This code deals with the work satges required to commission automatic control systems in HVAC constuction industry. Represents standards for good practice in the form of recomantations and guidance. Is applicable for stand alone, BMS, DDC networked DDC and Integrated BMS systems.
Processing & Properties of Floor and Wall Tiles.pptx
BMS COMMISSIONING CODE C_CIBSE
1. Automatic controlsAutomatic controls
CIBSE C i i i C d C 2001CIBSE Commissioning Code C: 2001
Presentation by N. A. Chazapis,
Commissioning Consultant AthensCommissioning Consultant, Athens -
Greece.
2. BMS Pre commissioningBMS Pre-commissioning
• Control Application
Software
General
• Control Panels
– Introduction
Panel tests (preliminaries)– General
– Set points
– Time schedules
– Panel tests (preliminaries)
– Panel tests (visual outside)
– Panel tests (Inside)
– Interlocks
– Control loops
( )
– Flash tests
– Function tests
– Sequencing
– Start up and shutdown
Plant changeover– Plant changeover
– Alarm functions
– User Interface software
3. BMS Pre commissioningBMS Pre-commissioning
• Wiring
– Cable type as specifiedyp p
– Cable identified at both ends
Cable cores identified at both ends– Cable cores identified at both ends
– Security of fixing/protection of cables to walls
– Cable carrier (tray, basket, conduit/trunking)
– Cable management according to specsg g p
– Screening continuity
4. BMS Pre commissioningBMS Pre-commissioning
• Communication networks
– Check that all network devices are inst correctlyy
– Check that all control devices can be addressed
All network data set up by the IT dept– All network data set up by the IT dept.
– Network testing comply with EN-50174-1
– Structured cabling: all outlets properly labeled
– Changes are reflected & updated ing p
documentation
5. BMS Pre commissioningBMS Pre-commissioning
• Sensors
– Correct location & orientation
– Adequate access for commissioning
Type of sensor as specified– Type of sensor as specified
– Appropriate sensor identification
– Sensor wired correctly
– Check sensors using a calibrated instrumentg
– Sensor replaced where the req. offset is high
6. BMS Pre commissioningBMS Pre-commissioning
• Actuators and valves
– Check correct location
– Check adequate access for Cx
Check type of actuator as specified– Check type of actuator as specified
– Check actuator linkage
– Check correct identification
– Check valve ported correctlyp y
– Drive the valve using control system
7. BMS Pre commissioningBMS Pre-commissioning
• Digital Inputs/Outputs
– Check that the signal DI is sensed correctlyg y
– Check that each contact assumes its correct
normally open or closed statenormally open or closed state
– Check that each DO switches the correct item
of plantof plant
– Ensure that each check is entered on the
l t h kli trelevant checklist
8. BMS Pre commissioning
Fi ld t l d i
BMS Pre-commissioning
• Field control devices
– Check size as specified
– Check enclosures as specified
– Check number and location as specifiedp
– Check adequate mechanical fixing
– Check identification by mnemonic labellingCheck identification by mnemonic labelling
– Check all cables terminated & identified
Check continuous power available– Check continuous power available
– Check fuse correct type/spares
9. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Time schedules
• Check that time schedules enable the indented plant
• Check that any out-of-occupancy period, weekendCheck that any out of occupancy period, weekend
and holiday time schedules operate correctly
• Check that the spec routine to ensure unified timep
clocks throughout the complete control system opts
• Check that any specified summer/winter seasonal
changes to control strategies are enabled
10. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Interlocks
• Check the correct operation of interlocks by
individually switching interlocked items of planty g p
• Check all safety interlocks
• Check the spec interl between different control sysp y
• Check the spec temper interlocks operate correctly
– Low inside air temp activates all duty heating plant
– Low inside air temp
11. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Control loopsp
• Check attainment of desired set point
• Check above, within specified time following start-upCheck above, within specified time following start up
• Check stability of control loop (avoidance of hunting)
• Check minimal overshootCheck minimal overshoot
• Control loop should be tuned if the above
characteristics are not attained
• Data logging should be performed to proof.
• Check for satisfactory loop cycle/response lags.Check for satisfactory loop cycle/response lags.
12. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Sequencingq g
• Check for correct sequencing control (in response
to varying plant loads) of items of plant such asy g p ) p
boilers and chillers.
• Check for operation in correct order and at the
desired set points.
13. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Start-up and shutdownp
• Check for the correct control of plant on start-up
• Check for the correct status of plant items such asCheck for the correct status of plant items such as
dampers and valves on plant shut down.
• Check that the defined restart routine operatesp
correctly when power is rein started after a failure
• Check for any specified sequenced start-up to
accommodate high loads.
14. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Plant Overrun
• Fan overrun: Check that the fans operate for the
specified period following a period of operation ofp p g p p
the vent.n system during which an electric heater
battery has been in operation.
• Pump overrun: Check that the pumps operate for
the specified period following a period of operation
of the boilers and chillers to allow temperatures toof the boilers and chillers to allow temperatures to
stabilize in order to prevent spurious tripping of
safety devices.safety devices.
15. BMS CommissioningBMS Commissioning
• Control strategy checking:
– Plant changeoverg
• Check automatic changeover of plant failure by
manually “failing” specific items of plant.y g p p
• Check automatic changeover of plant in response
to the specified number of run hours being
exceeded by manually increasing the run hours.
