbuka terbuka harus harus direncan direncanakan akan disekita disekitarr PM PMA A untu untuk k melindun melindungi gi masuknya air permukaan kedalam PMA. PMA termasuk bak pengumpul harus dilengkapi dengan pagar dan pintu yang dapat dikunci untuk melindungi PMA Permukaan air awal sebelum dibangun PMA harus direncanakan dipertahankan sama tinggi dengan permukaan air setelah dibangun PMA, oleh karena itu pipa peluap pelu ap yang cukup harus direncanaka direncanakan n dipa dipasan sang g pada PMA pad pada a ketinggi ketinggian an muka air awal. 7
PMA harus dilengkapi dengan bak pengumpul. Pelimpah dapat dipasang pada bak pengumpul untuk mengukur debit air. Denah Denah PMA harus harus dig digamb ambar ar pad pada a pet peta a situas situasii mat mata a air. air. Gam Gamba barr po poton tongan gan memanjang dan melintang PMA serta gambar gambar detail harus dibuat.
2.2.B Intake (Jika Sumber Air adalah Sungai) Intake harus direncanakan untuk dapat mengambil air sesuai dengan kebutuhan air da darri targ arget da dae erah pelaya layan nan 20 tahu hun n men end datan tang. Inta Intak ke ha harrus direncanakan pada lokasi yang tepat yaitu pada akhir belokan luar sungai (jika memungk memu ngkinka inkan) n) untu untuk k meng menginda indari ri end endapan apan yan yang g terjadi terjadi di sung sungai ai yang akan mengganggu masuknya air kedalam intake. Intake harus dilengkapi dengan bar screen, screen, pint pintu u air, fasilita fasilitas s untu untuk k memb membersi ersihka hkan n enda endapan pan yang mungkin terjadi terjadi dan pipa intake yang dilengkapi dengan saringan. Denah Denah intak intake e ha harus rus dig digamb ambar ar pa pada da pe peta ta situas situasii sunga sungai. i. Gam Gambar bar po poton tongan gan memanjang dan melintang intake serta gambar gambar detail harus dibuat.
2.2.C Sumur Dalam Dalam (Jika Sumber Air adalah adalah Sumur Dalam) Dalam) Jika sumber air ada adalah lah sumu sumurr bor yan yang g tela telah h ada, harus dipa dipastik stikan an kap kapasit asitas as sumur sumur cukup cukup unt untuk uk mel melay ayani ani keb kebutu utuha han n air da dari ri targe targett dae daera rah h pe pelay layana anan n 10 tahun mendatang dengan mempelajari data dari hasil pumping test. Sudah harus direnc direncan anaka akan n unt untuk uk mem membu buat at sumur sumur ba baru ru pad pada a tah tahap ap du dua a setel setelah ah 10 tah tahun. un. Pompa Pomp a serta serta peralata peralatannya nnya seperti seperti surge surge tank tank,, saft safty y valve, valve, pan panel el listrik, listrik, kab kabel el listrik listrik dll harus harus direncan direncanakan akan den dengan gan ben benar. ar. Perencan Perencanaan aan ini harus harus dilakuk dilakukan an oleh ahli.
2.2.D Pengolahan Pengolahan Air (Jika Sumber Sumber Air adalah Sungai) Sungai) Jika sumber air adalah sungai, walaupun intake terletak di hulu sungai dimana kualitas air baik, tetapi untuk menjamin kualitas air minum terutama pada musim hujan hu jan diman dimana a air hu hujan jan yan yang g jatuh jatuh di tan tanah ah aka akan n men menga galir lir kesu kesunga ngaii de deng ngan an memb me mbaw awa a koto kotora ran n yang yang dila dilalu luin inya ya,, ma maka ka pe perl rlu u dire direnc ncan anak akan an ba bang ngun unan an pengolahan air sederhana yaitu saringan pasir lambat (SPL) dan Prafiltrasi dan sedimentasi jika diperlukan. Jenis pengolahan air yang dilakukan tergantung dari kekeruhan saperti dalam table 1 Tabel 1 Kekeruhan dan Jenis Pengolahan Kekeruha Kekeruhan n Jen Jenis is Peng Pengolah olahan an < 100 NTU < 250 NTU < 1, 1,25 250 0 NTU NTU < 1,500
Saringan Pasir Lambat Pra-fil filtra trasi + Sarin ringan Pasir Lamb mba at Sedi Sedime ment ntas asii + Pra Pra-filt filtra rasi si + Sari Sarin nga gan n Pasir Lambat Pra-Sedimentasi + Sedimentasi + Pra filtrasi filtrasi + Saringan Saringan Pasir Lamba Lambatt
Sumber: PAN American Health Organization
8
Kriteria Perencanaan SPL: Filtration rate: : 0.7 – 2.7 liter/menit/meter 2 Media Penyaring: pasir Effective size: 015 – 0.35 mm o o Uniformity coefficient: < 2 o Tebal lapisan: 1 m Media penyangga: krikil Diameter Diameter 0.3 mm mm – 0.6 mm mm ( 1/ 8” – ¼”) ¼”) , tebal tebal 5 cm cm o Diamet Diameter er 0.6 mm – 1.3 mm (¼” – ½”) , tebal tebal 5 cm o Diameter Diameter 1.3 mm – 2.5 mm (½” – 1”) , teb tebal al 8 cm cm o Diamet Diameter er 2.5 mm – 5 mm (1” (1” - 2”), tebal tebal 12 cm cm o Kecepatan aliran aliran pada pada main drain: 0.05 0.05 m per detik
Pra-Filter (pada intake) Deskripsi Pra-Fi Pra-Filte lterr berfun berfungsi gsi un untuk tuk men menuru urunka nkan n keker kekeruha uhan n air ba baku ku sebel sebelum um air tersebut dioleh melalui SPL Ada 2 macam pra-Filter yaitu Pra-Filter Horizantal dan Pra-Filter Vertikal Pra-Filter Horisontal Horisontal Kriteria Perencanaan: Perencanaan: 3 2 Filtration Rate: 0.5 m /m /jam Tinggi Tinggi air: 07 – 1 meter Media penyaring: batu/krill: Diameter 80 – 250 mm, panjang = 1 meter o o Diameter 30 – 70 mm, panjang = 4.5 meter Diameter Diameter 5 – 12 mm, panjang panjang = 4.5 meter o
Pra-Filter Vertical Kriteria Perencanaan: Perencanaan: Filtration Rate: 0.25 m 3/m2/jam Tinggi air minimum: 0.35 meter Media penyaring: krill: o Diameter 15 – 25 mm, tebal = 10 cm Diameter 10 – 15 mm, tebal = 10 cm o o Diameter Diameter 5 – 10 mm, tebal tebal = 50 cm
2.3 Reservoir 2.3.1 Lokasi Reservoir (untuk system dengan pengaliran gravitasi) Reservoir harus ditempatkan sedekat mungkin dengan daerah pelayanan tetapi elevasi elevasi lokasi lokasi tersebu tersebutt masih masih cukup cukup ting tinggi gi sehingg sehingga a masih masih memp mempunya unyaii cukup cukup te teka kan n pa pada da pipa pipa dist distri ribu busi si dite ditemp mpat at yang yang terj terjau auh h da dan n tertin tertingg ggi. i. Pe Perb rbed edaa aan n 9
maksimum antara reservoir dengan daerah pelayanan terendah adalah 60 meter (80 met meter er unt untuk uk keada keadaan an terten tertentu). tu). Jadi Jadi reser reservoi voirr ha harus rus ditemp ditempatk atkan an pa pada da daerah dae rah dima dimana na perbedaa perbedaan n elevasi elevasi deng dengan an dae daerah rah pela pelayan yanan an terenda terendah h tida tidak k melebihi 60 meter (80 m pada keadaan tertentu), tetapi mempunyai sisa tekanan mini minimu mum m pa pada da pipa pipa dist distri ribu busi si ad adal alah ah 10 me mete ter. r. Jika Jika ke kead adaa aan n ini ini tida tidak k memungk memu ngkinka inkan n dan meng menghar haruska uskan n reservoi reservoirr dite ditempat mpatkan kan lebih lebih ting tinggi gi dari dari 60 meter met er un untuk tuk men menjan jangka gkau u dae daerah rah pe pelay layan anan an yan yang g jau jauh h dan tingg tinggi, i, mak maka a ba bak k pelepas pele pas tekanan (BPT) yang dilengkapi dilengkapi dengan float valve valve harus harus dite ditempat mpatkan kan pada jalur jalur pipa distribusi yang mempunyai tekanan yang lebih tinggi dari 60 meter.
2.3.2 Volume Reservoir. Reservoir. Reservoir digunakan untuk menampung kelebihan air yang dihasilkan pada saat penggunaan air lebih kecil dari produksi dan menyediakan kekurangan air pada saat pemakaian air lebih besar dari produksi. Volume Volume reser reservoi voirr dih dihitu itung ng be berda rdasar sarka kan n pol pola a pen pengis gisian ian air ked kedala alam m reser reservoi voir r (konti (kontinue nue selam selama a 24 jam secara secara kons konstan tan utk mat mata a air gravi gravitas tasii ata atau u den denga gan n pemompaa pemompaan n secara intermiten intermiten dengan debit yang berbeda) berbeda) dan pola pemakaian pemakaian air masyarakat desa. Jika data mengenai pola pemakaian air masyarakat desa tida tidak k te ters rsed edia ia,, po pola la pe pema maka kaia ian n air air ma masa saya yara raka katt de desa sa sepe sepert rtii tab tabel el da dala lam m lampir lam piran an 2 dap dapat at dig digun unaka akan n seb sebag agai ai da dasar sar pe perhi rhitun tungan gan.. Berda Berdasak sakan an po pola la pema pe maka kaia ian n air air te ters rseb ebut ut da dan n juml jumlah ah air air da dari ri ma mata ta air air yang yang dial dialir irka kan n seca secara ra gravitas gravitasii yang kontinue kontinue masu masuk k keda kedalam lam reservoi reservoirr deng dengan an debi debitt yan yang g konstan konstan sepanjan sepa njang g hari dan malam, maka volume reservoir reservoir dap dapat at dipe diperkir rkirakan akan seperti dalam dala m tabe tabell dala dalam m lamp lampiran iran 3. Dalam Dalam tabe tabel, l, volume volume reservoi reservoirr yan yang g dibu dibutuhk tuhkan an adalah 43% dari kebutuhan air sehari. Reserv Reservoir oir da dapa patt dib dibua uatt leb lebih ih kecil kecil jika jika kapas kapasita itas s produk produksi si air (mata (mata air) air) yang yang dapat dialirkan ke reservoir lebih besar dari kebutuhan dan kelebihan air akan dibuang melalui peluap di reservoir. Tetapi hal tersebut perlu pertimbangan biaya mana yang lebih lebih besa besarr untu untuk k memb membuat uat reservoi reservoirr besa besarr deng dengan an pipa transmisi transmisi yang kecil atau reservoir lebih kecil dengan diameter pipa transmisi yang lebih besar (mengalirkan air lebih besar akan memerlukan diameter pipa yang lebih besar juga). Perhitungan volume reservoir dengan cara dan tabel yang sama dapat dilakukan jika air yang masuk kedalam reservoir tidak konstan seperti jika dilakukan pemom pe mompa paan an dari dari mat mata a air yang yang terlet terletak ak leb lebih ih renda rendah h dari dari da daera erah h pe pelay layana anan, n, pemompaan biasanya dilakukan hanya beberapa jam dalam sehari. Untuk memudahkan dalam perencanaan typical design berserta BOQ nya untuk reservoir 10 m3 sampai dengan 300 m3 dapat digunakan (lihat lampiran 8)
10
2.3.3 Menara air Jika sumber air adalah mata air yang terletak lebih rendah dari daerah pelayanan at atau au da dari ri su sumu murr bo borr da dan n tida tidak k te terd rdap apat at loka lokasi si de deng ngan an ke keti ting nggi gian an un untu tuk k menemp men empatk atkan an groun ground d reserv reservoir oir (daera (daerah h da datar tar), ), mak maka a men menara ara air mun mungk gkin in diperl dip erluka ukan. n. Jika Jika dip diper erluk lukan, an, men menar ara a air ha harus rus ditemp ditempatk atkan an diten ditenga gah h tenga tengah h daerah pelayanan supaya menara tidak terlalu tinggi. Volume menara air harus dire direnc ncan anak akan an se seke keci cill mu mung ngki kin n de deng ngan an ca cara ra me meng ngat atur ur de debi bitt da dan n wakt waktu u pemompaan baik dari sumur bor atau dari reservoir (ground reservoir). Contoh perhitungan volume menara dan ground reservoir dapat dilihat dalam lampiran 4
2.4. Bak Pelepas Tekanan. (BPT) Pada umumnya BPT dite ditempat mpatkan kan pada jalur jalur transmis transmisii jika perbedaan perbedaan elevasi elevasi anta an tara ra ma mata ta air air da dan n rese reserv rvoi oirr te terl rlal alu u be besa sar. r. Se Seba baik ikny nya a pe perb rbed edaa aan n elev elevas asii tersebut tidak lebih dari 80 m . Jika perbedaan lebih dari 80 m maka BPT harus ditempat dite mpatkan kan dian diantara taranya nya sehingga sehingga teka tekanan nan air dala dalam m pipa tida tidak k terlalu terlalu besa besar. r. Jika Jika te teka kana nan n air air da dala lam m pipa pipa te tela lalu lu be besa sarr, wala walaup upun un pipa pipa cuku cukup p kuat kuat un untu tuk k menahan tekanan, tetapi resiko kebocoran terutama pada sambungan pipa atau fitting akan lebih besar. Pada situ Pada situas asii te tert rten entu tu dima dimana na da daer erah ah pe pela laya yana nan n be berb rbuk ukit it bu buki kit, t, BP BPT T juga juga diperluk dipe rlukan an dida didaerah erah distribusi distribusi.. Kond Kondisi isi ini biasanya biasanya dijumpai dijumpai dima dimana na reservoi reservoir r harus ditempatkan pada ketinggian tertentu untuk menjangkau daerah pelayanan yang jauh dan tinggi, tetapi ada sebagian daerah yang mempunyai perbedaan ketingg ketinggian ian lebih lebih dari 80 m deng dengan an reservoi reservoir. r. BPT ini harus harus dilengka dilengkapi pi den dengan gan float valve untuk mencegah terbuangnya air dari reservoir pada malam hari
2.5. Perpipaan Perpipaan 2.5.1. Menghitung Kebutuhan Air Kebutuhan Kebutuha n air dihitung dihitung berdasarka berdasarkan n jumlah jumlah proyeksi proyeksi penduduk penduduk 10 - 20 tahu tahun n menda men datan tang. g. Keb Kebutu utuha han n non-dom non-domest estic ic sep seper erti ti unt untuk uk keb kebut utuha uhan n pus puske kesma smas, s, sekolah, rumah ibadat diperkiranakan 5% dan kehilangan air diperkirakan 15%. Total kebutuhan ini harus dikalikan dengan factor hari maksimum, dimana pada hari ha ri ha hari ri te terte rtent ntu u misaln misalnya ya pa pada da saat saat up upac acara ara ada adatt dim dimana ana sem semua ua pen pendu duduk duk desa akan meng mengguna gunakan kan air yang lebih bany banyak. ak. Disamping Disamping itu keb kebutuh utuhan an air pada pad a hari maksimum maksimum ini aka akan n digu digunak nakan an seb sebagai agai das dasar ar perhitun perhitungan gan bes besarny arnya a pipa transmisi.
