CIBSE Sustainability Tool
HVAC controls
documented controls strategy
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control strategy documented in the building logbook, to ensure good understanding by building operators
(2 - section 6, 1)
Match provision of heating, ventilation & air conditioning to actual demands in the building
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efficient and robust control strategy (matches servicing to occupancy pattern and activity in each zone, and default to off with local override)
(2 - section 6, 3)
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servicing of each occupied zone to match its occupancy pattern and activity type
(2 - section 06/01/02)
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flexibility to match servicing to varying occupancy levels in a zone e.g. wider temperature control band during cleaning/outside core hours
(2 - section 06/01/02)
Adopt an efficient HVAC controls strategy (and zoning) with effective central and occupant controls
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allowance for seasonal variations
(2 - section 06/01/03)
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zoning accounting for external/locational factors (e.g. varying daylight levels, external pollution sources, etc.)
(2 - section 06/01/02)
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zoning accounting for internal layout/design (e.g. open plan / cellular offices) and use (e.g. offices / halls)
(2 - section 6.4)
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appropriate, well designed, local controls (research shows they can improve energy efficiency and reported comfort)
(2 - section 6.4)
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sufficient dead-band and zoning on systems with both heating and cooling to avoid cycling and simultaneous heating and cooling
(2 - section 06/01/03)
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zone controls so different areas of the building can be heated separately
()
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boiler controls so that the smallest available boiler is used for summer DHW generation
()
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black-bulb thermostats for control of radiant heating systems
()
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two-stage electronic thermostats linked to occupancy sensors in intermittently occupied rooms
()
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7-day electronic timeswitches to permit different settings for each day and individual settings of ten minutes or less to allow accurate programming for weekend and daily occupancy patterns
()
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extension timer(s) to cope with occasional out-of-hours working
()
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7-day electronic timeswitches for all electric heaters
()
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electronic two level thermostats with integral run-back timer to switch electric heaters off after a pre-set time
()
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thermostat-controlled de-stratification fan(s) in high-ceilinged rooms to bring warm air down to working levels
()
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humidistat(s) to any extractor fan that is used to remove moist air
()
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optimum start controls, connected to external sensors, on the heating system
()
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thermostatic radiator valves (consider a locking mechanism to prevent unauthorised tampering)
()
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dedicated (central) hot water boiler(s)
()
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smaller supplementary boiler(s) to meet periods of lower demand
()
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condensing (lead) boiler(s)
()
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point of use (gas or electric) water heater(s) for domestic hot water
()
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weather compensator to wet radiator systems (and motorised valve to systems serving floor areas of over 1000m2)
()
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localised radiant heaters controlled by a push button, run-on timer to avoid general space heating where it is not really needed e.g. in atria
()
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longer term options for energy efficiency - replace old boilers, fit thermostats to boilers, insulate boilers and pipework, install efficient double glazing
()
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local heating for small/remote areas (e.g. security offices, controls and equipment rooms) to avoid inefficient use of central systems
()
Reference Documents
|
|
Series Number |
Publisher |
Title |
| 1 |
Guide H
|
CIBSE |
Building control systems |
| 2 |
Guide F
|
CIBSE |
Energy efficiency in buildings |
| 3 |
TM31
|
CIBSE |
Building log book toolkit |
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