Rules of Thumb (3rd Edition)

1 0 0 2 / 5 1 N T E T O N L A C I N H C E T

Rules of Thumb

(UK 3rd edition)

Guidelines for assessing building services Edited by Martin Boushear

Contents Space and weight allowances TABLE TABLE TABLE TABLE TABLE TABLE TABLE TABLE

6

1: Floor space allowance for services 2: Space allowances for plant rooms 3: Miscellaneous services 4: Space allowances for on-floor services 5: Space allowances for service ducts and shafts 6: Space allowances for catering facilities 7: Floor space allowance per occupant 8: Plant weight allowances

Equipment and solar loads

14

Acknowledgements The story behind the guide This publication is the third update of the Technical Note TN 17/95: Rules of Thumb last issued in 1995. The rules have been collected from various contemporary sources in the building services industry and can reasonably be held to reflect current design practices. The sources include major design offices, individual engineers and public domain information published by BSRIA and others.

How to use this guide What this guide will do Rules of Thumb has been written to help engineers in the initial stages of designing a building and its services. By gathering many of the most common rules of thumb into one document, BSRIA has provided a powerful source of inital design data that every engineer should find indispensable. Thumb rules (or heuristics as they are more properly known) are extremely useful values for use at various stages of design, such as project

6

When to us e:

Space and weight allowances

During the early stages of design prior to plant selection or system analysis

Where to use: Plant room sizes, riser cupboard locations and plant capacities Watch out for: Poor information that fails to allow for installation, commissioning or maintenance

TABLE 1: Floor space allowance for services (as a percentage of floor area)

R u l e s o f T h u m b B S R I A 2 0 0 1

Design area

Application

All services

Air conditioning (excluding boilers & refrigeration)

Other information

Rule of thumb

Ref

Simple factory Offices and commercial Hi-tech building

4% 6 – 10% 15 – 30%

26 26 26

Fan coil system VAV system

1 5 – 2 5% 3 – 4  5%

26 26

0 3 – 1  5%

26

Electrical services (excluding sub-stations and standby generation sets)

0 5 – 1  5%

26

Lift motor rooms

0  2 – 0  5%

26

Cooling towers and air-cooled condensers

Refrigeration (excluding cooling towers)

Ventilation

Central plant

1 – 2%

26

Toilet extract Supply and extract system All air low velocity system

03 – 1% 3 – 5% 4 – 6%

26 26 26

Your notes and comments

Table 1 continu ed  For references see page 32

TABLE 2: Space allowances for plant rooms (floor area) Design area

Application

Air cooled condenser and controls

Air handling units


Other information

Rule of thumb

Ref

space for installation and maintenance

25 + kW/200 m 2

29

With extract /recirculation

8 m 2 per m3/s

29

Without extract /recirculation

5 m 2 per m3/s

29

Boilers (percentage floor area)

Boiler plant & calorifiers

Oil tank room

08 – 1  8% 1 – 2%

26 26

Boilers (floor area and height)

Boilers, pumps, piping and space for installation and maintenance

Output: 100 kW Output: 200 kW Output: 1000 kW Output: 4000 kW

15 m2 x 3 m 25 m2 x 3 m 80 m2 x 4 m 30 m2 x 5 m

29 29 29 29

Calorifiers (floor area and height)

Calorifiers, pumps, pipework, controls and space for installation and maintenance

Vertical (1 m3) Vertical (5 m 3) Vertical (10 m3) Ver tical (15 m3)

10 m2 x 3 m 20 m2 x 4 m 25 m2 x 5 m 60 m2 x 3 m

29 29 29 29

25 m2 x 3 m 30 m2 x 3 m 45 m2 x 3 m 60 m2 x 3 m

29 29 29 29

Horizontal Horizontal Horizontal Horizontal

(1 m3) (5 m3) (10 m3) (15 m3)


Table 2 continu ed  7

For references see page 32


8

TABLE 2: Space allowances for plant rooms (floor area) Design area

Application

Other information

Rule of thumb

Ref

Chillers (water cooled) Floor area times height

With pumps, pressurisation, pipework and control panels

Output: 1000 kW Output: 2000 kW Output: 3000 kW Output: 4000 kW

50 m2 x 3 m 63 m2 x 3 m 83 m2 x 3  5 m 108 m2 x 4 m

29 29 29 29

Located outside . I nc lu de s sp ac e for installation and maintenance

Output: 20 0 kW O ut pu t: 40 0 k W Output: 600 kW Output: 800 kW Output: 1000 kW Output: 1200 kW