11
2.5.2 Menentukan Jenis Pipa Untuk system penyediaan air minum pedesaan bantuan UNICEF, jenis pipa yang dised disediak iakan an ad adala alah h jen jenis is pip pipa a uPVC (unp (unplas lastic ticis ise e po polyv lyviny inyll chlori chloride) de) da dan n GI (galvani (galvanized zed iron). Untuk saat ini jenis jenis pipa HDPE (high (high den density sity poly elth elthilen ilene) e) belum disediakan mengingat masih sulitnya alat penyambung (heating plate) dan fitting didapat di kabupaten sehingga akan menyulitkan baik dalam pelaksanaan maupun pemeliharaan oleh penduduk desa dikemudian hari. Pada prinsipnya semua system perpipaan harus menggunakan pipa PVC karena harga pipa GI 4 -5 kali harga pipa PVC . Pipa GI hanya boleh digunakan jika: Pipa tidak dapat ditanan dengan sempurna karena dipasang pada daerah berbatu keras Pada jembatan pipa Jika Jika pipa pipa tran transm smis isii ak akan an me mela lalu luii bu buki kitt bu buki kitt be berb rbat atu u atau atau me mela lalu luii ke kebu bun n masyarak masyarakat at dima dimana na pen pengrus grusakan akan pipa mung mungkin kin terjadi terjadi oleh masyarak masyarakat at untu untuk k men me ngairi airi keb ebu unnya, pipa ipa GI dapat digu igunak aka an. Pip Pipa dist istrib ribusi haru arus menggunakan pipa PVC kecuali untuk daerah tertentu yang tidak dapat digali dan pada lintasan sungai. Dalam gambar perencanaan, jenis pipa harus dicantumkan.
2.5.3 Merencanakan Pipa Transmisi . Besarn Besa rnya ya pipa pipa tran transm smis isii dihi dihitu tung ng be berd rdas asar arka kan n ke kebu butu tuha han n air air pa pada da ha hari ri maksimum untuk jumlah penduduk yang telah diproyeksikan. Contoh: Jumlah penduduk yang telah diproyeksikan adalah 2.000 orang. Air yang harus dialirkan adalah: 2.000 org x 60 l/org/hr x 1,05 x 1,15 x 1,1 : 86.400 hr/detik = 1,83 l/detik Untuk Untuk perkir perkiraan aan awal awal dia diamet meter er pip pipa, a, tab table le 2 dapa apatt digun digunak akan, an, kem kemudi udian an cek cek kehilangan tekanannya. Jika debit mata air cukup besar dan melebihi kebutuhan air minum desa yang direncan direncanakan akan,, pipa transmis transmisii dap dapat at direnca direncanaka nakan n untu untuk k meng mengalir alirkan kan seluruh seluruh debit air dari mata air tersebut untuk dapat melayani beberapa desa dikemudian hari.
12
Tabel 2. Debit air dan diameter pipa No 1 2 3 4 5 6 7
Debit (l/detik) 0 - 0.10 0.10 - 0.30 0.30 - 1.00 1.00 - 1.50 1.50 - 3.00 3.00 - 8.00 8.00 - 15.00
Diameter (mm) 20 25 40 50 75 100 150
2.5.4 Merencanakan Merencanakan Jalur Pipa Pipa Distribusi Distribusi Berdasa Berdasarkan rkan peta demografi, demografi, buat buatlah lah skema skema blok blok pela pelayan yanan. an. Cantumka Cantumkan n jumlah rumah pada masing masing blok pelayanan. pelayanan. Contoh skema blok pelayanan dapat dilihat dalam lampiran 6 Berdasarkan peta demografi dan skema blok pelayanan, rencanakan jalur pipa distribusi sehingga dapat menjangkau semua daerah pelayanan. Tentukan node pada jalur pipa pada setiap ujung blok pelayanan dan beri nomor. Urutan nomor node no de da dari ri an angk gka a kecil kecil ke be besar sar sesuai sesuai den denga gan n arah arah alira aliran. n. Node Node ha harus rus jug juga a ditempatkan pada setiap cabang pipa dan ujung pipa. Jika jalur pipa menerus membentuk loop karena kondisi jalan, buatlah 2 node pada tengah tengah pipa (akan diperhitungkan sebagai pipa cabang). Jarak node maksimum 500 meter, jadi jika jarak antara dua cabang pipa atau antara cabang dan ujung pipa lebih dari da ri 50 500 0 met meter er,, tam tambah bahkan kan 1 no node de diten ditenga gah h ten tenga gahny hnya. a. Jika Jika dia dianta ntara ra 2 no node de pada ujung pipa terdapat lebih dari 10 rumah, maka diantara node tersebut perlu ditambah dita mbahkan kan 1 node sehingga sehingga ujung ujung pipa tidak melayani melayani lebih dari 10 rumah. Hal tersebut dimaksudkan supaya setiap ujung cabang pipa akan berdiameter 1 inchi
2.5.5 Menentukan Menentukan Diameter Pipa Pipa dan Perhitungan Perhitungan Hidraulis Buat ta Buat tabl ble e pe perh rhit itun unga gan n kebu kebutu tuha han n air air pa pada da seti setiap ap blok blok pe pela laya yana nan n de deng ngan an menggunakan Excel seperti dalam contoh dalam lampiran 5, Isi jumlah rumah setia setiap p blok blok da dalam lam ta table ble,, lalu lalu pe perki rkirak rakan an jumla jumlah h pe pend ndudu uduk k yang yang tingg tinggal al pad pada a masing masing blok pelayanan. Kemudian proyeksikan jumlah penduduk pada masing masing blok dan hitung kebutuhan airnya. Untuk Untuk meng mengitun itung g besa besarnya rnya pipa distribu distribusi, si, kebu kebutuha tuhan n rata rata per detik pada hari maksimum harus dikalikan dengan factor jam puncak. Besarnya factor jam punc pu ncak ak be berd rdas asar arka kan n po pola la pe pema maka kaia ian n air air dide didesa sa sepe sepert rtii da dala lam m tabe tabell pa pada da lampiran 5 diperkirakan = 4 (untuk kota besar dimana variasi penggunaan airnya 13
besar, besa r, fa fact ctor or jam jam pu punc ncak ak da dapat pat dipe diperk rkir irak akan an = 2). 2). Ke Kebu butu tuha han n air air pa pada da jam jam punc pu ncak ak akan akan digu diguna naka kan n seba sebaga gaii da dasa sarr un untu tuk k me meng nghi hitu tung ng be besa sarn rnya ya pipa pipa distribusi. Untuk Untuk mem memud udah ahkan kan perhit perhitung ungan an da dan n pe pemer meriks iksaa aan n des design ign,, bu buatl atlah ah ga gamba mbar r skema distribusi distribusi air dan skema jaringan jaringan pipa distribusi distribusi seperti pada lampiran 6 Skema distribusi air menggambarkan seluruh jaringan pipa dengan semua node, jumlah rumah diantara 2 node node.. Kebutuhan air pada jam puncak untuk setiap blok pela pe laya yana nan n diga digamb mbar arka kan n de deng ngan an ta tand nda a pa pana nah h pa pada da se seti tiap ap no node de ya yang ng bersangkutan (dipasang pada node yang terletak di hilir blok pelayanan). Skema jaringan jaringan pipa distribu distribusi si meng menggamb gambarka arkan n seluruh seluruh jaringan jaringan pipa den dengan gan node, debit air dalam pipa; panjang, jenis dan diameter pipa Dalam menghitung debit pada pipa, perhitungan harus dimulai dari ujung pipa kemudian berjalan mundur sampai ke reservoir. Diameter pipa ditentukan berdasarkan debit air yang akan dialirkan dan tekanan (head) yang tersedia. Untuk menentukan diameter pipa tahapan yang harus dilakukan adalah sbb: Siapkan Siapkan tabl table e perhitun perhitungan gan hidrauli hidraulis s meng mengguna gunakan kan Excel Excel sepe seperti rti cont contoh oh dalam lampiran 5 yang terdiri dari kolom kolam: nomor pipa, jumlah SR, nomorr nod nomo node, e, debi debitt pad pada a nod node, e, debi debitt pada pipa pipa,, pan panjang jang pipa, diameter diameter pipa, koefisien kekasaran pipa (C), kehilangan tekanan per 1000 m (S), kehilangan tekanan, total kehilangan tekanan, elevasi node, sisa tekanan dan tekanan statis (lihat contoh) Dari gambar skema distribusi air dan skema jaringan pipa distribusi yang telah disiapkan isi kolam nomor pipa, jumlah SR, nomor node, debit node, debit pipa, panjang pipa dan elevasi node. Perkirakan besarnya diameter pipa dengan menggunakan table 2. Hitung kecapatan aliran dalam pipa dengan menggunakan rumus: V = Q/A Dima Dimana na V = kece kecepa pata tan n alir aliran an da dala lam m pipa pipa Q = Debit air dalam pipa A = Luas penampang pipa Hitung Hitung kehilang kehilangan an teka tekanan nan per 1000 m (Hf/1000) (Hf/1000) dengan meng menguna unakan kan rumus Hazen Williams. Rumus Hazen Willams: Q = 1, 1,53 53 x 10 10 -3 x C x D2,63 x S0,54 Dimana Q = l/detik D = cm C = koefisien kekasaran pipa S = kehilangan tekanan per 1.000 m
14
Hitung Hitung keh kehila ilanga ngan n tek tekan anan an pa pada da setia setiap p nom nomor or pip pipa a yaitu yaitu de denga ngan n cara cara mengalikan S dengan panjang pipa Jumlah Jum lahkan kan kehil kehilang angan an te tekan kanan an unt untuk uk mas masin ing g mas masing ing jalur jalur pipa pipa da dari ri reservoir sampai ujung jaringan. Hitung sisa tekanan tekanan pada masing masing masing node: node: Sisa tekanan tekanan = ting tinggi gi reservoi reservoir(/ r(/BPT) BPT) – tinggi node – jumlah jumlah keh kehilan ilangan gan tekanan Cek sisa tekanan, jika tekanan terlalu besar, diameter beberapa bagian pipa pipa da dapa patt dipe diperk rkec ecil il.. Jika Jika sisa sisa te teka kana nan n kura kurang ng da dari ri 10 m, diam diamet eter er beberapa bagian pipa harus diperbesar. Juga cek kecepatan aliran dalam pipa, usahakan kecepatan aliran dalam pipa antara 0,3 – 2 m/detik.
Setelah peng Setelah pengece ecekan kan selesai selesai dilakuka dilakukan, n, cantum cantumkan kan semu semua a diam diameter eter pipa pada peta jaringan pipa distribusi.
2.5.6 Penempatan Perlengkapan Pipa. Untuk pengaturan dan pemeliharaan system perpipaan, valve, air release valve dan wash out harus harus dipasang dipasang pada tempa tempatt yan yang g tepat pada jalur jalur pipa transmis transmisii dan distribusi sesuai dengan fungsinya. Gambarkan perlengkapan pipa tersebut pada gambar peta jaringan pipa. Valve Valve berfungsi untuk menghentikan atau mengatur aliran oleh karena itu harus ditempatkan ditempatkan sehingga: sehingga: o Jika Jika te terj rjad adii kebo keboco cora ran n pipa pipa,, ba bagi gian an jari jaring ngan an dima dimana na terd terdap apat at kebo ke boco cora ran n da dapa patt diis diisol olas asii de deng ngan an ca cara ra me menu nutu tup p sa satu tu atau atau bebe be bera rapa pa valv valve e sehi sehing ngga ga tida tidak k semua semua syst system em jari jaring ngan an pipa pipa terganggu. o Jika Jika te terd rdap apat at pe perb rbed edaa aan n keti keting nggi gian an yang yang cuku cukup p be besa sarr an anta tara ra daera da erah h distri distribu busi si sehin sehingga gga men menga gakib kibatk atkan an terjad terjadii pe perbe rbeda daan an tekanan yang besar, satu atau beberapa valve dapat diatur untuk memperkec memp erkecilil perbedaa perbedaan n teka tekanan nan tersebu tersebutt (memperk (memperkecil ecil buka bukaan an valve akan memperbesar kehilangan tekanan)
Air Release Valve Air release valve berfungsi berfungsi untuk mengeluarkan mengeluarkan udara yang terperangkap terperangkap dalam dal am pip pipa a sehin sehingga gga men mengg ggang anggu gu aliran aliran air. air. Air relea release se valve valve harus harus dipasang pada tempat tertinggi/punggung jalur pipa. Wash Out Wash out berfungs berfungsii untu untuk k meng mengelua eluarkan rkan end endapan apan/kot /kotoran oran dala dalam m pipa pipa.. Pada umumnya umumnya end endapan apan akan terkumpu terkumpull pad pada a temp tempat at temp tempat at terndah terndah dari jalur pipa oleh karena itu wash out harus ditempatkan pada tempat tempat terendah dari jalur pipa.
15
2.5.7 Detail Sambungan Sambungan Pipa Gambarkan detail setiap sambungan pipa dan buat table kebutuhan fittings untuk masing masing detail sambungan.
2.5.8. Perhitungan pipa dan Bill of Quantity Untuk Untuk memu memudah dahkan kan perhitun perhitungan gan hidrauli hidraulis s dan mengitu mengitung ng keb kebutuh utuhan an pipa dan fittingn fittingnya, ya, UNICEF UNICEF Jakarta Jakarta tela telah h meng mengemba embangka ngkan n program program sede sederhan rhana a dala dalam m format format Excel. Excel. Formul Formula a formul formula a excel excel yan yang g dib dibuat uat pa pada da mas masing ing mas masing ing table table saling berhubungan satu dengan yang lain. Dalam file excel, dibuat beberapa sheet sebagai berikut: Sheet She et 01-Hydra 01-Hydraulic ulic Calculat Calculation. ion. Dalam Dalam she sheet et ini terdapa terdapatt tabe tabell perhitun perhitungan gan kebutuhan air dan perhitungan hidraulis jaringan pipa distribusi. Dalam table ini ini jika jika kita kita me mema masu suka kan n nila nilaii koef koefie ient nt C = 13 130, 0, pe perh rhit itun unga gan n kehi kehila lang ngan an tekanan akan secara otomatis menghitung berdasarkan diameter dalam pipa PVC (inner (inner diame diameter ter)) dan jika jika C = 100 100,, secar secara a otoma otomatis tis akan akan men mengh ghitu itung ng berd be rdas asar arka kan n diam diamet eter er da dala lam m pipa pipa GI GI.. Pa Pada da ko kolo lom m ke kece cepa pata tan n alir aliran an,, kehila keh ilanga ngan n tek tekan anan an da dan n sisa sisa tek tekan anan an dib dibua uatt kondi kondisi si de denga ngan n crite criteria ria yan yang g te tela lah h dite ditent ntuk ukan an.. Jika Jika nila nilaii da dala lam m kolo kolom m ini ini dilu diluar ar crit criter eria ia,, exce excell akan akan memberitahu kita dengan warna merah. Sheet She et 02 02-Tr -Trans ansmis missio sion. n. Dalam Dalam she sheet et ini terdap terdapat at tab tabel el pe perhi rhitun tungan gan pipa pipa transmis transmisi, i, tabl table e kebu kebutuha tuhan n pipa transmisi transmisi dan grafik profil profil mema memanjan njang g jalur jalur tran transm smis isi. i. Pe Perh rhit itun unga gan n hidr hidrau auli lis s un untu tuk k pipa pipa tran transm smis isii sa sama ma de deng ngan an perhit perhitun unga gan n hid hidrau raulis lis pip pipa a distri distribu busi. si. Jum Jumlah lah pip pipa a trans transmis misii akan akan secar secara a otomat oto matis is dihit dihitun ung g dal dalam am tab table le keb kebutu utuha han n pipa pipa da dan n seca secara ra otoma otomatis tis pu pula la dita ditamp mpil ilka kan n prof profil il jalu jalurr pipa pipa tran transm smis isii un untu tuk k me meng nget etah ahui ui dima dimana na pe perl rlu u dipasang air release valve dan wash out Sheett 03-Main Shee 03-Main Distribu Distribution tion.. Dalam Dalam shee sheett ini terdapa terdapatt tabl table e kebu kebutuha tuhan n pipa dist distri ribu busi si.. Juml Jumlah ah pipa pipa dist distri ribu busi si un untu tuk k ma masi sing ng ma masi sing ng diam diamet eter er yang yang direncanakan dalam sheet 01 secara otomatis akan dihitung dalam table ini. Sheet 04-Household Connection. Dalam sheet ini terdapat table jumlah SR, standard fitting untuk SR dan total kebutuhan fitting. Jumlah SR pada masing masi ma sing ng diam diamet eter er pipa pipa PV PVC C da dan n GI akan akan dita ditamp mpil ilka kan n seca secara ra otom otomat atis is berdas berdasar arkan kan dat data a da dalam lam shee sheett 01. Dengan Dengan men menget getah ahui ui jum jumlah lah SR pad pada a masi ma sing ng ma masi sing ng jeni jenis s da dan n diam diamet eter er pipa pipa ma maka kan n kebu kebutu tuha han n fitt fittin ing g da dapa patt dihitung dalam table yang lain. Sheet She et 05 05-Fi -Fitti tting ng.. Dalam Dalam she sheet et ini terda terdapa patt tab table le fittin fitting g un untuk tuk set setiap iap de detai taill sambungan/junction, untuk penangkap mata air dan reservoir, untuk air valve, untuk wash out dan untuk BPT. Pada table ini jenis fitting harus dipilih dari standard fitting yang telah divalidasi dalam program ini dengan cara mengklik pada tanda panah pada masing masing cel. Jenis fitting tidak boleh di tik langsung karena nantinya tidak akan terhitung secara otomatis dalam table 07 Shee Sh eett 06 06-R -Res eser ervo voir ir.. Dala Dalam m shee sheett ini ini terd terdap apat at tabl table e un untu tuk k me mene nent ntuk ukan an besarnya volume reservoir. reservoir. .
