Schematic diagram of water filtration plant, showing all steps, screening, sedimentation through alum and clarifier, then sand filteration and then pumping to over head reservoir.
To design a water treatment plant first and foremost thing is calculation/estimation of plant capacity in which plant has to run up to design period without trouble.
Design of water Treatment Plant-MandviDescription complète
Design of water Treatment Plant-MandviFull description
P.S: Pass Karado does not entertain the short cuts to make engineering easy. So we have disabled the downloading. Pass Karado is just a forum to reduce information asymmetry which is prevalent in I...
P.S: Pass Karado does not entertain the short cuts to make engineering easy. So we have disabled the downloading. Pass Karado is just a forum to reduce information asymmetry which is prevale…Full description
Full description
To design a water treatment plant first and foremost thing is calculation/estimation of plant capacity in which plant has to run up to design period without trouble.Description complète
Belaniso, Kay Kathleen
CHE 516N – M (4:30 – 7:30)
Belonguel, Joyce Marian Doroy, Clarince Joyce Huyo, Ma. Elizabeth
7 Objectives: Water Treatment Plant Safety LI – 201 (Level indicator in raw water well and screens) – raw water may overflow and may cause flooding in plant. Filters – clogging would cause high pressure build up. Environmental Protection pH sensor (backwash water pH indicator near filters) – to maintain neutral pH for backwash water. TI (backwash water temperature indicator near filters) – to maintain backwash water temperature within required limits for marine life. Equipment Protection TY - 103 (Temperature computer output connected to pneumatic valve) – high temperature may destroy pipes and valves. FC -103 (Flow controller in fluoride inlet) – to maintain acid concentration for water treatment. Too much acid can affect the pH of the water. FC -102 (Flow controller in chloride inlet) – to maintain acid concentration for water treatment. Too much acid can affect the pH of the water Pumps – no flow could damage pumps Settling Tank – Total Suspended Solids must be monitored to avoid clogging. Smooth Operation Production Rate FIC - 201 (Flow indicator and controller connected to flow transmitter near raw water well) – flow rate should be controlled to maintain the production rate. FIC - 801 (Flow indicator and controller connected to flow transmitter near Pinecrest School) – flow rate should be controlled to e nsure adequate supply to end users. Product Quality TY – 101 (Temperature computer output connected to pneumatic valve) – high temperature may affect the quality of output.
FC -103 (Flow controller in fluoride inlet) – to maintain acid concentration for water treatment. Too much acid can affect the pH of the water. FC -102 (Flow controller in chloride inlet) – to maintain acid concentration for water treatment. Too much acid can affect the pH of the water LC - 202 (Level controller in inlet Alum) – to maintain coagulant concentration in flocculation tank. TIC - 201 (Temperature indicator and controller in Flocculation tank) – to maintain temperature in flocculation tank to allow proper flocculation process. Propeller (inside the flocculation tank) – proper flocculation must be maintained to ensure product quality. High Profit LI – 201 (Level indicator in raw water well and screens) – to avoid spillage or shortage in supply. LC – 301 (Level controller in flocculation tank) – to avoid spillage or shortage in supply. Monitoring and diagnosis FT – 101; FC – 101 (Flow Transmitter and Flow Controller near the Quinte bay intake crib) – monitoring of flow from the Quinte bay intake c rib to regulate the input flow. FT – 802; FC – 802 (Flow Indicator near Bloomfield Tower) – monitoring of flow to Bloomfield Tower to ensure adequate supply to e nd users. pH sensor (backwash water pH indicator near filters) – to maintain neutral pH for backwash water.