39 m 2 53 m 2 75 m 2 84 m 2 98 m 2 116 m2

29 29 29 29 29 29

Single cold water tank Includes space for installation and maintenance but add space for pressurisation plant or circulation pumps

FA: Floor area V: gross storage m 3 1 m high 2 m high 3 m high

FA: 10 + V/0 75 m 2 FA: 10 + V/1 6 m 2 FA: 10 + V/2 4 m 2

29 29 29

Minimum for hot and cold outlets

Offices

10-20 litres/person

4

R Chillers (air cooled) u l e s o f T h u m b B S R Cold water storage I A 2 0 0 1

Cold water storage

Hotels, children’s home, residential nursery, 135 litres/bed space convalescent home


4


Design area

Application

Other information

Rule of thumb

Ref

Cold water storage (domestic) continued

Minimum for hot and cold outlets

Restaurant Day school Hostel

7 litres/meal 15-20 litres/pupil 90 litres/bed space

20 20 20

FA: Floor area (kW: heat rejection)

FA: 50 + kW/66 m 2

29

HV switchgear HV + MV switchgear

47 m 2 14 m 2 27 m 2

29 29 29

Standby sets and accessories

FA: Floor area

FA:15 + kVA/30 m 2

29

Single module system (add space for batteries)

FA: Floor area

FA: (2 + kW/200) x 2 m 2

29

Other information

Rule of thumb

Cooling towers

Sub-station

R u l e s o f T Standby generation h u m b B S Uninterruptible power supply R I A 2 0 0 1

2000 kVA transformers Switchgear


TABLE 3: Miscellaneous services

9

Design area

Application

Control panels & distribution boards

Front panel controls, Fixing height range wall-mounted or floor (above finished floor standing or operating platform level)

LTHW boiler plant component criteria for leakage containment

Oil storage tanks, distillate & residual fuel oils


If tank fails, walls and doors treated to contain spillage

1200 – 1800 mm

Tank contents + 10%

Ref 18

19



1 0

TABLE 4: Space allowances for services (depth of clear space in ceiling/floor void)


Design area

Application

Air conditioning

Rule of thumb

Ref

VAV VRV Recessed chilled beams Surface chilled beams Chilled ceilings Fan coils Ducted air system

350 – 750 mm 450 mm 350 – 450 mm 250 mm 250 mm 450 mm 450 mm

16 16 16 16 16 27 27

Drainage Soil and waste

100 mm dia. 150 mm dia.

10 – 25 mm per m run 7 – 16 mm per m run

27 27

Lighting

Fluorescent Downlighter

100 – 150 mm (  access) 16

Power and communications


Other information

150 – 300 mm

16

100 – 200 mm

16

Power and data (heavy line)

200 – 250 mm

16

Computer rooms

300 mm

16

Multi-core cables and lighting cables


TABLE 5: Space allowances for service ducts and shafts Design area

Application

Air ducting

Lift shafts

Mechanical service riser

R u l e s o f T h u m b Pipework B S R I A 2 0 0 1

Service ducts

1 1


Other information

Rule of thumb

Ref

Typical ducting size

02 m 2/m3/s

30

3+A(N-4)/250 m 2

30

Between 4 –18 floors Internal shaft area in office-type buildings A: floor area/ storey (250 m2 min), N: Floors

S imp le pi pewor k riser

T hr ee -si de d r is er

Vertical service duct

D ep th ne ed ed to op en access door/pane when width of door varies with size/type of pipe or depth of service/duct 690 mm

17

Pipe: 20 mm dia. Pipe: 25 mm dia. Pipe: 32 mm dia.

100 mm x 100 mm 120 mm x 120 mm 130 mm x 130 mm

30 30 30

M in imu m d ep th from services to (open) access door/panel

690 mm

17

Floor space served by vertical service (radius)