16
Sheet 07-Pi She -Pipe and Fitt Fittin ing gs. Dal Dalam sheet ini ini terd terda apat tab table ya yan ng mengkompilasi secara otomatis jumlah kebutuhan pipa dan fitting
17
Lampi Lam piran ran 2
Pola Pemakaian Air di Perdesaaan (Jumlah Pemakaian air (%) setiap jam dalam 1 hari) am 01:00 – 02:00 02:00 – 03:00 03:00 – 04:00 04:00 – 05:00 05:00 – 06:00 06:00 – 07:00 07:00 – 08:00 08:00 – 09:00 09:00 – 10:00 10:00 – 11:00 11:00 – 12:00 12:00 – 13:00 13:00 – 14:00 14:00 – 15:00 15:00 – 16:00 16:00 – 17:00 17:00 – 18:00 18:00 – 19:00 19:00 – 20:00 20:00 – 21:00 21:00 – 22:00 22:00 – 23:00 23:00 – 24:00 24:00 – 01:00 Total Sumber ACF
Pemakaian air (%) 0.2 0.2 0.2 0.2 0.2 6 15 14 5 5 5 4 4 2.6 2.6 2.6 15 16 1.2 0.2 0.2 0.2 0.2 0.2 100
18
Lampi Lam piran ran 3
Contoh cara menentukan volume reservoir jika air yang masuk ke reservoir dari mata mat a air ada adalah lah konstan konstan sebe sebesa sarr 4. 4.166 1667 7 % da dan n air yang yang kelua keluarr da dari ri reserv reservoir oir sesuai dengan pola pemakaian air masayrakat perdesaan
Jam 0 1:00 0 2:00 0 3:00 0 4:00 0 5:00 0 6:00 0 7:00 0 8:00 0 9:00 10:00 11:00 12:00 13:00 14:00 15:00 16:00 17:00 18:00 19:00 20:00 21:00 22:00 23:00 24:00 Total
– 02:00 – 03:00 – 04:00 – 05:00 – 06:00 – 07:00 – 08:00 – 09:00 – 10:00 – 11:00 – 12:00 – 13:00 – 14:00 – 15:00 – 16:00 – 17:00 – 18:00 – 19:00 – 20:00 – 21:00 – 22:00 – 23:00 – 24:00 – 01:00
Keluar (%) 0.2 0.2 0.2 0.2 0.2 6 15 14 5 5 5 4 4 2.6 2.6 2.6 15 16 1.2 0.2 0.2 0.2 0.2 0.2 100
Masuk (%) 4.1667 4.1667 4.1667 4.1667 4.1667 4.166 7 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 4.1667 100
Cum. Keluar (%) 0.2000 0.4000 0.6000 0.8000 1.0000 7.0000 22.0000 36.0000 41.0000 46.0000 51.0000 55.0000 59.0000 61.6000 64.2000 66.8000 81.8000 97.8000 99.0000 99.2000 99.4000 99.6000 99.8000 100.0000
Cum. Masuk (%) 4.1667 8.3333 12.5000 16.6667 20.8333 25.0000 29.1667 33.3333 37.5000 41.6667 45.8333 50.0000 54.1667 58.3333 62.5000 66.6667 70.8333 75.0000 79.1667 83.3333 87.5000 91.6667 95.8333 10 100.0000
Cum Selisih (%) 3.9667 7.9333 11.9000 15.8667 19.8333 18.0000 7.1667 -2.6667 -3.5000 -4.3333 -5.1667 -5.0000 -4.8333 -3.2667 -1.7000 -0.1333 -10.9667 -22.8000 -19.8333 -15.8667 -11.9000 -7.9333 -3.9667 0. 0.0000
Volume reservoir = 19.8333 % + 22.8 = 42.633%
19
Lampi Lam piran ran 4 Tabel pertama adalah contoh cara menentukan volume menara air jika air yang masuk ke menara dari ground reservoir adalah 8.3333% selama 6 jam pada pagi hari dengan menggunakan 1 pompa dan 16.6666% selama 3 jam pada sore hari dengan menggunakan 2 pompa Tabel kedua berhubungan dengan table pertama yaitu cara menentukan volume grou ground nd rese reserv rvoi oirr jika jika air air yang yang ma masu suk k ke grou ground nd rese reserv rvoi oirr da dari ri sumu sumurr yang yang dipompa sebesar 11.1111% konstan selama 9 jam pagi dan sore. Pengaturan debit pemompaan dan waktu pemompaan dapat dilakukan dengan berbagai variasi. Jika debit dan waktu diatur seperti dalam contoh ini volume reservoir dan menara yang dibutuhkan akan kecil, tetapi daya listrik yang harus disediakan adalah besar karena semua pompa baik pompa dari sumur dan ground reservoir beroperasi bersamaan. Jika diatur pompa dari sumur dioperasikan tidak bersamaan dengan pompa pada ground reservoir supaya daya listrik menjadi kecil, maka volume ground reservoir akan menjadi besar . besar . Menara Air Jam
Keluar (%)
Masuk (%)
Cum Keluar Keluar (%)
Cum. Masuk (%)
Cum Selisih (%)
01:00 01:00 – 02:00 02:00
0.2
0.2000
0.0000
-0.2000
02:00 02:00 – 03:00 03:00
0.2
0.4000
0.0000
-0.4000
03:00 03:00 – 04:00 04:00
0.2
0.6000
0.0000
-0.6000
04:00 04:00 – 05:00 05:00
0.2
0.8000
0.0000
-0.8000
05:00 05:00 – 06:00 06:00
0.2
1.0000
0.0000
-1.0000
06:00 06:00 – 07:00 07:00
6
8.3333
7.0000
8.3333
1.3333
07:00 07:00 – 08:00 08:00
15
8.3333
22.0000
16.6667
-5.3333
08:00 08:00 – 09:00 09:00
14
8.3333
36.0000
25.0000
-11.0000
09:00 09:00 – 10:00 10:00
5
8.3333
41.0000
33.3333
-7.6667
10:00 10:00 – 11:00 11:00
5
8.3333
46.0000
41.6667
-4.3333
11:00 11:00 – 12:00 12:00
5
8.3333
51.0000
50.0000
-1.0000
12:00 12:00 – 13:00 13:00
4
55.0000
50.0000
-5.0000
13:00 13:00 – 14:00 14:00
4
59.0000
50.0000
-9.0000
14:00 14:00 – 15:00 15:00
2.6
61.6000
50.0000
-1 -11.6000
15:00 15:00 – 16:00 16:00
2.6
64.2000
50.0000
-14.2000
16:00 16:00 – 17:00 17:00
2.6
16.6667
66.8000 66
66.6667
-0.1333
17:00 17:00 – 18:0 18:00 0
15
16.6667
81.8000 81
83.3333
1.5333
18:00 18:00 – 19:00 19:00
16
16.6667
97.8000
100.0000
2.2000
19:00 19:00 – 20:00 20:00
1.2
99.0000
100.0000
1.0000
20:00 20:00 – 21:00 21:00
0.2
99.2000
100.0000
0.8000
21:00 21:00 – 22:00 22:00
0.2
99.4000
100.0000
0.6000
22:00 22:00 – 23:00 23:00
0.2
99.6000
100.0000
0.4000
23:00 23:00 – 24:00 24:00
0.2
99.8000
100.0000
0.2000
24:00 24:00 – 01:00 01:00
0.2
100.0000
100.0000
0.0000
Total
Volume
100
100.0000 16.4000
20
Ground Reservoir Cum Keluar Keluar (%)
Cum. Masuk (%)
Cum Selisih (%)
01:00 01:00 – 02:00 02:00
0
0
0
02:00 02:00 – 03:00 03:00
0
0
0
03:00 03:00 – 04:00 04:00
0
0
0
04:00 04:00 – 05:00 05:00
0
0
0
0
0
0
8.3333
11.1111
2.7778
16.6666
22.2222
5.5556
Jam
Keluar (%)
Masuk (%)
05:00 05:00 – 06:00 06:00 06:00 06:00 – 07:00 07:00
8.3333
07:00 07:00 – 08:00 08:00
8.3333
08:00 08:00 – 09:00 09:00
11.1111
24.9999
33.3333
8.3334
8.3333
11.1111
33.3332
44.4444
11.1112
8.3333
11.1111
41.6665
55.555
13.889
8.3333
11.1111
12:00 12:00 – 13:00 13:00
49.9998 49.9998
66.111 66.111
16.1112 16.1112
13:00 13:00 – 14:00 14:00
49.9998
66 .111
16.1112
14:00 14:00 – 15:00 15:00 15:00 – 16:00 16:00 16:00 – 17:00 17:00
49.9998
66.111
16.1112
09:00 09:00 – 10:00 10:00 10:00 10:00 – 11:00 11:00 11:00 11:00 – 12:00 12:00
8.3333
11.1111 11.1111
49.9998
66.111
16.1112
16.6667
11.1111
66.6665
77.7777
11.1112
17:00 17:00 – 18:00 18:00
16.6667
11.1111
83.3332
88.8888
5.5556
18:00 18:00 – 19:00 19:00
16.6667
11.1111
100.000 100.000
0
19:00 19:00 – 20:00 20:00
100 100
20:00 20:00 – 21:00 21:00
100
100.000
21:00 21:00 – 22:00 22:00
100
100.000
22:00 22:00 – 23:00 23:00
100
100.000
23:00 23:00 – 24:00 24:00
100
100.000
24:00 24:00 – 01:00 01:00
100
100.000
Total Volume
100
0 0 0 0 0 0
100.0000 16.1112
21
Lampiran 5 ENGINEERING SHEET No. 1 District
: Makmur
Sub Dis ttrri ct ct
: Sej ah ahtera
Vi llllage Nam e
: Subur
Designed by
:
Checked by
:
To ta ta l ho us us eh eho ld ld
:
106 household
WATERAND
Curr Current popula populatio tion n
:
530 people
ENVIRONMENTAL
Spri ng ngs' elevati on on
:
50 meter
Springs' debit Water Water requ require ireme ment nt
: :
6 liter/s ec econd 60 liter/day/person
U N I C E F
SANITATION
WATER REQUIREMENT Node to Node
Node Number of Number Household 1 2 3 4 5 6 7 8 9 10 11 11 12 13 14 14 15 16 17 18 18 19 20 21 22 23
1(Res) - 2 2-3 3-4 2- 5 5-6 6-7 6-8 5- 9 9 - 10 10 - 11 9 - 12 12 - 13 13 - 14 12 - 15 15 - 16 16 - 17 16 - 18 15 - 19 19 - 20 20 - 21 19 - 22 22 - 23
Population
3 6 2
15 30 10
-
20 40 13
6 9 5
40 61 34
7 4 1 8 4
35 20 5 40 20
-
47 27 7 54 27
-
-
8 5 4 8 8 8 5 5
40 25 20 40 40 40 25 25
54 34 27 54 54 54 34 34
106
530
714
Domestic usage (liter/day)
60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0 60.0
30 45 25
-
TOTAL
Population (20 years)
Water requirement (percapita)
non domestic usage
Water lost
Daily need (liter/day)
Maximum daily need (liter/day)
Peak time
1,212 2,424 808 2,424 3,637 2,020 2,828 1,616 404 3,232 1,616 3,232 2,020 1,616 3,232 3,232 3,232 2,020 2,020
61 121 40 121 182 101 141 81 20 162 81 162 101 81 162 162 162 101 101
191 3 82 127 3 82 5 73 3 18 4 45 2 55 64 509 2 55 509 318 2 55 509 509 509 318 318
1,464 2,927 976 2,927 4,391 2,439 3,415 1,952 488 3,903 1,952 3,903 2,439 1,952 3,903 3,903 3,903 2,439 2,439
1,610 3,220 1,073 3,220 4,830 2,683 3,757 2,147 5 37 4,294 2,147 4,294 2,683 2,147 4,294 4,294 4,294 2,683 2,683
6,440 12,881 4,294 12,881 19,321 10,734 15,027 8,587 2,147 17,174 8,587 17,174 10,734 8,587 17,174 17,174 17,174 10,734 10,734
0.07 0.15 0.05 0.15 0.22 0.12 0.17 0.10 0.02 0.20 0.10 0.20 0.12 0.10 0.20 0.20 0.20 0.12 0.12
42,830
2,141
6,746
51,717
56,889
227,556
2.63
22
Lampiran 5 ENGINEERING SHEET No. 2
U N I C E F WATERAND ENVIRONMENTAL SANITATION
District Sub Distri ct ct
: Makmur : Sejah tte era
Village Name
: Subur
Designed by
:
0
Check ed by
:
0
To tta a l h ou ou se se ho hol d
:
106 household
Cur Current rent po popu pula lati tion on
:
Spri Spring ngs' s' elev elevat ation ion Springs' debit Wate Waterr requ requir irem emen entt
TABEL DIAMETER PVC NOMINAL
TABEL TABEL DIAMETER GI
INSIDE
NOMINAL
INSIDE
20
22.6
20
21.2
25
28.8
25
26.8
40 50
45.2 57
40 50
41.4 52.4
530 people
75 100
81.4 99.4
75 100
79.9 104.1
:
50 meter
150
144.6
150
154.2
: :
6 liter/second 60 liter/day/person
HYDRAULIC HYDRAULIC CALCULATIO CALCULAT ION N Number of Node Connection number 1=Res 1(Res) - 2 3 2 2-3 6 3 3-4 2 4 2-5 0 5 5-6 6 6 6-7 9 7 6-8 5 8 5-9 0 9 9 - 10 7 10 10 - 11 4 11 9 - 12 1 12 12 - 13 8 13 13 - 14 4 14 12 - 15 0 15 15 - 16 8 16 16 - 17 5 17 16 - 18 4 18 15 - 19 8 19 19 - 20 8 20 20 - 21 8 21 19 - 22 5 22 22 - 23 5 23 Node to Node
Total
10 106
Q on node (lt/sec)
0.07 0.15 0.05 0.15 0.22 0.12 0.17 0.10 0.02 0.20 0.10 0.20 0.12 0.10 0.20 0.20 0.20 0.12 0.12 2.63
Q on Pipe (lt/sec)
2.63 0.20 0.05 2.36 0.50 0.22 0.12 1.86 0.27 0.10 1.59 0.30 0.10 1.27 0.42 0.12 0.10 0.84 0.40 0.20 0.25 0.12
L (meter)
120 84 84 42 84 84 60 30 84 54 30 84 66 30 84 30 48 66 108 84 132 180
D (mm)
V (meter/sec)
75 25 25 75 40 25 25 75 25 25 50 25 25 50 25 25 25 40 25 25 25 25
0. 0.51 0.31 0.08 0.45 0.31 0.34 0.19 0.36 0.42 0. 0.15 0. 0. 0.62 0.46 0. 0.15 0. 0.50 0.65 0. 0.19 0. 0.15 0. 0 0..53 0.61 0. 0.31 0. 0.38 0. 0.19 0.
C
Haze Hazen n Willia Williams ms Form Formul ula a S Hf (m)
130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130
0. 0.004 0.006 0.000 0.004 0.004 0.007 0.002 0.002 0.010 0.002 0.010 0.012 0.002 0.006 0.023 0.002 0.002 0.009 0.021 0.006 0.009 0.002
0.53 0.49 0.04 0.15 0.30 0.60 0.15 0.07 0.88 0.09 0.29 1.03 0.11 0.19 1.96 0.07 0.08 0.62 2.25 0.49 1.15 0.44
Tot otal al Head Head loss (m)
0.53 1.01 1.05 0.68 0.97 1.58 1.12 0.75 1.62 1.71 1.04 2.07 2.18 1.23 3.19 3.27 3.27 1.85 4.11 4.59 3.01 3.44
Elevation (m) 26.00 13.00 15.00 15.00 13.00 12.00 12.00 12.00 13.00 12.00 12.00 13.00 12.00 10.00 13.00 12.00 12.00 10.00 13.00 10.00 10.00 11.00 11.00
H residual (m)
12.47 9.99 9.95 12.32 13.03 12.42 12.88 12.25 12.38 12.29 11.96 11.93 13.82 11.77 10.81 10.73 12.73 11.15 11.89 11.41 11.99 11.56
H static (m)
13.00 11.00 11.00 13.00 14.00 14.00 14.00 13.00 14.00 14.00 13.00 14.00 16.00 13.00 14.00 14.00 16.00 13.00 16.00 16.00 15.00 15.00
1668
23
Lampiran 5 ENGINEERING SHEET No. 2
U N I C E F WATERAND ENVIRONMENTAL SANITATION
District Sub Distri ct ct
: Makmur : Sejah tte era
Village Name
: Subur
Designed by
:
0
Check ed by
:
0
To tta a l h ou ou se se ho hol d
:
106 household
Cur Current rent po popu pula lati tion on
:
Spri Spring ngs' s' elev elevat ation ion Springs' debit Wate Waterr requ requir irem emen entt
TABEL DIAMETER PVC NOMINAL
TABEL TABEL DIAMETER GI
INSIDE
NOMINAL
INSIDE
20
22.6
20
21.2
25
28.8
25
26.8
40 50
45.2 57
40 50
41.4 52.4
530 people
75 100
81.4 99.4
75 100
79.9 104.1
:
50 meter
150
144.6
150
154.2
: :
6 liter/second 60 liter/day/person
HYDRAULIC HYDRAULIC CALCULATIO CALCULAT ION N Number of Node Connection number 1=Res 1(Res) - 2 3 2 2-3 6 3 3-4 2 4 2-5 0 5 5-6 6 6 6-7 9 7 6-8 5 8 5-9 0 9 9 - 10 7 10 10 - 11 4 11 9 - 12 1 12 12 - 13 8 13 13 - 14 4 14 12 - 15 0 15 15 - 16 8 16 16 - 17 5 17 16 - 18 4 18 15 - 19 8 19 19 - 20 8 20 20 - 21 8 21 19 - 22 5 22 22 - 23 5 23 Node to Node
Total
Q on node (lt/sec)
Q on Pipe (lt/sec)
0.07 0.15 0.05 0.15 0.22 0.12 0.17 0.10 0.02 0.20 0.10 0.20 0.12 0.10 0.20 0.20 0.20 0.12 0.12
10 106
L (meter)
2.63 0.20 0.05 2.36 0.50 0.22 0.12 1.86 0.27 0.10 1.59 0.30 0.10 1.27 0.42 0.12 0.10 0.84 0.40 0.20 0.25 0.12
D (mm)
120 84 84 42 84 84 60 30 84 54 30 84 66 30 84 30 48 66 108 84 132 180
2.63
V (meter/sec)
75 25 25 75 40 25 25 75 25 25 50 25 25 50 25 25 25 40 25 25 25 25
0. 0.51 0.31 0.08 0.45 0.31 0.34 0.19 0.36 0.42 0. 0.15 0. 0. 0.62 0.46 0. 0.15 0. 0.50 0.65 0. 0.19 0. 0.15 0. 0 0..53 0.61 0. 0.31 0. 0.38 0. 0.19 0.
C
Haze Hazen n Willia Williams ms Form Formul ula a S Hf (m)
130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130 130
0. 0.004 0.006 0.000 0.004 0.004 0.007 0.002 0.002 0.010 0.002 0.010 0.012 0.002 0.006 0.023 0.002 0.002 0.009 0.021 0.006 0.009 0.002
0.53 0.49 0.04 0.15 0.30 0.60 0.15 0.07 0.88 0.09 0.29 1.03 0.11 0.19 1.96 0.07 0.08 0.62 2.25 0.49 1.15 0.44
Tot otal al Head Head loss (m)
0.53 1.01 1.05 0.68 0.97 1.58 1.12 0.75 1.62 1.71 1.04 2.07 2.18 1.23 3.19 3.27 3.27 1.85 4.11 4.59 3.01 3.44
Elevation (m) 26.00 13.00 15.00 15.00 13.00 12.00 12.00 12.00 13.00 12.00 12.00 13.00 12.00 10.00 13.00 12.00 12.00 10.00 13.00 10.00 10.00 11.00 11.00
H residual (m)
12.47 9.99 9.95 12.32 13.03 12.42 12.88 12.25 12.38 12.29 11.96 11.93 13.82 11.77 10.81 10.73 12.73 11.15 11.89 11.41 11.99 11.56
H static (m)
13.00 11.00 11.00 13.00 14.00 14.00 14.00 13.00 14.00 14.00 13.00 14.00 16.00 13.00 14.00 14.00 16.00 13.00 16.00 16.00 15.00 15.00
1668
23
Lampiran 5 ENGINEERING SHEET No. 3
U N I C E F WATERAND ENVIRONMENTAL SANITATION
Location No
Q on Pipe (lt/sec)
Spring B C (res)
District
: Makmur
Sub Sub -d -dist istri rict ct
: Seja Sejah h te te ra ra
Vill Villa a ge ge Name Name
: Sub Sub ur ur
Designed by
:
0
Checked by
:
0
To ta ta l h ou ouse se ho hold ld
:
1 06 06 h ou ouse se ho hold ld
Curr Curren entt pop popul ulat ation ion :
53 530 0 peopl people e
Spri Sprin n gs' gs' ele e lev va tio tion n :
5 0 mete meter r
Spri ng ngs ' de b biit : Water Water requ require ireme ment nt :
6 li te ter/s ec eco n nd d 60 lite liter/ r/day day/pe /pers rson on
L (meter)
1.98 1.98
420 168
D (mm)
50 5 0 50
Item Item No. No. Material Material Desc Descrip riptio tion n Length Length
V (meter/se c)
0.77 0.77
Hazen Williams Formula C
130 130
Bars (+ 5%)
Bars Bars
1 2 3 4 5 6
uPVC Pipe Ø 8" uPVC Pipe Ø 6" u PVC Pipe Ø 4" u PVC Pipe Ø 3" uPVC Pipe Ø 2" u PV PV C Pi pe pe Ø 11/2"
588 -
7 8
u PVC Pipe Ø 1" uPVC Pipe Ø 3/4"
-
-
-
GI Pipe GI Pipe GI Pipe GI Pipe
Ø 6" Ø 4" Ø 3" Ø 2"
-
-
1
-
9 10 11 12 13 14 15
GI Pipe Ø 1 / 2" GI Pipe Ø 1" GI Pipe Ø 3/ 4"
-
16
GI GI Pipe Ø 1/2"
-
102 -
108 -
-
-
-
-
S
0.0146 0.0146 0.
Total Elevation H residual H Static Head (m) (m) (m) Hf (m) loss (m)
6.14 2.46
6.14 8.60
50.00 11.00 26.00
32.86 15.40
39.00 24.00
This Table is used only for reference Length Dia (mm) GI PV C 50 420 50 168
Total Total
-
588 588
24
Lampiran 5 ENGINEERING SHEET No. 3
U N I C E F WATERAND ENVIRONMENTAL SANITATION
Location No
Q on Pipe (lt/sec)
Spring B C (res)
District
: Makmur
Sub Sub -d -dist istri rict ct
: Seja Sejah h te te ra ra
Vill Villa a ge ge Name Name
: Sub Sub ur ur
Designed by
:
0
Checked by
:
0
To ta ta l h ou ouse se ho hold ld
:
1 06 06 h ou ouse se ho hold ld
Curr Curren entt pop popul ulat ation ion :
53 530 0 peopl people e
Spri Sprin n gs' gs' ele e lev va tio tion n :
5 0 mete meter r
Spri ng ngs ' de b biit : Water Water requ require ireme ment nt :
6 li te ter/s ec eco n nd d 60 lite liter/ r/day day/pe /pers rson on
L (meter)
1.98 1.98
420 168
D (mm)
Hazen Williams Formula
V (meter/se c)
50 5 0 50
C
0.77 0.77
Item Item No. No. Material Material Desc Descrip riptio tion n Length Length
130 130
0.0146 0.0146 0.
6.14 2.46
uPVC Pipe Ø 8" uPVC Pipe Ø 6" u PVC Pipe Ø 4" u PVC Pipe Ø 3" uPVC Pipe Ø 2" u PV PV C Pi pe pe Ø 11/2"
588 -
102 -
7 8
u PVC Pipe Ø 1" uPVC Pipe Ø 3/4"
-
-
-
GI Pipe GI Pipe GI Pipe GI Pipe
Ø 6" Ø 4" Ø 3" Ø 2"
-
-
1
14 15
GI Pipe Ø 1 / 2" GI Pipe Ø 1" GI Pipe Ø 3/ 4"
-
-
108 -
16
GI GI Pipe Ø 1/2"
-
-
-
-
-
6.14 8.60
50.00 11.00 26.00
32.86 15.40
39.00 24.00
This Table is used only for reference Length Dia (mm) GI PV C 50 420 50 168
Bars (+ 5%)
Bars Bars
1 2 3 4 5 6
9 10 11 12 13
S
Total Elevation H residual H Static Head (m) (m) (m) Hf (m) loss (m)
Total Total
-
588 588
24
Lampiran 5 ENGINEERING SHEET No. 4
U N I C E F
District
: Makmur
SubSub-di dist stri rict ct
: Seja Sejaht hter era a
Vill Villag age e Name Name
: Subu Subur r
Designed by Checked by
: :
Tota Totall hous househ ehol old d
:
0 0 106 106 hous househ ehol old d
WATER AND
Curr Curren entt popu popula lati tion on :
530 530 peop people le
ENVIRONMENTAL
Spri Spring ngs' s' elev elevatio ation n :
50 mete meter r
Springs' debit : Wate Waterr requ requir irem emen entt :
6 lit er er/s e ec cond 60 lite liter/ r/da day/p y/per erso son n
SANITATION
GARIS TEKANAN PADA PADA TRANSMISI 60.00 50.00 40.00 30.00 20.00 10.00 Wash Out 0.00 1
2
3
Jalur Transmisi Transmisi HGL
25
Lampiran 5 ENGINEERING SHEET No. 4
U N I C E F
District
: Makmur
SubSub-di dist stri rict ct
: Seja Sejaht hter era a
Vill Villag age e Name Name
: Subu Subur r
Designed by Checked by
: :
Tota Totall hous househ ehol old d
:
0 0 106 106 hous househ ehol old d
WATER AND
Curr Curren entt popu popula lati tion on :
530 530 peop people le
ENVIRONMENTAL
Spri Spring ngs' s' elev elevatio ation n :
50 mete meter r
Springs' debit : Wate Waterr requ requir irem emen entt :
6 lit er er/s e ec cond 60 lite liter/ r/da day/p y/per erso son n
SANITATION
GARIS TEKANAN PADA PADA TRANSMISI 60.00 50.00 40.00 30.00 20.00 10.00 Wash Out 0.00 1
2
3
Jalur Transmisi Transmisi HGL
25
Lampiran 5
U N I C E F WATERAND ENVIRONMENTAL SANITATION
District Sub Distric t Village Name Designed by Checked by Total household Population Springs' elevation Springs' debit W at at er er r eq eq uir em eme nt
: : : : : : : : : :
ENGINEERING SHEET No.5 Makmur Sejahtera Subur 0 0 106 household 530 people 50 meter 6 liter/s econd 6 0 li te ter /d /d ay ay /p /p er er so son
PIPE AND FITTINGS FITTINGS ON MAIN DISTRIBUTION DISTRIBUTION
Item No.
Material Description
Main Distribution (meter)
Main Distribution (Bars)
Total Main Distribution (Bars) (+ 5 %)
This table is linked and used only for reference reference Diameter
Length
1
uPVC Pipe Ø 6"
-
-
-
2
uPVC Pipe Ø 4"
-
-
-
75
-
12 1 20
3
uPVC Pipe Ø 3"
192
32
34
25
-
84
4
uPVC Pipe Ø 2"
60
10
11
25
-
84
5
uPVC Pipe Ø 11/2"
150
25
27
75
-
42
6
uPVC Pipe Ø 1"
1,266
211
222
40
-
84
7
uPVC Pipe Ø 3/4"
-
-
-
25
-
84
8
GI Pipe Ø 6"
-
-
-
25
-
60
9
GI Pipe Ø 4"
-
-
-
75
-
30
10
GI Pipe Ø 3"
-
-
-
25
-
84
11
GI Pipe Ø 2"
-
-
-
25
-
54
12
GI Pipe Ø 11/2"
-
-
-
50
-
30
13
GI Pipe Ø 1"
-
-
-
25
-
84
14
GI Pipe Ø 3/4" GI Pipe Ø 1/2"
-
-
-
-
-
25 50
-
66 30
25
-
84
25
-
30
25
-
48
40
-
66
25
-
108
25
-
84
25
-
132
25
-
180
Total
-
1,668
15
Total
GI
PVC
1,668
26
Lampiran 5
U N I C E F WATERAND ENVIRONMENTAL SANITATION
District Sub Distric t Village Name Designed by Checked by Total household Population Springs' elevation Springs' debit W at at er er r eq eq uir em eme nt
ENGINEERING SHEET No.5 Makmur Sejahtera Subur 0 0 106 household 530 people 50 meter 6 liter/s econd 6 0 li te ter /d /d ay ay /p /p er er so son
: : : : : : : : : :
PIPE AND FITTINGS FITTINGS ON MAIN DISTRIBUTION DISTRIBUTION
Item No.