15 – 23 m

30

Aspect ratio of vertical service duct

2:1 – 4:1

30

Total duct area as % of gross floor area

2%

30



1 2

TABLE 6: Space allowances for catering facilities


Design area

Application

Other information

Rule of thumb

Ref

Kitchen and dining facilities

Kitchens including preparation and storage

Min. requirements: Up to 100 meals Up to 500 meals

0 4 m 2/meal 0 25 m 2/meal

31 31

For single sittings

Ratio of kitchen space to dining space

0 33:1 to 0 5:1

31

Ratio of kitchen space to dining space

1:1

31

For multiple sittings


TABLE 7: Floor space allowance per occupant (net internal area) Design area

Rule of thumb

Ref

General offices

12 – 17 m 2/person

4

Trading desks, call centre, work stations

4 – 6 m 2/person

4

15 m 2 (or more) per person

4

Enclosed offices


Application

Other information


TABLE 8: Plant weight allowances


Design area

Application

Single boiler

Rule of thumb

Ref

500 kW 1500 kW 2500 kW

1500 kg 4250 kg 6500 kg

39 39 39

Single storage steel calorifier

4 m3 8 m3 12 m3

1250 kg 2500 kg 3300 kg

39 39 39

Single non-storage mild-steel heating calorifier

500 kW 1000 kW 1500 kW 2000 kW

150 225 275 325

kg kg kg kg

39 39 39 39

1500 kW 3000 kW 4500 kW

10 000 kg 20 000 kg 30 000 kg

39 39 39

Single air-cooled liquid chiller

500 kW 1000 kW 1500 kW

6 000 kg 11 000 kg 14 000 kg

39 39 39

Single generator

500 kVa 1000 kVa 1500 kVa

5000 kg 8000 kg 11 000 kg

39 39 39

100 kVa 300 kVa 500 kVa

1250 kg 2750 kg 4250 kg

39 39 39

Single water-cooled liquid chiller

Single UPS system

1 3


Other information


1 4

When to use:

For estimates of thermal loads used to assess plant and terminal equipment sizes

How to use:

To determine total solar and internal gains, multiply the loads by total floor area

Watch out for:

Solar gains depend on glazing and shading, and contribution of thermal mass

Equipment and solar loads

TABLE 1: Cooling loads Design area

R u l e s O f T h u m b B S R I A 2 0 0 1

Application

Other information

Rule of thumb

Ref

Banks

160 W/m2

34

Computer suites

400 W/m 2 approx

34

Hotels

150 – 300 W/m 2

34

125 W/m 2

34

75 W/m2

34

120 W/m2 180 W/m2

34 34

Restaurants

220 W/m2

34

Retail buildings

140 W/m2

34

Other information

Rule of thumb

Ref

Central cooling plant

Load/m2 of floor area Load/m3 of floor vol.

125 W/m 2 40 W/m3

36 36

Distributed cooling plant

Load/m2 of floor area Load/m3 of floor vol.

140 W/m 2 45 W/m3

36 36

Offices (general)

Interior zones more than 7 m from windows Perimeter zones up to 6 m

60% glazing 65% glazing


TABLE 2: Cooling plant Design area

Electrical power for refrigeration plant


Application

kW/kW cooling capacity

Central plant Distributed plant

0 5 kW/kW 0 78 kW/kW  

 

36 36


TABLE 3: Solar gains (over floor area) Design area

Application

Other information

Rule of thumb

Ref

(June-Sept) (June-Sept)

South facing East-West facing

250 W/m 2 of glass 150 W/m 2 of glass

34 34

Clear double-glazed with internal blinds

Out-of-town building

U-value 3 3 W/m 2K

2650 W/m2 instant 2490 W/m2 lag (mass)

40 40

As above with flat slab

Plus brise soleil


40 40

As above with coffered slab

Plus brise soleil


40 40

Other information

Rule of thumb

Ref

Floor area

90 W/m2 (30 W/m3)

34

Educational buildings

100 W/m2

34

Industrial buildings

80 W/m2

34

Offices

70 W/m2

34

Residential buildings

60 W/m2

34

Infiltration: air heating load

7 5 W/m3

34

Retail buildings

110 W/m2

34

10 W/m2 12 W/m2 15 – 25 W/m 2

16 16 16

Windows with internal blinds

R u l e s O f T h u m b B S R I A 2 0 0 1

TABLE 4: Heat loads Design area

Application

General buildings

Other heat gains

    

Offices Ge ne ral of fi ce s

1 5





Metabolic Lighting O ff ic e e qu ip me nt


1 6

When to us e:

During the early stages of design prior to plant selection or system analysis

Where to use:

Plant room sizes, riser cupboard locations and plant capacities

Watch out for:

Poor information that fails to allow for installation, commissioning or maintenance

Comfort factors

TABLE 1: External conditions Design area

Application

Winter design temperatures for heating

Without surplus boiler capacity With 20% surplus boiler capacity


Other information

Single-storey building Other buildings

Rate of lowering outdoor design temp. with altitude above sea level

Rule of thumb

Ref

-4 C

37

-3 C -1 C

37 37

-0 6 C/100 m

37

Summer design temperature

Dry bulb temp.