Material Description
Main Distribution (meter)
Main Distribution (Bars)
Total Main Distribution (Bars) (+ 5 %)
This table is linked and used only for reference reference Diameter
Length
1
uPVC Pipe Ø 6"
-
-
-
2
uPVC Pipe Ø 4"
-
-
-
75
-
12 1 20
3
uPVC Pipe Ø 3"
192
32
34
25
-
84
4
uPVC Pipe Ø 2"
60
10
11
25
-
84
5
uPVC Pipe Ø 11/2"
150
25
27
75
-
42
6
uPVC Pipe Ø 1"
1,266
211
222
40
-
84
7
uPVC Pipe Ø 3/4"
-
-
-
25
-
84
8
GI Pipe Ø 6"
-
-
-
25
-
60
9
GI Pipe Ø 4"
-
-
-
75
-
30
10
GI Pipe Ø 3"
-
-
-
25
-
84
11
GI Pipe Ø 2"
-
-
-
25
-
54
12
GI Pipe Ø 11/2"
-
-
-
50
-
30
13
GI Pipe Ø 1"
-
-
-
25
-
84
14
GI Pipe Ø 3/4" GI Pipe Ø 1/2"
-
-
-
-
-
25 50
-
66 30
25
-
84
25
-
30
25
-
48
40
-
66
25
-
108
25
-
84
25
-
132
25
-
180
Total
-
1,668
15
Total
GI
PVC
1,668
26
Lampiran 5
U N I C E F WATER ANDENVIRONMENTAL SANITATION
Dist rict S ub D is ttrr ic t V il la ge ge N am am e Designed by Check ed by Tota Totall hous househ ehold old Popul at ati on on S pr pr in in gs gs ' e le le va titi on on S pr in gs gs ' d eb ebi t ater requ require irement
NGINEERING SHEET No. 6 : Mak mur : S ej ah ah te te ra ra : S ub ur ur : 0 : 0 : 106 106 household : 530 pe op le : 5 0 m et et er er : 6 l it er er /s e ec co on nd : 60 liter/day/pe ay/perso rson n
PIPE AND FITTINGS FITTINGS ON HOUSEHOLD HOUSEHOLD CONNECTION CONNECTION This Table isused only for eference
Number House Connection on Pipe Diameter No
uPV C 0 0 3 1 14 88 Total 106 STANDARDIZEDITEM ONTYPICA L HOUSEHOLD CONNECTION No
Diam e te r 150 100 75 50 40 25
1
Ite m De sc scr ipt ion Valve Socket uPVCØ 3/4"
2 3 4
GI 0 0 0 0 0 0
Qu ant ity
Unit
Diam e te r 75 25 25 75 40 25 25 75 25
GI
uPV C
0
3
0
6
0
2
0
0
0
6
0 0
9
0
0
0
7
0
4
1
pe i ce s
25
Reducer GIØ 3/4"x1/2"
1
piece
0
1
Elbow 900 GIØ 1/2"
6 1
pe i ce s pi piece
50 25
0
8
25
0
4
1
piece
50 25
0
0
0
8
5
Gate V alve Ø 1/2" Lockable Valve Ø1/2"
6
Non Return Valve Ø 1/2"
1
piece
7 8
Water Meter Ø1/2" Double Nipple GIØ 1/2"
1 4
piece pieces
25
0
5
25
0
4
9
UnionGIØ 1/2"
1
piece
0
8
10 11
Tap Ø1/2"
1 1
piece piece
40 25
0
8
25
0
8
0.5
piece
25
0
5
3
pieces
25
0
5
0
0
0
12
Socket Ø 1/2" GIPipe Ø1/2"
13
uPVCPipe Ø3/4"
TOTAL PIPEANDFITTINGS FORHOUSEHOLDCONNECTIONS No 1 2 3 4 5
Ite m De sc scr ipt ion Valve Socket uPVCØ 3/4"
Qu ant ity
Unit
106 pieces
Reducer GIØ 3/4"x1/2"
106 pieces
Elbow 900 GIØ 1/2"
636 pieces 106 pieces
G ate V alve Ø 1/2" Lockable Valve Ø1/2"
106 pieces
6
Non Return Valve Ø 1/2"
106 pieces
7 8
Water Meter Ø1/2"
106 pieces 424 pieces
9
Double Nipple GI Ø 1/2" UnionGIØ 1/2"
106 pieces
10
Tap Ø1/2"
106 pieces
11 12
Socket Ø1/2" GIPipe Ø1/2"
106 pieces 53 pieces
13
uPVCPipe Ø3/4"
318 pieces
14 15
Clamp Saddle uPVC Ø 6"x3/4"
-
16
Cl amp Sa ddl eGI Ø 6 "x 3 /4 " Clamp Saddle uPVC Ø 4"x3/4"
17
Clamp Saddle GIØ 4" x 3/4"
18
Clamp Saddle uPVC Ø 3"x3/4"
19
Clamp Saddle GIØ 3" x 3/4"
20
Clamp Saddle uPVC Ø 2"x3/4"
21 22
Clamp Saddle GIØ 2" x 3/4"
-
p ie ce ce s pe i ce s p ie ce ce s p ie ce ce s 3 pieces
-
p ie ce ce s
23
Tee uPV C Ø Ø1 11/2"x1" Reducer uPVCØ 1"x3/4"
24
Tee GIØ 11/2"x1"
25
Tee uPVCØ 1"x3/4"
88 pieces
26 27
Tee GIØ 1"x3/4"
-
28
V alv eSoc ket uPV CØ CØ 3/ 3/4" Bend 90 0uPVCØ 3/4"
29
SealTape
106
1 pieces p ie ce ce s 14 pieces 14 pieces -
p ie ce ce s p ie ce ce s 4 pieces 4 pieces
530 pieces
27
Lampiran 5
U N I C E F WATER ANDENVIRONMENTAL SANITATION
NGINEERING SHEET No. 6 Dist rict : Mak mur S ub D is ttrr ic t : S ej ah ah te te ra ra V il la ge ge N am am e : S ub ur ur Designed by : 0 Check ed by : 0 Tota Totall hous househ ehold old : 106 106 household Popul at ati on on : 530 pe op le S pr pr in in gs gs ' e le le va titi on on : 5 0 m et et er er S pr in gs gs ' d eb ebi t : 6 l it er er /s e ec co on nd ater requ require irement : 60 liter/day/pe ay/perso rson n
PIPE AND FITTINGS FITTINGS ON HOUSEHOLD HOUSEHOLD CONNECTION CONNECTION This Table isused only for eference
Number House Connection on Pipe Diameter No
Diam e te r 150 100 75 50 40 25
uPV C 0 0 3 1 14 88 Total 106 STANDARDIZEDITEM ONTYPICA L HOUSEHOLD CONNECTION No 1
Ite m De sc scr ipt ion Valve Socket uPVCØ 3/4"
2 3 4
GI 0 0 0 0 0 0
Qu ant ity
Diam e te r 75 25 25 75 40 25 25 75 25
Unit
GI
uPV C
0
3
0
6
0
2
0
0
0
6
0 0
9
0
0
0
7
0
4
1
pe i ce s
25
Reducer GIØ 3/4"x1/2"
1
piece
0
1
Elbow 900 GIØ 1/2"
6 1
pe i ce s pi piece
50 25
0
8
25
0
4
1
piece
50 25
0
0
0
8
5
Gate V alve Ø 1/2" Lockable Valve Ø1/2"
6
Non Return Valve Ø 1/2"
1
piece
7 8
Water Meter Ø1/2" Double Nipple GIØ 1/2"
1 4
piece pieces
25
0
5
25
0
4
9
UnionGIØ 1/2"
1
piece
0
8
10 11
Tap Ø1/2"
1 1
piece piece
40 25
0
8
25
0
8
0.5
piece
25
0
5
3
pieces
25
0
5
0
0
0
12
Socket Ø 1/2" GIPipe Ø1/2"
13
uPVCPipe Ø3/4"
TOTAL PIPEANDFITTINGS FORHOUSEHOLDCONNECTIONS No
Ite m De sc scr ipt ion Valve Socket uPVCØ 3/4"
1
Qu ant ity
Unit
106 pieces
2
Reducer GIØ 3/4"x1/2"
106 pieces
3 4
Elbow 900 GIØ 1/2"
636 pieces 106 pieces
5
G ate V alve Ø 1/2" Lockable Valve Ø1/2"
106 pieces
6
Non Return Valve Ø 1/2"
106 pieces
7 8
Water Meter Ø1/2"
106 pieces 424 pieces
9
Double Nipple GI Ø 1/2" UnionGIØ 1/2"
106 pieces
10
Tap Ø1/2"
106 pieces
11 12
Socket Ø1/2" GIPipe Ø1/2"
106 pieces 53 pieces
13
uPVCPipe Ø3/4"
318 pieces
14 15
Clamp Saddle uPVC Ø 6"x3/4"
-
16
Cl amp Sa ddl eGI Ø 6 "x 3 /4 " Clamp Saddle uPVC Ø 4"x3/4"
17
Clamp Saddle GIØ 4" x 3/4"
18
Clamp Saddle uPVC Ø 3"x3/4"
19
Clamp Saddle GIØ 3" x 3/4"
20
Clamp Saddle uPVC Ø 2"x3/4"
21 22
Clamp Saddle GIØ 2" x 3/4"
p ie ce ce s pe i ce s
-
p ie ce ce s
-
p ie ce ce s 3 pieces
-
23
Tee uPV C Ø Ø1 11/2"x1" Reducer uPVCØ 1"x3/4"
24
Tee GIØ 11/2"x1"
25
Tee uPVCØ 1"x3/4"
88 pieces
26 27
Tee GIØ 1"x3/4"
-
28
V alv eSoc ket uPV CØ CØ 3/ 3/4" Bend 90 0uPVCØ 3/4"
29
SealTape
106
p ie ce ce s 1 pieces
p ie ce ce s 14 pieces 14 pieces -
p ie ce ce s p ie ce ce s 4 pieces 4 pieces
530 pieces
27
Lampiran 5 ENGINEERING SHEET No. 7 Dist ririct
U N I C E F WATER AND ENVIRONMENTAL SANITATION
: S ej ej ah ah tte e ra ra : S ub ub ur ur
Desi gned by
:
Checked by
:
Node 4 Node 5
Node 6
Node 7 Node 8 Node 9
106 hou househ sehol old
:
53 30 0 pe eo o pl e
Sprin Springs' gs' elev elevation on
:
50 met meter er
S pr pr i ng s' s' d eb eb it Water requirement irement
: :
6 l itit e r/ s ec ec on on d 60 liter/da i ter/day/person
Volume
Spri ngs C a pture An d R ese rvoir No It e m
1
Pi ec es es
Reducer uPVCØ 11/2"x1"
1
Piec es
Gate Valve Ø 1"
1
Pi ec es es
Valve Socket uPVCØ 1"
2
Pi ec es es Pieces
Be nd 900 G I Ø 2"
End Cap uPVCØ 1"
1
Pi ec es es
Ga te V alv e Ø 2"
Pieces
8 1
Pieces
Vo l ume Piec e s
RESERVOIR 25 M3 GI P ipe Ø 2"
2
Pieces
GI P ipe Ø 3"
2 8
Pieces Pieces
4
Pieces
Tee uPVCØ 3"x11/2"
1
Pi ec es es
Flange GI Ø 2" F la ng ng e S oc oc ke ke t u PV PV C Ø 2 "
Gate Valve Ø 11/2"
1
Pi ec es es
Te e GI Ø 2"x2"
1
Pieces
Valve Socket uPVCØ 11/2"
2
Pi ec es es Pieces
Float V alv e Ø 2"
2
Re duc er er G I Ø 3"x 2"
0
Pieces Pieces
Pieces
Tee uPVCØ 11/2"x1"
1
Pi ec es es
Ga te V alv e Ø 3"
2
Pieces
Reducer uPVCØ 11/2"x1"
1
Pi ec es es
2
Pi ec es es
Flange GI Ø 3" Te e GI Ø 3"x3"
5 1
Pieces
Gate Valve Ø 1" Valve Socket uPVCØ 1"
4
Pi ec es es
Be nd 900 G I Ø 3"
3
Pieces
F la ng ng e S oc oc ke ke t u PV PV C Ø 3 "
1
1
Pieces Piece s
Ga te V alv e Ø 11/2"
4
Pieces Pieces
Pieces
So ck et Ø 11 /2 "
8
Pieces
Pi ec es es
Double Nipple GI Ø 11/2" 11/2"
8
Pieces
End Cap uPV C Ø 1" End Cap uPVCØ 1"
1
Pieces
Piece s
Pie c es
1 1
Piec es Piec es
Piec e s Piec e s
1 1
Pi ec es es Piec es
1
Pi ec es es
Flange SocketuPVCØ 2"
2
Pi ec es es
Valve Socket uPVCØ 1"
2
Pi ec es es
150 100
1
Pieces Piece s
75
1
Piece s
50 40
1
Tee uPVCØ 3"x11/2" Reducer uPVCØ 11/2"x1" Gate V alv e Ø 2" Gate Valve Ø 1"
Node 11
End Cap uPV C Ø 1"
Node 12
Tee uPVCØ 2"x1"
1
Gate Valve Ø 1"
1 2
V al al ve ve S oc oc ke tu PV C Ø 1 " End Cap uPV C Ø1 Ø 1"
1
Number of Air Valve on Pipe Diameter No Dia me ter GI
Pi ec es es
PVC
25
Pi ec es es Pi ec es es Pieces
Node 15
0
:
P op op ul at at io n
Tee uPVCØ 3"x11/2"
Red uc er uPV C Ø 3 "x 2"
Node 14
0
Total Total househol sehold
Junction Distribution No Ite m Node 2
: Makmur
S ub ub D is is tr tr ic ic t V i l ag ag e N a am me
Total Fittings For Air Valves No
Ite m
V olum e
Piece s
Cl amp Saddle GI Ø3" x 3/4"
1
Pie c es
Piece s
2
Pi P ie c es
Tee uPVCØ 2"x1"
1
Pi ec es es
Ai r V alv e Ø 1 /2" Gate Valve Ø 1"
Pieces
Reducer uPVCØ 2"x11/2"
1
Pi ec es es
Gate Valve Ø 1/2"
2
Pie ce ce s
Gate Valve Ø 1"
1
Pi ec es es
Double Nipple GIØ 3/4"
2
Pie ce ce s
Valve Socket uPVCØ 1"
2
Pi ec es es
Double Nipple GIØ 1/2"
2
Pie ce ce s
Clamp Saddle GIØ 2" x 3/4"
Tee u PV C Ø1"x1 "
1
Pieces Pi Piec es
1 2
Pie ce ce s Piec e s
Gate Valve Ø 1"
2
Pi ec es es
Valve Socket uPVCØ 1"
4
Node 17
End Cap uPVCØ 1"
1
Node 18
End Cap uPVCØ 1"
1
Node 19
Tee uPVCØ 11/2"x1"
1
Pi ec es es Pi ec es es
Node 16
Re ducer GI Ø3/4"x1/2"
Pi ec es es Pieces Pi ec es es Pieces Pi ec es es Pieces
Reducer uPVCØ 11/2"x1"
1
Gate Valve Ø 1"
2
Valve Socket uPVCØ 1"
4
Pi ec es es Pi ec es es Pieces Pieces
28
Lampiran 5 ENGINEERING SHEET No. 7
U N I C E F WATER AND ENVIRONMENTAL SANITATION
Dist ririct
: Makmur
S ub ub D is is tr tr ic ic t
: S ej ej ah ah tte e ra ra
V i l ag ag e N a am me
: S ub ub ur ur
Desi gned by
:
Checked by
:
Total Total househol sehold
:
106 hou househ sehol old
Node 4 Node 5
Node 6
Node 7 Node 8 Node 9
0
P op op ul at at io n
:
53 30 0 pe eo o pl e
Sprin Springs' gs' elev elevation on
:
50 met meter er
S pr pr i ng s' s' d eb eb it Water requirement irement
: :
6 l itit e r/ s ec ec on on d 60 liter/da i ter/day/person
Junction Distribution No Ite m Node 2
0
Volume
Spri ngs C a pture An d R ese rvoir No It e m
Tee uPVCØ 3"x11/2"
1
Pi ec es es
Reducer uPVCØ 11/2"x1"
1
Piec es
Gate Valve Ø 1"
1
Pi ec es es
Valve Socket uPVCØ 1"
2
Pi ec es es Pieces
Be nd 900 G I Ø 2"
End Cap uPVCØ 1"
1
Pi ec es es
Ga te V alv e Ø 2"
Pieces
8
Pieces Pieces
4
Pieces
Flange GI Ø 2" F la ng ng e S oc oc ke ke t u PV PV C Ø 2 "
8 1
Pieces
Pi ec es es