28 C

37

for air conditioning

Wet bulb temp.

19 C

37


TABLE 2: Ventilation and air conditioning Design area

Application

Other information

Rule of thumb

Ref

Ventilation: recommended maximum temperature

Offices

95% operation/year

25 C

4

Air conditioning: recommended maximum temperature

Offices

95% operation/year

24 C (or lower)

4

IT rooms by classification

Type A IT rooms

Specifically designed and built for IT equipment (ideally, isolated from Dedicated IT room office areas) required


38

Table 2 continu ed  For references see page 32

TABLE 3: Information technology Design area

Application

Other information

IT rooms by classification (continued)

Type B IT rooms

Designed for intensive use of IT equipment at workstations (where air-conditioning must be used)

Ty pe C I T ro oms


Ref

Air-conditioned office, room or workspace

38


R oom w he re I T equipment is used at workstations (may use natural or mechanical ventilation)

Non air-conditioned office, room or workspace

38

Other information

Rule of thumb

Ref

In Winter In Summer At 21C At 22C At 23C At 24C On back of neck

0 15 m/s 0 25 m/s 0 15 m/s 0 2 m/s 0 25 m/s 0 3 m/s 0 2 m/s

37 37 37 37 37 37 37

Papers will lift at velocities in excess of

0 8 m/s

37

0 2 – 0 3 m/s

2

TABLE 4: Room air movement Design area Maximum recommended mean air velocities

Application

Television and broadcasting studios

1 7

Rule of thumb



Comfort factors

1 8

TABLE 5: Noise levels Design area

Application

Other information

Recommended maximum background noise levels

Very quiet rooms

Concert halls, sound studios Bedrooms, theatres, churches Small offices, libraries, living rooms General offices, classrooms, small shops Reception areas, restaurants Kitchens, computer rooms, large shops Factories

Quiet rooms Private r ooms


Public rooms General areas Work areas Industrial areas

Rule of thumb

Ref

NR 20

37

NR 25

37

NR 30

37

NR 35

37

NR 40

37

NR 45 NR 50 or above

37 37

Intelligibility of telephone conversation at background noise levels

Satisfactory Slightly difficult Difficult Unsatisfactory

Up to NR 50 Up to NR 60 Up to NR 75 Over NR 75

37 37 37 37

External noise level criteria for new noise (above background noise)

If more than 10 dBA If less than 5 dBA

Complaints expected Marginal

37 37

Limiting distances for speech intelligibility (background noise level)

Up to NR 40 Up to NR 45 Up to NR 50 Up to NR 55 Over NR 70

7m 4m 2 2 m 1 2 m Too noisy

37 37 37 37 37



TABLE 6: Comfort data sheet Building Type


1 9

Summer

Winter

Humidity (% RH)

Infiltration (ac/h)

Ventilation fresh air

Ventilation air change

Lighting level (Lux)

Noise level (NR)

Cinemas (sedentary role)

21-23C

19-21C

5010% RH

05 ac/h

8 l/s/person

6-10 ac/h

300 lux

NR25-NR30

Computer rooms (general)

21-23C

19-21C

505% RH

1 ac/h

8 l/s/person

4-15 ac/h

300 lux

NR35-NR45

Education (teaching spaces)

21-23C

19-21C

505% RH

2 ac/h

8 l/s/person

6-10 ac/h

300 lux

NR25-NR35

Exhibition hall/conference facilities

21-23C

19-21C

50-55% RH

025-05 ac/h

8 l/s/person

1 ac/h

300 lux

NR40

Factory/warehouse

21-23C

11-21C

5010% RH

025-25 ac/h

8 l/s/person

6 ac/h

750-1000 lux

NR45-NR65

Fitness/health clubs (e qu ip me nt r ooms )

> 18C

12-18C

40-70% RH

075 ac/h

8 l/s/person

4 ac/h

300 lux

NR30-NR40

Hospitals (ward and patient areas)

23-25C

22-24C

50-60% RH

2 ac/h

8 l/s/person

3 ac/h

50-100 lux

NR30-NR35

Hotels (bedrooms)

21-23C

19-21C

5010% RH

1 ac/h

8 l/s/person

6-10 ac/h

50-100 lux

NR20-NR30

Libraries (reading rooms)

24-25C

22-23C

505% RH

025-075 ac/h

8 l/s/person

3-4 ac/h

300 lux

NR30-NR35

Museums and galleries (display, storage)

21-23C

19-21C

50-55% RH

1 ac/h

8 l/s/person

3-4 ac/h

200 lux

NR30-NR35

Offices (general, BCO data)

24C

22C

35-40% RH

025-05 ac/h

8-12 l/s/person

4-6 ac/h

300-500 lux

NR25-NR40

Retail (shops/stores)

21-23C

19-21C

455% RH

05-1 ac/h

8 l/s/person

3-8 ac/h

Swimming pools (pool halls)

23-26C

23-26C

40-70% RH

05 ac/h

0-15 l/s/m2 (of wetted area)



Internal design temperature

500-750 lux

NR35-NR45

300 lux

NR 40-NR50

2 0

When to use:

During outline design before the architect has finalised space planning

Where to use:

For determining the spatial and operational characteristics of main plant

Watch out for:

The rules for boiler and cooling plant are based on unit floor area or unit volume

System features

TABLE 1: Sizing and operating characteristics of plant Design area Air handling units Air face velocity

Application

Rule of thumb

Ref

2 5 – 4 m/s 1 0 – 2 5 m/s

36 16

Heating mode Cooling mode

30C (max) 13C (min)

16 16

Air discharge

0 6 – 2 m/s

36

10 – 40 kPa 0 33 – 172 bar

16 36

8m Not to exceed 50 mm within 1m of diffuser outlet

36

Maximum height

66% of ceiling height

36

Allowance for grille

Allow 0 3 m width

36

120 W/m2 floor area 40 W/m3 volume

36 36

Heating coil Cooling coil Air supply temperatures


Other information

Coil water velocity Water pressure drop Steam pressure drop

Air distribution From source

Ceiling diffusers

Non-zoning partitions Sill diffusers

Boiler plant capacity

Power per unit area

Limit of throw Surface projections


36


Design area

Application

Other information

Rule of thumb

Ref

Boiler plant efficiency

B oi le r e ff ic ie nc y E ff ic ie nc y l os se s

Ty pic al ef fic ie nc y B low dow n (s te am) Casing Flue

75% 2% 3% 15 – 20 %

36 36 36 36

Condensing boilers

Underfloor or warm water system

90%

22

Standard size radiators, variable temp circuit (weather compensation)

87%

22

Standard fixedtemperature emitters (83/72 C flow/return)

85%

22

M ode rn h ig h ef fi ci en cy boilers

80 – 82%

22

Good modern boiler design closely matched to demand

75%

22

Typical good boiler

70%

22

1 kW/person

36

Volume per kW

40 litres/kW

36

Low velocity systems High velocity systems

3 – 5 m/s 7 5 – 15 m/s

36 36

Boiler plant Typical seasonal efficiencies


No n- co nd en sin g boilers

Chiller plant capacity

Fuel storage

Ductwork Typical duct velocities

Class D oil


Table 1 continu ed  2 1


System features

2 2


Design area

Application

Other information Rule of thumb

Ductwork

Inlet louvres

(through free area)

Maximum pressure drop rates (per m run)

Ref

2 5 m/s

36

Low velocity systems High velocity systems

1 Pa/m 8 Pa/m

36 36

Typical system resistances ( in cl udi ng air ha ndl in g p la nt )

Low velocity supply Low ve loc it y e xt ra ct High velocity supply

900 Pa 400 Pa 1 5 – 2 kPa

36 36 36

Air leakage system loss (%)

Low pressure systems Med. pressure systems High pressure systems

6% 3% 2%

15 15 15

Fans

Electrical input (kW)

1 6 x total fan pressure (kPa) x volume flow rate (m 3/s)

36

1C per kPa

36

Offices Restaurants Retail stores, halls, theatres

1 4 litres/s per m 3 3 5 litres/s per m 3 2 1 litres/s per m 3

23 23 23

Total system volume (system size, in litres)

Domestic systems Commercial systems

6 x boiler size (kW)+10% 3 10 x boiler size (kW)+10% 3

Capacity per unit area of radiator surface

Conventional system

1 litre/m 2

36

Capacity per unit of power produced (boilers, radiators)