Gate Valve Ø 11/2"
1
Pi ec es es
Te e GI Ø 2"x2"
1
Pieces
Valve Socket uPVCØ 11/2"
2
Pi ec es es Pieces
Float V alv e Ø 2"
2
Re duc er er G I Ø 3"x 2"
0
Pieces Pieces
Tee uPVCØ 11/2"x1"
1
Pi ec es es
Ga te V alv e Ø 3"
2
Pieces
Flange GI Ø 3" Te e GI Ø 3"x3"
5 1
Pieces
Pieces
Reducer uPVCØ 11/2"x1"
1
Pi ec es es
Gate Valve Ø 1"
2
Pi ec es es
Valve Socket uPVCØ 1"
4
Pi ec es es
Be nd 900 G I Ø 3"
3
Pieces
F la ng ng e S oc oc ke ke t u PV PV C Ø 3 "
1
1
Pieces Piece s
Ga te V alv e Ø 11/2"
4
Pieces Pieces
Pieces
So ck et Ø 11 /2 "
8
Pieces
Pi ec es es
Double Nipple GI Ø 11/2" 11/2"
8
Pieces
End Cap uPV C Ø 1" End Cap uPVCØ 1"
1
Tee uPVCØ 3"x11/2"
Gate V alv e Ø 2" Gate Valve Ø 1"
Pie c es
1 1
Piec es Piec es
Piec e s Piec e s
1 1
Pi ec es es Piec es
Number of Air Valve on Pipe Diameter No Dia me ter GI
1
Pi ec es es
Flange SocketuPVCØ 2"
2
Pi ec es es
Valve Socket uPVCØ 1"
2
Pi ec es es
150
Pieces Piece s
100 75
1
Piece s
50 40
1
End Cap uPV C Ø 1"
1
Node 12
Tee uPVCØ 2"x1"
1
Gate Valve Ø 1"
1 2
V al al ve ve S oc oc ke tu PV C Ø 1 "
Pi ec es es
1
PVC
25
Pi ec es es Pi ec es es
Total Fittings For Air Valves
Pieces End Cap uPV C Ø1 Ø 1"
Pieces
Piece s
Node 11
Node 16
Pieces
2
1
Reducer uPVCØ 11/2"x1"
Node 15
Piec e s
2
GI P ipe Ø 3"
Tee uPVCØ 3"x11/2"
Red uc er uPV C Ø 3 "x 2"
Node 14
Vo l ume
RESERVOIR 25 M3 GI P ipe Ø 2"
No
Ite m
V olum e
Piece s
Cl amp Saddle GI Ø3" x 3/4"
1
Pie c es
Piece s
2
Pi P ie c es
Tee uPVCØ 2"x1"
1
Pi ec es es
Ai r V alv e Ø 1 /2" Gate Valve Ø 1"
Pieces
Reducer uPVCØ 2"x11/2"
1
Pi ec es es
Gate Valve Ø 1/2"
2
Pie ce ce s
Gate Valve Ø 1"
1
Pi ec es es
Double Nipple GIØ 3/4"
2
Pie ce ce s
Valve Socket uPVCØ 1"
2
Pi ec es es
Double Nipple GIØ 1/2"
2
Pie ce ce s
Clamp Saddle GIØ 2" x 3/4"
Tee u PV C Ø1"x1 "
1
Pieces Pi Piec es
1 2
Pie ce ce s Piec e s
Gate Valve Ø 1"
2
Pi ec es es
Valve Socket uPVCØ 1"
4
Node 17
End Cap uPVCØ 1"
1
Node 18
End Cap uPVCØ 1"
1
Node 19
Tee uPVCØ 11/2"x1"
1
Pi ec es es Pi ec es es
Re ducer GI Ø3/4"x1/2"
Pi ec es es Pieces Pi ec es es Pieces Pi ec es es Pieces
Reducer uPVCØ 11/2"x1"
1
Gate Valve Ø 1"
2
Valve Socket uPVCØ 1"
4
Pi ec es es Pi ec es es Pieces Pieces
28
Lampiran 5 ENGINEERING SHEET No. 8
U N I C E F WATERAND
ENGINEERING NG SHEET No. 9
Di stri ct
: Makmur
District
: Makmur
Sub-dis t rict
: Sejahtera
Sub-dist rict
: Sejahtera
Village Name
: Subur
Vi llage Name
: Subur
Designed by
:
0
Desi gned by
:
0
Chec k ed by
:
0
Check ed by
:
0
Total household
:
106 household
Current population
:
530 people
WATER AND
Springs' elevation
:
50 meter
ENVIRONMENTAL
Springs' debit W ater requirement
: :
6 liter/s econd 60 liter/day/ person
U N I C E F
SANITATION
DATA INPUT AND CALCULATION Water demand : 56,889 lt/ day W ater demand perday : 56.89 3/day W ater production per sec ond : .66 t/ sec ond
W ater demand Water
W ater production per hour : Wat er production per day :
:
106 household
:
530 people
Springs' elevation
:
50 meter
Springs' debit : Wat er requirement :
6 liter/s econd 60 liter/day/ person
DATA INPUT AND CALCULATION Water demand : 56,889 lt/ day Wat er demand perday : 56 5 6.89 3/day ater production per sec ond : .66 t/ sec ond
Water demand Water Production
2.37 m3/hour 56.89 m3/day
Total household Current population
Wat er production per hour : W ater production per day :
2.37 m3/hour 56.89 m3/day
ABLE ON WATER WATER DEMAND VS PRODUCTION PRODUCTION Jam
Koefisien kebutuhan air %
Kebutuhan air perjam m3 /hour
Produksi air Kumulatif Kumulatif perjam kebutuhan air persediaan air 3 3 m /hour m /hour m 3/hour
Sisa
WATER DEMAND VS PRODUCTION
m3 /hour
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
0.2 0.2 0.2 0.2 0.2 6 15 14 5 5 5 4 4 2.6 2.6 2.6 15 16
0.11 0.11 0.11 0.11 0.11 3.41 8.53 7.96 2.84 2.84 2.84 2.28 2.28 1.48 1.48 1.48 8.53 9.10
2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46
0.11 0.23 0.34 0.46 0.57 3.98 1 2.52 12 20.48 2 3.32 23 2 6.17 2 9.01 3 1.29 3 3.56 35.04 36.52 38.00 46.54 55.64
2.46 4.92 7.38 9.84 1 2.30 1 4.76 14 1 7.22 17 1 9.68 22.14 22 2 4.60 24 2 7.06 27 2 9.52 29 3 1.98 31 34.44 36.90 39.36 41.82 44.28
2.35 4.69 7.04 9.38 11.73 10.78 4.70 -0.80 -1.18 -1.57 -1.95 -1.77 -1.58 -0.60 0.38 1.36 -4.72 -11.36
19
1.2
0.68
2.46
56.32
46.74
-9.58
20 21 22 23 24
0.2 0.2 0.2 0.2 0.2 100
0.11 0.11 0.11 0.11 0.11 56.89
2.46 2.46 2.46 2.46 2.46 59.04
56.43 56.55 56.66 56.78 56.89
49.20 51.66 54.12 56.58 59.04
-7.23 -4.89 -2.54 -0.20 2.15
Total
70.00
60.00
50.00
40.00 Consumption
3 m
Production
30.00
20.00
10.00
0.00 1
2
3
4
5
6
7
8
9 10 1 11 1 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 Hour
Reservoir Calculation Max Min Total R eservoir Capacity
11.73 m3 3
-11.36 m
3
23.09 m
29
Lampiran 5 ENGINEERING SHEET No. 8
U N I C E F WATERAND
ENGINEERING NG SHEET No. 9
Di stri ct
: Makmur
District
: Makmur
Sub-dis t rict
: Sejahtera
Sub-dist rict
: Sejahtera
Village Name
: Subur
Vi llage Name
: Subur
Designed by
:
0
Desi gned by
:
0
Chec k ed by
:
0
Check ed by
:
0
Total household
:
106 household
Current population
:
530 people
WATER AND ENVIRONMENTAL
U N I C E F
Springs' elevation
:
50 meter
Springs' debit W ater requirement
: :
6 liter/s econd 60 liter/day/ person
SANITATION
DATA INPUT AND CALCULATION Water demand : 56,889 lt/ day W ater demand perday : 56.89 3/day W ater production per sec ond : .66 t/ sec ond
W ater demand Water
W ater production per hour : Wat er production per day :
:
106 household
:
530 people
Springs' elevation
:
Springs' debit : Wat er requirement :
50 meter 6 liter/s econd 60 liter/day/ person
DATA INPUT AND CALCULATION Water demand : 56,889 lt/ day Wat er demand perday : 56 5 6.89 3/day ater production per sec ond : .66 t/ sec ond
Water demand Water Production
2.37 m3/hour 56.89 m3/day
Total household Current population
Wat er production per hour : W ater production per day :
2.37 m3/hour 56.89 m3/day
ABLE ON WATER WATER DEMAND VS PRODUCTION PRODUCTION Koefisien kebutuhan air %
Jam
Kebutuhan air perjam m3 /hour
Produksi air Kumulatif Kumulatif perjam kebutuhan air persediaan air 3 3 m /hour m /hour m 3/hour
Sisa
WATER DEMAND VS PRODUCTION
m3 /hour
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
0.2 0.2 0.2 0.2 0.2 6 15 14 5 5 5 4 4 2.6 2.6 2.6 15 16
0.11 0.11 0.11 0.11 0.11 3.41 8.53 7.96 2.84 2.84 2.84 2.28 2.28 1.48 1.48 1.48 8.53 9.10
2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46 2.46
0.11 0.23 0.34 0.46 0.57 3.98 1 2.52 12 20.48 2 3.32 23 2 6.17 2 9.01 3 1.29 3 3.56 35.04 36.52 38.00 46.54 55.64
2.46 4.92 7.38 9.84 1 2.30 1 4.76 14 1 7.22 17 1 9.68 22.14 22 2 4.60 24 2 7.06 27 2 9.52 29 3 1.98 31 34.44 36.90 39.36 41.82 44.28
2.35 4.69 7.04 9.38 11.73 10.78 4.70 -0.80 -1.18 -1.57 -1.95 -1.77 -1.58 -0.60 0.38 1.36 -4.72 -11.36
19
1.2
0.68
2.46
56.32
46.74
-9.58
20 21 22 23 24
0.2 0.2 0.2 0.2 0.2 100
0.11 0.11 0.11 0.11 0.11 56.89
2.46 2.46 2.46 2.46 2.46 59.04
56.43 56.55 56.66 56.78 56.89
49.20 51.66 54.12 56.58 59.04
-7.23 -4.89 -2.54 -0.20 2.15
Total
70.00
60.00
50.00
40.00 Consumption
3 m
Production
30.00
20.00
10.00
0.00 1
2
3
4
5
6
7
8
9 10 1 11 1 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 Hour
Reservoir Calculation 11.73 m3
Max
3
Min
-11.36 m
3
Total R eservoir Capacity
23.09 m
29
Lampiran 5 ENGINEERING SHEET No. 10
N I C E F WATERAND ENVIRONMENTAL SANITATION
Dist rict Su b Dis ttrr c i t V ill ag e N ame Des igned by Chec ked by To ta ta l h ou se se ho ld Population S prin gs ' e e l vat ion Springs' debit a te te r r eq eq ui re re me nt nt
Mak mur Se a j ht er a Su bu r 0 0 1 06 06 h ou se se ho ld 530 people 5 0 me ter 6 liter /s /sec ond 6 0 l it er er / da y/ y/ pe pe rs rs o n
PIPE AND FITTINGS CALCULATION
Item No.
Material Description
Transmisi
Main Distribution
House Connection
Junction
Springs Capture & Reservoir
B PT
A i r V al al v e
W as as h O ut ut
Additional Fittings
T oo ls
T ot al
1
uPVC Pipe Ø 8"
-
-
-
-
-
-
-
-
-
-
2
uPVC Pipe Ø 6"
-
-
-
-
-
-
-
-
-
-
3
uPVC Pipe Ø 4"
-
-
-
-
-
-
-
-
-
-
4
uPVC Pipe Ø 3"
-
34
-
-
-
-
-
-
-
34
5
uPVC Pipe Ø 2"
108
11
-
-
-
-
-
-
-
119
6
1
uPVC Pipe Ø 1 / 2"
-
27
-
-
-
-
-
-
-
27
7
uPVC Pipe Ø 1"
-
222
-
-
-
-
-
-
-
222
3
8
uPVC Pipe Ø /4 "
-
-
-
318
-
-
-
-
-
318
9
GI Pipe Ø 6"
-
-
-
-
-
-
-
-
-
-
10
GI Pipe Ø 4"
-
-
-
-
-
-
-
-
-
-
11
GI Pipe Ø 3"
-
-
-
-
2
-
-
-
-
12
GI Pipe Ø 2"
-
-
-
-
2
-
-
-
-
13
GI Pipe Ø 1 1 /2 "
-
-
-
-
-
-
-
-
-
-
14
GI Pipe Ø 1"
-
-
-
-
-
-
-
-
-
-
15
GI Pipe Ø 3/ 4"
-
-
-
-
-
-
-
-
-
-
1
2 2
16
GI Pipe Ø / 2"
-
-
-
53
-
-
-
-
-
53 53
17
Tee uPVC Ø 8"x8"
-
-
-
-
-
-
-
-
-
-
18
Tee uPVC Ø 8"x6"
-
-
-
-
-
-
-
-
-
19
Tee uPVC Ø 8"x4"
-
-
-
-
-
-
-
-
-
20
Tee uPVC Ø 6"x6"
-
-
-
-
-
-
-
-
-
-
21
Tee uPVC Ø 6"x4"
-
-
-
-
-
-
-
-
-
-
22
Tee uPVC Ø 6"x3"
-
-
-
-
-
-
-
-
-
-
23
Tee uPVC Ø 6"x2"
-
-
-
-
-
-
-
-
-
-
24
Tee uPVC Ø 4"x4"
-
-
-
-
-
-
-
-
-
-
25
Tee uPVC Ø 4"x3"
-
-
-
-
-
-
-
-
-
-
26
Tee uPVC Ø 4"x2"
-
-
-
-
-
-
-
-
-
-
27
Tee uPVC Ø 3"x3"
-
-
-
-
-
-
-
-
-
-
28
Tee uPVC Ø 3"x2"
-
-
-
-
29
1
Tee uPVC Ø 3"x1 / 2"
-
-
30
Tee uPVC Ø 2"x2"
-
-
-
31
Tee uPVC Ø 2"x1 1 / 2"
-
-
-
32
Tee uPVC Ø 2"x1"
-
-
33
Tee uPVC Ø 1 1/ 2 "x11 / 2"
-
-
34
Tee uPVC Ø 1 1/ 2 "x1"
-
35
Tee uPVC Ø 1"x1"
36 37
Tee uPVC Ø 1"x 3
-
3
2 -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
3
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
16 16
2
-
2
14
-
-
-
-
-
-
-
1
-
-
-
-
-
-
1
3/ " 4
-
-
-
88
-
-
-
-
-
88 88
3
-
-
-
-
-
-
-
-
-
-
Tee uPVC Ø /4 "x / 4"
Catatan: Tabel ini tidak utuh Lampiran 6 30
Lampiran 5 ENGINEERING SHEET No. 10
N I C E F WATERAND ENVIRONMENTAL SANITATION
Dist rict Su b Dis ttrr c i t V ill ag e N ame Des igned by Chec ked by To ta ta l h ou se se ho ld Population S prin gs ' e e l vat ion Springs' debit a te te r r eq eq ui re re me nt nt
Mak mur Se a j ht er a Su bu r 0 0 1 06 06 h ou se se ho ld 530 people 5 0 me ter 6 liter /s /sec ond 6 0 l it er er / da y/ y/ pe pe rs rs o n
PIPE AND FITTINGS CALCULATION
Item No.