Boilers Aluminium, cast radiator

1 5 litres/kW 3 litres/kW

36 36

Temperature rise of air Fan capacity of ventilated space

Class A Class B Class C

Total fan pressure


Heating systems

Approx. value Approx. value

Table 1 continued  For references see page 32

Design area

Pipework Capacity per u nit lengt h of of steel pipe

Application

Rule of thumb

Ref

E xtruded aluminium Steel panel radiators

1 2 litres/kW 5 litres/kW

36 36

15 mm diamete r pipe 20 mm diameter pipe 25 mm diameter pipe 32 mm diameter pipe 40 mm diameter pipe

0 25 litres/m 0 4 litres/m 0 6 litres/m 1 2 litres/m 1 5 litres/m

36 36 36 36 36

15 –50 mm pipe dia. Over 50 mm pipe dia.

0 75 – 1 5 m/s 1 25 – 3 m/s

36 36

Initial pressure per 100 m pipe run

6%

36

Over 50 mm pipe dia.

100 – 300 Pa/m

16

Corrosive water

1 m/s 1 2 m/s 2 m/s max

36 36 36

Superheated steam Saturated steam Exhaust

40 – 60 m/s 30 – 40 m/s 20 – 30 m/s

36 36 36

4 9 litres/m 2

36

0 36 x circuit length

36

Water velocity Conventional systems


Steam pressure drop

Water pressure

Conventional systems

Water velocity (system)

Small bore Microbore

Steam velocity

Capacity per unit of finned area

Finned tube coils

Pumps Head pressure (pump head) Water treatment Additives required

Pressure (in kPa), length (m) Copper pipework Fr ost prot ection

2 3


Other information

With steel pipework Add 10% to water Glycol concen trat ion

30% of system vol.

36 16


2 4

When to us e:

When determining total building energy consumption

Where to use:

From briefing onwards through to design and operation (See also CIBSE TM22)

Watch out for :

Change to the carbon conversion ratios which are continually being updated

Energy and carbon issues

TABLE 1: Energy conversions Design area Carbon dioxide emission (Kg CO2/ kWh de li ver y) by fu el

Application

N at ur al Ga s Oil Electricity Coal

Other information

Average

Carbon to CO2


Rule of thumb

Ref

019 025 046 030

1 1 1 1

kg kg kg kg

CO2/kWh CO2/kWh CO2/kWh CO2/kWh

Divide by 3 67

1


TABLE 2: Energy benc hmarks (offices) Design area

Application

Other information

Rule of thumb

Ref

Naturally ventilated (cellular) Type 1, simple relatively small building, sometimes converted residential, 100 – 3000 m2

E ne rg y c ost s ov er treated floor area (tfa)

G oo d p ra ct ic e Typical

£3.50 m2 tfa £6.00 m2 tfa

1 1

Gas or oil (delivered)

Good practice Typical

79 kWh/m2 151 kWh/m2

1 1

Electricity (delivered)


33 kWh/m2 54 kWh/m2

1 1

G oo d p ra ct ic e Typical

£4.50 m2 tfa £7.00 m2 tfa

1 1



1 1


54 kWh/m2 85 kWh/m2

1 1

Naturally ventilated (open plan) E ne rg y c ost s ov er Type 2, purpose-built, sometimes treated floor area converted industrial space, 500 m 2 – 4000 m 2 Gas or oil (delivered)



Table 2 continu ed  For references see page 32


2 5

Design area

Application

Other information

Rule of thumb

Ref

Air conditioned (standard) Type 3, purpose-built, speculative often intensively used, 2000 – 8000 m2

Energy costs


£8.00 m 2 tfa £14.00 m 2 tfa

1 1




1 1



128 kWh/m2 226 kWh/m2

1 1

Energy costs


£13.00 m 2 tfa £20.00 m 2 tfa

1 1



114 kWh/m2 210 kWh/m2

1 1



234 kWh/m2 358 kWh/m2

1 1

Design area

Application

Other information

Rule of thumb

Ref

Lighting benchmarks

Type 1


12 W/m 2 15 W/m 2

1 1

Type 2


12 W/m 2 18 W/m 2

1 1

Type 3


12 W/m 2 20 W/m 2

1 1

Type 4


12 W/m 2 20 W/m 2

1 1

Air conditioned (prestige) Type 4, national or regional head office, purpose-built to high standards, intensively used and extensive storage, parking and leisure facilities, 4000 – 20 000 m 2


TABLE 2: Lighting systems



2 6

When t o use:

To determine electrical supply requirements in buildings

Where to use:

When assessing the connected capacity in terms of unit floor area

Watch out for:

Allowances for expansion, particularly for on-floor communications rooms

Electrical systems

TABLE 1: Electrical supplies and loads


Design area

Application

Other information

Rule of thumb

Ref

Electrical supply

E le ct ri cal mot or s E le ct ri cal mot or s

A bove 3 k W r at in g U p t o an d i nc lu din g 3 kW rating

3-phase supply

16

Direct on-line starting

16

Assisted start

16

Lighting

10 – 12 W/m2

16

Small power

15 – 45 W/m2

16

Air conditioning

60 W/m2

35

Passenger lifts

10 W/m2

35

E le ct ri cal mot or s

Electrical services load (per m2 of building floor area)

Total load (kVA) Design allowance for future expansion (%)


A bove 4 k W r at in g

Small computer room

Net area

200 – 400 W/m2

16

B esp oke cal l c en tr e

Ne t a re a

500 – 1000 W/m2

16

Total building load

Total kW/0 8

35

% increase in load

Add 25% to existing capacity

35

   


Cost of m&e services by building type When to us e:

As a general guide to the outline services costs of specific building types

Where to use:

At the briefing stage onwards and during assessment of m&e tenders

Watch out for:

Additions or amendments to the generic building type which might alter costs

Cost data

TABLE 1: Capital and maintenance costs in £/m2


Design area

Application

Factories

Owner occupied For letting

Other information

1995 figure + 10% (2001 adjustment)

Rule of thumb

Ref

£64 – £161 £34 – £78

25 32

Hospitals

District general Private

£393 – £556 £415 – £654

25 25

Offices

For letting Non air-conditioned (Category A standard) Fully air-conditioned

£170 – £190 £280 – £410

25 25

Offices

Owner occupied)

Non air-conditioned Fully air-conditioned

£210 – £280 £310 – £500

25 25

Civic

Fully air-conditioned

£350 – £500

25

Residential housing

Local authority

Two-storey houses Medium rise flats

£71 – £97 £96 – £126

25 25

Schools

Secondary /middle schools

£163 – £241

25

Universities

Arts buildings Science buildings

£212 – £268 £213 – £395

25 25

Shopping centre

Department store

£223 – £347

32

Warehouses

High bay

£86 – £171

25

1995 figure + 10% 2001 adjustment)


Table 1 continued  2 7


2 8

Cost data TABLE 2: Services costs per square metre as a percentage of total cost


Design area

Application

Other information

Rule of thumb

Ref

Arenas (indoor)

Mechanical Electrical Total m&e Lift installations Other Total cost

1999 data, gross internal floor area

9% 12% 21% 1% 78% 100%

7 7 7 7 7 7

Call centres


1999 data (gifa)

10% 17% 27% 1% 72% 100%

8 8 8 8 8 8

Cinemas: multiplex (shell construction)

Mechanical Electrical Lift installations Total m&e Other Total cost

2000 data (gifa)

1% 8% 6% 9% 85% 100%

13 13 13 13 13 13

Cinemas: multiplex (cinema fit-out)


2000 data (gifa)

19% 13% 32% 0% 68% 100%

13 13 13 13 13 13


Table 2 continued  For references see page 32


Design area

Application

Other information

Rule of thumb

Ref

Conference centres

Mechanical Electrical Lift installations Other Total m&e Total cost

2000 data (m2 gifa)

8% 11% 3% 78% 19% 100%

5 5 5 5 5 5

Data/computer centres


2001 data (per m2)

Health & fitness centres


1998 data (m2 gifa)

Offices: city (shell & core only)


2000 data (m 2 gifa)

Offices: urban commercial (category A standard fit-out)

Mechanical and public health Electrical Total cost

1999 data (per m2 nia)

30% 61% Not included 9% 91% 100%


14 14 14 14 14 14

13% 11% 1% 75% 24%

9 9 9 9 9

100%

9

46% 37% 83% Not included 17% 100%

6 6 6 6 6 6

66% 34% 100%

12 12 12

Table 2 continued  2 9


Cost data

3 0


Design area

Application

Other information

Rule of thumb

Ref

Offices: out-of-town commercial (shell & core)

Mechanical Electrical Total m&e Other

1999 data (per m2 gifa)

57% 30% 87% 13%

11 11 11 11

Offices: out-of-town commercial (category A standard fit-out)