Material Description
Transmisi
Main Distribution
House Connection
Junction
Springs Capture & Reservoir
B PT
A i r V al al v e
W as as h O ut ut
Additional Fittings
T oo ls
T ot al
1
uPVC Pipe Ø 8"
-
-
-
-
-
-
-
-
-
-
2
uPVC Pipe Ø 6"
-
-
-
-
-
-
-
-
-
-
3
uPVC Pipe Ø 4"
-
-
-
-
-
-
-
-
4
uPVC Pipe Ø 3"
-
34
-
-
-
-
-
-
-
34
5
uPVC Pipe Ø 2"
108
11
-
-
-
-
-
-
-
119
27
-
-
6
uPVC Pipe Ø 1 / 2"
1
-
-
-
-
-
-
-
-
27
7
uPVC Pipe Ø 1"
-
222
-
-
-
-
-
-
-
222
3
8
uPVC Pipe Ø /4 "
-
-
-
318
-
-
-
-
-
318
9
GI Pipe Ø 6"
-
-
-
-
-
-
-
-
-
-
10
GI Pipe Ø 4"
-
-
-
-
-
-
-
-
-
-
11
GI Pipe Ø 3"
-
-
-
-
2
-
-
-
-
12
GI Pipe Ø 2"
-
-
-
-
2
-
-
-
-
13
GI Pipe Ø 1 1 /2 "
-
-
-
-
-
-
-
-
-
-
14
GI Pipe Ø 1"
-
-
-
-
-
-
-
-
-
-
15
GI Pipe Ø 3/ 4"
-
-
-
-
-
-
-
-
-
-
16
GI Pipe Ø 1/ 2"
-
-
-
53
-
-
-
-
-
53 53
17
Tee uPVC Ø 8"x8"
-
-
-
-
-
-
-
-
-
-
18
Tee uPVC Ø 8"x6"
-
-
-
-
-
-
-
-
-
19
Tee uPVC Ø 8"x4"
-
-
-
-
-
-
-
-
-
-
20
Tee uPVC Ø 6"x6"
-
-
-
-
-
-
-
-
-
-
21
Tee uPVC Ø 6"x4"
-
-
-
-
-
-
-
-
-
-
22
Tee uPVC Ø 6"x3"
-
-
-
-
-
-
-
-
-
-
23
Tee uPVC Ø 6"x2"
-
-
-
-
-
-
-
-
-
-
24
Tee uPVC Ø 4"x4"
-
-
-
-
-
-
-
-
-
-
25
Tee uPVC Ø 4"x3"
-
-
-
-
-
-
-
-
-
-
26
Tee uPVC Ø 4"x2"
-
-
-
-
-
-
-
-
-
-
27
Tee uPVC Ø 3"x3"
-
-
-
-
-
-
-
-
-
-
28
Tee uPVC Ø 3"x2"
-
-
-
-
-
-
-
-
-
-
29
1
Tee uPVC Ø 3"x1 / 2"
-
-
-
-
-
-
-
-
30
Tee uPVC Ø 2"x2"
-
-
-
-
-
-
-
-
-
-
31
1
Tee uPVC Ø 2"x1 / 2"
-
-
-
-
-
-
-
-
-
-
32
Tee uPVC Ø 2"x1"
-
-
33
Tee uPVC Ø 1 1/ 2 "x11 / 2"
-
-
34
Tee uPVC Ø 1 1/ 2 "x1"
-
-
35
Tee uPVC Ø 1"x1"
-
-
36
Tee uPVC Ø 1"x 3/4 "
-
-
-
-
-
-
37
3
3
Tee uPVC Ø /4 "x / 4"
3
2
-
2
3
-
-
-
-
-
-
-
-
-
-
-
2
14
-
-
-
-
-
16 16
1
-
-
-
-
-
-
1
88
-
-
-
-
-
88 88
-
-
-
-
-
-
-
-
-
2
2
Catatan: Tabel ini tidak utuh Lampiran 6 30
31
31
Lampiran 6
32
Lampiran 6
32
Lampiran 6
33
Lampiran 6
33
Lampiran 6
34
Lampiran 6
34
Lampiran 6
35
Lampiran 6
35
Lampiran 6
36
Lampiran 6
36
Lampiran 6
37
Lampiran 6
37
Lampiran 6
38
Lampiran 6
38
Lampiran 6
39
Lampiran 6
39
Lampiran 7 Daftar Pipa dan Fitting PVC yang disediakan UNICEF 1
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 19 6, rubber ring j commplete commplete with synthetic rubber ring, outside outside diameter 200 mm, wall thickness 9.6 mm ( S -10 ), 6 meters long
2
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, rubber ring j commplete commplete with synthetic rubber ring, outside diameter 160 mm, wall thickness 7.7 mm (S-10), 6 meters long
3
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, rubber ring j commplete commplete with synthetic rubber ring, outside diameter 110 mm, wall thickness 5.3 mm (S-10), 6 meters long
4
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 1996, rubber ring ring j commplete commplete with synthetic rubber ring, outside outside diameter 90 mm, wall thickness 4.3 mm ( S -10 ), 6 meters long
5
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 1996, rubber ring ring j commplete with synthetic synthetic rubber ring, outside diameter 63 mm, wall thickness 3 mm (S-10), 6 meters long
6
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter 50 mm, wall thickness thickness 2.4 mm (S-10), 6 meters long
7
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter diameter 32 mm, wall thickness thickness 1.6 mm (S-10 ), 6 meters long
8
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter diameter 25 mm, wall thickness 1.2 mm (S- 10 ), 6 meters long
9
Tee, all socket with rub er ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 200 mm x 200 mm
10
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 200 mm x 160 mm
11
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable s tandards
Lampiran 7 Daftar Pipa dan Fitting PVC yang disediakan UNICEF 1
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 19 6, rubber ring j commplete commplete with synthetic rubber ring, outside outside diameter 200 mm, wall thickness 9.6 mm ( S -10 ), 6 meters long
2
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, rubber ring j commplete commplete with synthetic rubber ring, outside diameter 160 mm, wall thickness 7.7 mm (S-10), 6 meters long
3
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, rubber ring j commplete commplete with synthetic rubber ring, outside diameter 110 mm, wall thickness 5.3 mm (S-10), 6 meters long
4
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 1996, rubber ring ring j commplete commplete with synthetic rubber ring, outside outside diameter 90 mm, wall thickness 4.3 mm ( S -10 ), 6 meters long
5
uPVC pipe made of unplaticized unplaticized polyvinyl chloride chloride manufactured manufactured in accordance with SNI 06- 084 2002 or ISO 4422, 1996, rubber ring ring j commplete with synthetic synthetic rubber ring, outside diameter 63 mm, wall thickness 3 mm (S-10), 6 meters long
6
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter 50 mm, wall thickness thickness 2.4 mm (S-10), 6 meters long
7
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter diameter 32 mm, wall thickness thickness 1.6 mm (S-10 ), 6 meters long
8
uPVC pipe made of unplaticized polyvinyl polyvinyl chloride manufactured manufactured in accordance with SNI 06 - 084 2002 or ISO 4422, 1996, solvent cem outside diameter diameter 25 mm, wall thickness 1.2 mm (S- 10 ), 6 meters long
9
Tee, all socket with rub er ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 200 mm x 200 mm
10
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 200 mm x 160 mm
11
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable s tandards 0135-1989 0135-1989 or ISO 2035, diameter 200 mm x 110 mm
12
Tee, all socket with rubber ring joint complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 160 mm x 160 mm
13
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 160 mm x 110 mm
14
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable applicable standards: standards: 0135-1989 0135-1989 or ISO 2035, diameter 160 mm x 90 mm
15
Tee, all socket with rubber ring joint complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 160 mm x 63 mm
16
Tee, all socket with rubber ring joint complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 110 mm x 110 mm
17
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 110 mm x 90 mm
18
Tee, all socket with rubber ring joint complete complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable tandards 0135-1989 0135-1989 or ISO 2035, diameter 110 mm x 63 mm
19
Tee, all socket with rubber ring joint complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 90 mm x 90 mm
20
Tee, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 90 mm x 63 mm
21
Tee, all socket with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standard: SNI 06- 135 1989 or ISO 2044, 90 mm x 50 mm
22
Tee, all socket with rubber ring joint complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable applicable standards: standards: 0135-1989 0135-1989 or ISO 2035, diameter 63 mm x 63 mm
23
Tee, all socket socket with solvent cement joint, joint, made of unplasticized unplasticized pol vinyl chloride, chloride, applicable standards: standards: SNI 06- 135 1989 or ISO 2044, diameter 63 mm x 50 mm
40
24
Tee, all socket with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standards: SNI 06- 135 1989 or ISO 2044, diameter 63 mm x 32 mm
25
Tee, all socket socket with solvent cement joint joint made of unplasticized unplasticized polyvinyl chloride, chloride, applicable standard: standard: SNI 06 135-1989 or ISO 2044, d 50 mm x 50 mm
26
Tee, all socket with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, applicable standards: standards: SNI 06- 135 1989 or ISO 2044, diameter 50 mm x 32 mm
27
Tee, all socket with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standards: SNI 06- 135 1989 or ISO 2044, diameter 32 mm x 32 mm
28
Tee, all socket with solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable standards: standards: SNI 06- 135 1989 or ISO 2044, diameter 32 mm x 25 mm
29
Tee, all socket with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, applicable applicable standards: SNI 06- 135 1989 or ISO 2044, diameter 25 mm x 25 mm
30
Reducer, all socket with rubber ring joint, complete with synthetic synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stand 06-0135-1989 06-0135-1989 or ISO 2035, diameter 200 mm x 160 mm
31
Reducer, all sockert with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 160 mm x 110 mm
32
Reducer, all sockert with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 110 mm x 90 mm
33
Reducer, all sockert with rubber ring joint complete with synthetic rubber rings, made of unplas icized polyvinyl polyvinyl chloride, applicable stand 06-0135-1989 06-0135-1989 or ISO 2035, diameter 110 mm x 63 mm
34
Reducer, all socket with rubber ring joint, complete with synthetic synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stand 06-0135-1989 06-0135-1989 or ISO 2035, diameter 90 mm x 63 mm
35
Reducer, all all sockert with solvent cement cement joint, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable applicable standard: standard: SNI 06 135 1989 or ISO 2 diameter 63 mm x 50 mm
36
Reducer, all all sockert with solvent cement joint, joint, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable applicable standard: SNI 06 135 1989 or ISO 2 diameter 50 mm x 32 mm
37
Reducer, all all sockert with solvent cement cement joint, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable applicable standard: standard: SNI 06 135 1989 or ISO 2 diameter 32 mm x 25 mm
38
Bend 90o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 200 mm
39
Bend 90o, all s ocket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 160 mm
40
Bend 90o, all socket with rubber ring joint, complete complete with synthetic rubber ings, made of unplasticized unplasticized polyvinyl chloride, applicable applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 110 mm
41
Bend 90o, all socket with rubber ring joint, complete complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable tan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 90 mm
42
Bend 90o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 63 mm
43
Bend 90o, all socket socket with solvent cement joint, joint, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable applicable standard: SNI 06 135-1989 135-1989 or ISO 2 diameter 50 mm
44
Bend 90o, all socket with with solvent cement joint, joint, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable standard: standard: SNI 06 135-1989 135-1989 or ISO 2 diameter 32 mm
45
Bend 90o, all socket with with solvent cement joint, joint, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable applicable standard: SNI 06 135-1989 135-1989 or ISO 2 diameter 25 mm
46
Bend 45o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 200 mm
47
Bend 45o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 160 mm
41
48
Bend 45o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 110 mm
49
Bend 45o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 90 mm
50
Bend 45o, all socket with rubber ring joint, complete complete with synthetic synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable stan SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 63 mm
51
Bend 221/2o, all socket with rubber ring joint, complete with synthetic rubber ings, made of unplasticized polyvinyl chloride, applicable applicable st SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 200 mm
52
Bend 221/2o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable s SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 160 mm
53
Bend 221/2o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable s SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 110 mm
54
Bend 221/2o, all socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable s SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 90 mm
55
Bend 221/2o, all socket with rubber ring joint, complete with synthetic synthetic rubber rings, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable s SNI 06-0135-1989 06-0135-1989 or ISO 2035, diameter 63 mm
56
Flange socket, socket, rubber ring socket fitting for use with PVC pipes with outside diameter of 200 mm made of unpla sticize polyvinyl polyvinyl chloride flange made of steel for cast iron fitting, applicable applicable standard: SNI 06 -0135-1989 or ISO 2035, supplied with rubber ring and gasket
57
Flange socket, socket, rubber ring socket fitting for use with PVC pipes with outside diameter of 160 mm made of unplasticize unplasticize polyvinyl chloride flange made of steel for cast iron fitting, applicable applicable standard: SNI 06 -0135-1989 or ISO 2035, supplied with rubber ring and gasket
58
Flange socket, socket, rubber ring socket fitting for use with PVC pipes with outside diameter of 110 mm made of unplasticize polyvinyl chloride flange made of steel for cast iron fitting, applicable applicable standard: SNI 06 -0135-1989 or ISO 2035, supplied with rubber ring and gasket
59
Flange socket, socket, rubber ring socket fitting for u e with PVC pipes with outside diameter of 90 mm made of unplasticize unplasticize polyvinyl chloride a flange made of steel for cast iron fitting, applicable applicable standard: SNI 06 -0135-1989 or ISO 2035, supplied with rubber ring and gasket
60
Flange socket, socket, rubber ring ocket fitting fitting for use with PVC pipes with outside outside diameter of 63 mm made of unplasticize unplasticize polyvinyl chloride chloride a flange made of steel for cast iron fitting, applicable applicable standard: SNI 06 -0135-1989 or ISO 2035, supplied with rubber ring and gasket
61
alve socket, one female end solvent cement cement joint for use with pipes with outside diameter of 160 mm (6") and the other end male threa ISO 7 or BS 21, made of unplasticize unplasticize polyvinyl chloride, applicable standard: standard: SNI 06- 0135-1989 0135-1989 or ISO 727
62
alve socket one female end solvent cement joint for use with pipes with outside diameter of 110 mm (4") and the other end male threa ISO 7 or BS 21, made of unplasticize unplasticize polyvinyl chloride, applicable standard: standard: SNI 06- 0135-1989 0135-1989 or ISO 727
63
alve socket, one emale end solvent cement joint for use with pipes with outside diameter diameter of 90 mm (3") and the other end male thread ISO 7 or BS 21, made of unplasticize unplasticize polyvinyl chloride, applicable standard: standard: SNI 06- 0135-1989 0135-1989 or ISO 727
64
alve socket, one female end solvent cement joint for use with pipes with outside diameter of 63 mm (2") and the other end male thread ISO 7 or BS 21, made of unplasticize unplasticize polyvinyl chloride, applicable standard: standard: SNI 06- 0135-1989 0135-1989 or ISO 727
65
alve socket, one female end solvent cement joint for use with pipes with outside diameter of 50 mm and the other end male threaded to or BS 21, made of unplasticize polyvinyl chloride, chloride, applicable standard: SNI 06-0135-1989 or ISO 727
66
alve socket, one female end solvent cem nt joint for use with pipes with outside diameter of 32 mm and the other end male threaded to or BS 21, made of unplasticize polyvinyl chloride, chloride, applicable standard: SNI 06-0135-1989 or ISO 727
67
alve socket, one female end solvent cement cement joint for use with pipes with outside diameter diameter of 25 mm and the other end male threaded to or BS 21, made of unplasticize polyvinyl chloride, chloride, applicable standard: SNI 06-0135-1989 or ISO 727
68
Repair socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 160 mm
69
Repair socket socket with rubber ring joint, complete with synthetic synthetic rubber rings, made of unplasticized polyvinyl polyvinyl chloride, applicable tandards 0135-1989 0135-1989 or ISO 2035, diameter 110 mm
70
Repair socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized polyvinyl chloride, applicable standards: 0135-1989 0135-1989 or ISO 2035, diameter 90 mm
71
Repair socket with rubber ring joint, complete with synthetic rubber rings, made of unplasticized unplasticized polyvinyl chloride, applicable applicable s andards: 0135-1989 0135-1989 or ISO 2035, diameter 63 mm
72
End ca with with solve solvent nt cemen cementt oint, oint, made made of un un lasticiz lasticized ed ol vin l chlor chlor de, a licable licable standard standard:: SNI SNI 06 06 135 1989 or or ISO ISO 2044, 2044, diame diame mm
42
76
End cap with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable applicable standard: standard: SNI 06 135 1989 or ISO 2044, diamet mm End cap with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl chloride, chloride, applicable applicable standard: SNI 06 135 1989 or ISO 2044, diamet mm End cap with solvent solvent cement joint, made of unplasticized unplasticized polyvinyl polyvinyl chloride, applicable applicable standard: standard: SNI 06 135 1989 or ISO 2044, diamet mm Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 8"x 1" nominal diameter.
77
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 8"x 3/4" nominal diameter.
78
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 6"x 1" nominal diameter.
79
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 6"x 3/4" nominal diameter.
80
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 4"x 1" nominal diameter.
81
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 4"x 3/4" nominal diameter.
82
Clamp Saddle for use on PVC/pipe, single middle outlet, female threaded threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 3"x 1" nominal diameter.
83
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded threaded to BS 21, made of PVC, complete with synthetic synthetic rubber ring, n bolts, 3"x 3/4" nominal diameter.
84
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PV C, complete with synthetic synthetic rubber ring, n bolts, 2"x 1" nominal diameter.
85
Clamp Saddle for use on PVC pipe, single middle outlet, female threaded to BS 21, made of PVC, complete with synthetic rubber ring, n bolts, 2"x 3/4" nominal diameter.
86 87 88 89 90 91 92
Dresser Joint complete complete with nuts and bolts, body made of unplasticized unplasticized polyvinyl chloride, fpr PVC pipe diameter 200 mm Dresser Joint complete complete with nuts and bolts, body made of unplasticized unplasticized polyvinyl chloride, fpr PVC pipe diameter 160 mm Dresser Joint complete complete with nuts and bolts, body made of unplasticized unplasticized polyvinyl chloride, fpr PVC pipe diameter 110 mm Dresser Joint complete complete with nuts and bolts, body made of unplasticized unplasticized polyvinyl chloride, fpr PVC pipe diameter 90 mm Dresser Joint complete with nuts and bolts, body made of unplasticized polyvinyl chloride, fpr PVC pipe diameter 63 mm Solvent cement for PVC pipe, suitable for drinking water, quick dry type, can of 500 gram Lubricant for joining PVC pipe, non poisonous, suitable for drinking water, can of 1 kg
73 74 75
43
Lampiran 7 Daftar Pipa dan Fitting GI yang disediakan UNICEF 1
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, , medium series weight, 200 mm (8") nominal diameter, 6 meters long.
2
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, manufacture manufacture in accordance accordance with ISO 65, medium series weight, 150 mm (6") nominal diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socke ted with a heavy-duty galvanized galvanized socket to ISO 49, the other end protected protected by a full length HDPE thread protection. protection.