Mechanical & public health Electrical

1999 data (per m2 nia)

78%

11

22%

11

Offices: urban commercial (shell & core)



47% 32% 79% 21%

12 12 12 12

Supermarkets (services fit-out)



15% 31% 46% 54%

10 10 10 10

Ventilation (capital costs)

Low velocity High velocity

1995 figure + 10% (2001 adjustment) then  25%

£67 – £113 £71 – £119

33 33



TABLE 3: System capital and m aintenance costs (£/m2)


3 1

Design area

Application

Other information

Rule of thumb

Ref

Air conditioning (capital costs)

Unit air conditioners All-air systems Air/water system


£67 – £113 £82 – £136 £109 – £181 £91 – £151

33 33 33 33

Air conditioning (maintenance costs)

Unit air conditioners All-air systems Air/water system


£14 – £22 £14 – £22 £14 – £22

33 33 33

Air conditioning (average capital costs)



£148 – £248

33


References

3 2


Ref

Title

Publication

Year

Publisher

1

Energy use in offices

Energy Consumption Guide 19

2000

BRECSU

2

Television studios, Section B2, page B2-14

CIBSE Guide B

1986

CIBSE

3

Fry Technology (Fernox Manufacturers)

Fry Technology UK Ltd

2000

Fry Technology

4

Best Practice in the specification for offices

BCO Guide 2000

2000

British Council of Offices

0-9524131-2-4

5

Cost model: Conference Centres

Building 3 November 2000

2000

The Builder Group

0007-3318

6

Cost model: City Offices

Building 24th March 2000

2000

The Builder Group

0007-3318

7

Cost model :Indoor arenas

Building 10th September 1999

1999

The Builder Group

ISSN 1365-5671

8

Cost model: Ca ll Cent res

Building 16th July 1999

1999

The Builder Group

ISSN 1365-5671

9

Cost model: Health & fitness centres

Building 11th September 1998

1998

The Builder Group

ISSN 1365-5671

10

Cost model: Supermarkets

Building Services Journal April 2000

2000

The Builder Group

ISSN 1365-5671

11

Cost model:Out-of-town commercial offices

Building Services Journal April 1999

1999

The Builder Group

ISSN 1365-5671

12

Cost model: Urban commercial offices

Building Services Journal February 1999

1999

The Builder Group

ISSN 1365-5671

13

Cost data: Multiplex Cinemas

Davis Langdon & Everest

2000

Davis Langdon & Everest

Website

14

Cost model: Data/computer centres

Building Services Journal January 2001

2001

The Builder Group

ISSN 1365-5671

15

DW/144 Specification for sheet metal ductwork . Part 8, Appen dix A: Air leakage from ductwork, system leakage loss

Heating and Ventilating Contractors Association

1998

HVCA

0-903783-27-4

16

Industry Review - Rules of Thumb publication, May 2001

Rules of Thumb Industry Review Committee

2001

BSRIA

Not published

17

Space requirements for plant access, operation and maintenance: Defence Estate Organisation (Works), Mo D

1996

HMSO

0-11-772785-7

Defence Estate Organisation (Works), Mo D

1996

HMSO

0-11-772785-7

Defence Estate Organisation (Works), MoD

1996

HMSO

0-11-772785-7

CIBSE Guide G

1999

CIBSE

0-900953-87-X

CIBSE Guide G

1999

CIBSE

0-900953-87-X

Defence Works Functional St andard, Design and Maintenance Guide 08

ISBN

- Section 4, Figure D4 Mechanical surface risers 18

Space requirements for plant access, operation and maintenance: Defence Works Functional St andard, Design and Maintenance Guide 08 - Section 4, Figure D10 Control Panels and Distribution Boards

19

Space requirements for plant access, operation and maintenance: Defence Works Functional St andard, Design and Maintenance Guide 08 - Section 5, Section 5.1 Central station plant, 5.1.1 LTHW boilers

20

Public health engineering, extract from Table 2.3 Recommended minimum storage of cold water for domestic purposes for hot and cold outlets

21

Public health engineering, Extract from Table 2.11 Measured daily hot water consumption in various types of commercial buildings

CIBSE Guide G

1999

CIBSE

0-900953-87-X

22

Energy efficiency in buildings,Table 9.1 Seasonal (boiler) efficiencies

CIBSE Guide F

1998

CIBSE

0-900953-861

Rules of Thumb (3rd Edition)

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