3
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, manufacture manufacture in accordance accordance with ISO 65, medium series weight, 100 mm (4") nominal diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socketed with a heavy-duty galvanized galvanized socket to ISO 49, the other end protected protected by a full length HDPE thread protection. protection.
4
GI pipe made of mild steel, longitudinally welded, hot dip galvanized, galvanized, manufacture in accordance with ISO 65, medium series weight, 25 mm (1 1/4") nominal diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socketed with a heavy-duty galvanized galvanized socket to ISO 49, the other end protected protected by a full length HDPE thread protection. protection.
5
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, manufacture manufacture in accordance accordance with ISO 65, medium series weight, 25 mm (1") nominal diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socketed socketed with a heavy-duty galvanized galvanized socket to ISO 49, the other end protected protected by a full length HDPE thread protection. protection.
6
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, manufacture manufacture in accordance accordance wi th ISO 65, medium series weight, 20 mm (3/4") nominal diameter, diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socketed with a heavy-duty galvanized galvanized socket to ISO 49, the other end protected protected by a full length HDPE thread protection. protection.
7
GI pipe made of mild steel, longitudinally longitudinally welded, hot dip galvanized, galvanized, manufacture in accordance with ISO 65, medium series weight, 13 mm (1/2") nominal diameter, diameter, 6 meters long, both ends male threaded to ISO 7 or BS 21, one end socketed with a heavy-duty galvanized socket to ISO 49, the other end protected by a full length HDPE thread protection.
8
Tee, made of malleable cast iron, hot dip galvanized galvanized for galvanized iron pipes, female female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6"x6" nominal diameter.
9
Tee, made of malleable cast iron, hot dip galvanized galvanized for galvanized iron pipes, female female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6"x4" nominal diameter.
10
Tee, made of malleable cast iron, hot dip galvanized galvanized for galvanized iron pipes, female female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6"x3" nominal diameter.
11
Tee, made of malleable cast iron, hot dip dip galvanized for galvanized iron pipes, pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4"x4" nominal diameter.
12
Tee, made of malleable cast iron, hot dip galvanized galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4"x3" nominal diameter.
13
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4"x2" nominal diameter.
14
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to to BS 21, 3"x3" nominal diameter.
15
Tee, made of malleable cast iron, hot dip galvanized galvanized for galvanized iron pipes, female female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x2" nominal diameter.
16
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x11/2" nominal diameter.
17
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x1" nominal diameter.
18
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2"x2" nominal diameter.
19
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2"x11 /2" nominal diameter.
20
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2"x1" nominal diameter.
21
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 11/2"x11/2" nominal diameter.
44
22
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 11/2"x1" nominal diameter.
23
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1"x1" nominal diameter.
24
Tee, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1"x3/4" nominal diameter.
25
Reducer, made of malleable cast cast iron, welding joint, 8"x6" nominal diameter. diameter.
26
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6"x4" nominal diameter.
27
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6"x3" nominal diameter.
28
Reducer, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4"x3" nominal diameter.
29
Reducer, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4"x2" nominal diameter.
30
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x2" nominal diameter.
31
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x11 /2" nominal diameter.
32
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3"x1" nominal diameter.
33
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded 1 after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2"x1 /2" nominal diameter.
34
Reducer, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2"x1" nominal diameter.
35
Reducer, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 11/2"x1" nominal diameter.
36
Reducer, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 1" x 3/4" nominal diameter.
37
Reducer, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 3/4"x1/2" nominal diameter. diameter.
38
Flange made of steel, welding joint for GI pipes 8" nominal diameter, PN-10 standard
39
Flange, made of malleable cast iron, hot dip galvanized, female thread joint for GI pipes 6" nominal diameter, threaded after galvanizing, applicable standard: ISO R49/BS1256, threaded to BS 21, flange to PN-10 standard
40
Flange, made of malleable cast iron, hot dip galvanized, female thread joint for GI pipes 4" nominal diameter, threaded after galvanizing, applicable standard: ISO R49/BS1256, threaded to BS 21, flange to PN-10 standard
41
Flange, made of malleable cast iron, hot dip galvanized, female thread joint for GI pipes 3" nominal diameter, threaded after galvanizing, applicable standard: standard: ISO R49/BS1256, threaded to BS 21, flange to PN -10 standard
42
Flange, made of malleable cast iron, hot dip galvanized, female thread joint for GI pipes 2" nominal diameter, threaded after galvanizing, applicable standard: standard: ISO R49/BS1256, threaded to BS 21, flange to PN -10 standard
43
Bend 90 , made of cast iron, welding joint, 8" nominal diameter
44
Bend 90o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 6" nominal diameter.
45
Bend 90 , made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 4" nominal diameter.
46
Bend 90o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 3" nominal diameter.
47
Bend 90o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2" nominal diameter.
o
45
o
48
Bend 90 , made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, 1 threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1 / 2" nominal diameter.
49
Bend 90o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 1" nominal diameter.
50
Bend 90o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, male and female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 3/4" nominal diameter.
51
Elbow 90 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1/2" nominal diameter.
52
Elbow 45 , made of malleable cast iron, welding joint, applicable standard: ISO 49 or BS 1256, 8" nominal diameter.
53
Elbow 45 , made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: standard: ISO 49 or BS 1256, thread to BS 21, " 6 nominal diameter.
54
Elbow 45 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: standard: ISO 49 or BS 1256, thread to BS 21, " 4 nominal diameter.
55
Elbow 45 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: standard: ISO 49 or BS 1256, thread to BS 21, 3" nominal diameter.
56
Elbow 45 , made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: standard: ISO 49 or BS 1256, thread to BS 21, 2" nominal diameter.
57
elbow 45 o, made of malleable cast cast iron, hot dip galvanized for galvanized galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1 1/ 2" nominal diameter.
58
Elbow 22 /2 , made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6" nominal diameter.
59
Elbow 22 1/2 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4" nominal diameter.
60
Elbow 22 1/2 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3" nominal diameter.
61
Elbow 22 1/2 o, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2" nominal diameter.
62
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hot dip galvanized, threaded after galvanizing, galvanizing, 6" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
63
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hot dip galvanized, threaded after galvanizing, galvanizing, 4" nominal diameter, applicable standard: ISO R49/BS1256 R49/BS1256 and thread to BS 21
64
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hot dip galvanized, threaded after galvanizing, galvanizing, 3" nominal diameter, applicable standard: ISO R49/BS1256 R49/BS1256 and thread to BS 21
65
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hot dip galvanized, threaded after galvanizing, galvanizing, 2" nominal diameter, applicable standard: ISO R49/BS1256 R49/BS1256 and thread to BS 21
66
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hot dip galvanized, threaded after galvanizing, galvanizing, 11/2" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
67
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hat dip galvanized, threaded after galvanizing, 1" nominal diameter, diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
o
o
o
1
o
46
68
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hat dip galvanized, threaded after galvanizing, galvanizing, 3/4" nominal diameter, applicable standard: ISO R49/BS1256 R49/BS1256 and thread to BS 21
69
Double Nipple for gavanized iron pipes, male straight nipple, hexagonal, made of malleable cast iron, hat dip galvanized, threaded after galvanizing, 1/2" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
70
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 6" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
71
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 4" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
72
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 3" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
73
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 2" nominal diameter, diameter, applicable standard: ISO R49/BS1256 a nd thread to BS 21
74
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 11/2" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
75
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 1" nominal diameter, applicable standard: ISO R49/BS1256 R49/BS1256 and thread to BS 21
76
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, 3/4" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
77
Union for galvanized pipes, straight union, internal female threaded, made of malleable cast iron , hot dip galvanized, threaded after galvanizing, galvanizing, 1/2" nominal diameter, applicable standard: ISO R49/BS1256 and thread to BS 21
78
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 6" nominal diameter.
79
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 4" nominal diameter.
80
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3" nominal diameter.
81
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 2" nominal diameter.
82
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded 1 after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1 / 2" nominal diameter.
83
Socket, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 1" nominal diameter.
84
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, 3/4" nominal diameter.
85
Socket, made of malleable cast cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded 1 after galvanizing, applicable standard: ISO 49 or BS 1256, thread to BS 21, / 2" nominal diameter.
86
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic rubber ring, nuts and bolts, 8"x 1" nominal diameter.
87
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 8"x 3/4" nominal diameter.
88
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic rubber ring, nuts and bolts, 6"x 1" nominal diameter.
47
89
lamp Saddle for use on GI pipe, single middle outlet, female threaded to B S 21, made of cast iron, complete with synthetic rubber ring, nuts and bolts, 6"x 3/4" nominal diameter.
90
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 4"x 1" nominal diameter.
91
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 4"x 3/4" nominal diameter.
92
lamp Saddle for use on GI pipe single middle outlet, female threaded threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 3"x 1" nominal diameter.
93
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 3"x 3/4" nominal diameter.
94
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 2"x 1" nominal diame ter.
95
lamp Saddle for use on GI pipe, single middle outlet, female threaded to BS 21, made of cast iron, complete with synthetic synthetic rubber ring, nuts and bolts, 2"x 3/4" nominal diameter.
96
End cap, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 2" nominal diameter.
97
End cap, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 11/2" nominal diameter.
98
End cap, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, galvanizing, applicable applicable standard: standard: ISO 49 or BS 1256, thread to BS 21, 1" nominal diameter. diameter.
99
End cap, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 3/4" nominal diameter.
100
End cap, made of malleable cast iron, hot dip galvanized for galvanized iron pipes, female threaded joint, threaded after galvanizing, applicable applicable standard: ISO 49 or BS 1256, thread to BS 21, 1/2" nominal diameter.
101 102 103 104 105
Dresser joint, made of malleable cast iron, complete with nuts and bolts, for GI pipe of nominal diameter 8". Dresser joint, made of malleable cast iron, complete with nuts and bolts, for GI pipe of nominal diameter 6". Dresser joint, made of malleable cast iron, complete with nuts and bolts, for GI pipe of nominal diameter 4". Dresser joint, made of malleable cast iron, complete with nuts and bolts, for GI pipe of nominal diameter 3". Dresser joint, made of malleable cast iron, complete with nuts and bolts, for GI pipe of nominal diameter 2".
106
Gate valve made of ductile cast iron, suitable for drinking water, stailess steel stem, ductile cast iron wedge vulcanised with EPDM rubber, PN 10 standard, no-rising spindle, closing clockwise by handwheel, flange joint, for pipes of nominal diameter 200 mm, complete with 3 mm thickness gasket, nuts and bolds, packed in strong wooden or cardboard box
107
Gate valve made of ductile cast iron, suitable for drinking water, stailess steel stem, ductile cast iron wedge vulcanised with EPDM rubber, PN 10 standard, no-rising spindle, closing clockwise by handwheel, flange joint, for pipes of nominal diameter 150 mm, complete with 3 mm thickness gasket, nuts and bolds, packed in strong wooden or cardboard box
108
Gate valve made of ductile cast iron, suitable for drinking water, stailess steel stem, ductle cast iron wedge vulcanised with EPDM rubber, PN-10 standard, no-rising spindle, closing clockwise by handwheel, flange joint, for pipes of nominal diameter 100 mm, complete with 3 mm thickness gasket, nuts and bolds, , packed in strong wooden or cardboard box
109
Gate valve made of ductile cast iron, suitable for drinking water, stailess steel stem, ductile cast iron wedge vulcanised with EPDM rubber, PN-10 standard, no-rising spindle, closing clockwise by handwheel, flange joint, for pipes of nominal diameter 75 mm, complete complete with 3 mm thickness thickness gasket, nuts and bolds, packed in strong wooden or cardboard box
110
Gate valve made of ductile cast iron, suitable for drinking water, stailess steel stem, ductile cast iron wedge vulcanised with EPDM rubber, PN-10 standard, no-rising spindle, closing clockwise by handwheel, flange joint, for pipes of nominal diameter 50 mm, complete with 3 mm thickness gasket, nuts and bolds, packed in strong wooden or cardboard box
111
Gate valve made of brass, no-rising spindle, closing clockwise by handwheel, suitable for 60 metre head, female threaded joint, for pipes of nominal diameter 40 mm (1 1/ 2"), packed in strong wooden or cardboard box
48
112
Gate valve made of brass, no-rising spindle, closing clockwise by handwheel, suitable for 60 metre head, female threaded joint, for pipes of nominal diameter 25 mm (1"), packed in strong wooden or cardboard box
113
Gate valve made of brass, no-rising spindle, closing clockwise by handwheel, suitable for 60 metre head, female threaded joint, for pipes of nominal diameter 20 ( 3/ 4") mm, packed in strong wooden or cardboard box
114
Gate valve made of brass, no-rising spindle, closing clockwise by handwheel, suitable for 60 metre head, female threaded joint, for pipes of nominal diameter 13 ( 1/ 2") mm, packed in strong wooden or cardboard box
115
Lockable valve made of brass, female threaded joint, for pipes of nominal diameter 20 (3 /4") mm, packed in strong wooden or cardboard box
116
Lockable valve made of brass, female threaded joint, for pipes of nominal diameter 13 (1 /2") mm, packed in strong wooden or cardboard box
117
Air valve made of cast iron or brass, all moving part made of stainless steel or bronze, floating ball made of stinless steel or synthetic rubber, diameter 25 mm (1"), packed in strong wooden or cardboard box
118
Air valve made of cast iron or brass, all moving part made of stainless steel or bronze, floating ball made of stinless steel or synthetic rubber, diameter 13 mm (1/2"), packed in strong wooden or cardboard box
119
Non return valve for preventing back flow, swing type, made of cast iron, flange joint, PN10 standard, nominal diameter 3", packed in strong wooden or cardboard box
120
Non return valve for preventing back flow, swing type, made of cast iron, flange joint, PN10 standard, nominal diameter 2", packed in strong wooden or cardboard box
121
Non return valve for preventing back flow, swing type, made of brass, both ends female treaded, nominal diameter 11/2", packed in strong wooden or cardboard box
122
Non return valve for preventing back flow, swing type, made of brass, both ends female treaded, nominal diameter 1", packed in strong wooden or cardboard box
123
Non return valve for preventing back flow, swing type, made of brass, both ends female treaded, nominal diameter 3/4", packed in strong wooden or cardboard box
124
Non return valve for preventing back flow, swing type, made of brass, both ends female treaded, nominal diameter 1/2", packed in strong wooden or cardboard box
125 126
Safety valve, suitable for drinking water, size 3" Safety valve, suitable for drinking water, size 2" 1 Safety valve, suitable for drinking water, size 1 / 2"
127 128 129 130 131 132 133 134 135 136 137
Safety valve, valve, suitable suitable for drinking drinking water, water, size 1" Foot valve valve with stainer, stainer, suitable suitable for drinking drinking water, size size 3" Foot valve with stainer, suitable for drinking water, size 2" Foot valve with stainer, suitable for drinking water, size 11/2" Foot valve with stainer, suitable for drinking water, size 1" Float Valve, suitable suitable for drinking drinking water, water, size size 4" 4" Float Valve, suitable suitable for drinking drinking water, water, size size 3" 3" Float Valve, suitable suitable fo forr drinking drinking water, water, size 2" Float Valve, suitable for drinking water, size 11/2" loat Valve, suitable for drinking water, size 1"
138
Water meter Dia. 1/2" packed in strong wooden or cardboard box. Nominal diameter 15 mm (1/2"), nominal pressure 10 bar, registration capacity 99999, nominal flow rate 1.5 m3/hr, minimum flow rate 0.03 m3/hr, maximum flaw rate 3 m3/hr, dry-dial, multi-jet, magnetic drive, antimagnetic construction.
139
Tap, for pipes of 3/4", made of brass or PE, male threaded, good quality and durable, packed in strong wooden or cardboard box
140
Tap, for pipes of 1/2", made of brass or PE, male threaded, good quality and durable, packed in strong wooden or cardboard box
141 14 142 2 143
Street box, box, made of cast iron, iron, large large size for valve valve diame diameter ter 8" - 10" Street box, box, made of cast iron, iron, medium medium size size for valve valve diame diameter ter 4" - 6" Street box, box, made of cast iron, iron, small small size size for valve valve diame diameter ter 2" - 3" Thread seal tape made of polytetrafluoroe polytetrafluoroethylene thylene (PTFE), width 19 mm, length 10 m
144
49
50