• Check the sequence of events following the failure
f th d t db it f l tof the second or standby item of plant.
16. BMS Commissioning
C t l t t h ki
BMS Commissioning
• Control strategy checking:
– Alarm functions
• Check operation of each alarm function by
triggering an alarm condition.
Ch k th t ti d l h l i il bl• Check that a time delay on each alarm is available
as specified.
• Check that any specific post-alarm controlCheck that any specific post alarm control
functions, operate correctly.
• Check that alarm masking is in place so that nog
spurious alarms are raised.
• Check the level or category of each alarm.
17. BMS CommissioningBMS Commissioning
• Checking Procedures for basic control
functions
– Optimizer
• Optimum start heating: check that the specified intl• Optimum start heating: check that the specified intl
temp is reached at the start of occupancy
• Check that the maximum pre-heat time isCheck that the maximum pre heat time is
incorporated
• Check that the compensator control is overriddenp
and maximum heat output achieved during tha pre-
heat period.
18. BMS Commissioning
Ch ki P d f b i t l
BMS Commissioning
• Checking Procedures for basic control
functions
– Compensation:
• Check that the compensator gives the specified
control function in response to changes in the
internal and external air temperatures.
• Check that each compensator control function is• Check that each compensator control function is
related to the correct internal temperature sensor
and heating plant zone.
• Check that the comp_cont_funct is overridden
during operation of the optimizer control function.
19. BMS CommissioningBMS Commissioning
• Checking Procedures for basic control
functions
– Mixed damper control:
• Check that the re-circ n damper is in the full re-• Check that the re-circ.n damper is in the full re-
circ.n position and the OA and EA dampers are
closed when the AHU is not in operation.p
• Check that the damper positions are such that the
specified req.d for min.m fresh air is met during
plant operation. Air flow measurement should be
performed by the mech services Cx engineer.
20. BMS Commissioning
Ch ki P d f b i t l
BMS Commissioning
• Checking Procedures for basic control
functions
– Mixed damper control:
• Free Cooling: Check that the OA & EA dampers
modulate towards fully open when the RA temp is
greater than the OA temp and cooling is requiered
• Free Cooling: Check that the dampers modulate to• Free Cooling: Check that the dampers modulate to
ensure the minimum OA flow rate is supplied when
the RA temp is greater than the OA and heating is
required or when the RA temp is less than the OA
temp and cooling is required.
21. BMS CommissioningBMS Commissioning
• Checking Procedures for basic control
functions
– Demand Controlled Ventilation (DCV)
• Check that the specified min fresh air requirem t is• Check that the specified min. fresh air requirem.t is
not compromised by the DCV control routine.
• Check that the plant operates and the dampersCheck that the plant operates and the dampers
modulate to allow an increase in ventilation rate
when the CO2 set point is exceeded.
• Check the highest demand priority, between DCV
and “free cooling”
22. BMS Commissioning
Ch ki P d f b i t l
BMS Commissioning
• Checking Procedures for basic control
functions
– Control of natural ventilation
• Check any specified manual overrides operate
• Check any specified automatic overrides operate
• Check prevention of ingress of cold OA
• Check prevention of vents opening if the OA temp
is above the IA temp and cooling vent/n is req/d
• Check prevention of rain ingress• Check prevention of rain ingress.
• Prevention of vents opening in the event of high
wind speeds.p
23. BMS CommissioningBMS Commissioning
• Lighting Controls
– Daylight-linked/lumen maintenancey g
• Check that the light sensor is located in a rep
location. Calibrate the sensor to give the spec/dg p
light levels.
• The calibration should take place at the lighting
controller, or operator workstation, not direct at the
sensor itself.
24. BMS Commissioning
Li hti C t l
BMS Commissioning
• Lighting Controls
– Occupancy sensors
• Check that the zone occupancy sensor is located
and oriented correctly in relation to occupants.
Ch k th t th iti it i• Check that the occupancy sensor sensitivity is
appropriate. Too low a sensitivity will result in
seated occupants not being detected, while toop g ,
high a sensitivity may result in movement outside
the zone activating the lights.
Ch k th ti d l tti i t ti f• Check the time delay settings is representative of
the occupant work/movement patterns.
25. BMS CommissioningBMS Commissioning
• Lighting Controls
– Manual dimmingg
• Check that the upper and lower limits of the
dimming range are as specified.g g p
26. BMS CommissioningBMS Commissioning
• Lighting Controls
– Sweep-offp
• Check that the start and stop times along with the
override control (e.g occupant or security staff( g p y
override) are as specified.
27. BMS Commissioning
O t W k t ti
BMS Commissioning
• Operator Workstations
– Check that the specified s/w release is installed
– Check that passwords and associated access
levels are set up correctly.
– Check that all outstations and unitary control
devices can be addressed and data sent and
retrieved.
– Check that any spec/d plant/bldg schematics are
displayed correctly on request.
– Check that data logging functions operate.
28. BMS CommissioningBMS Commissioning
• Occupant interfaces
– Check that the physical location of occupantp y p
control devices is correct
– Check that each occupant control deviceCheck that each occupant control device
controls the correct items of the plant
Check that the OCD / plant zoning– Check that the OCD / plant zoning
relationship is correct
Ch k th t th t l b d f th OCD i– Check that the control band of the OCD is as
specified
29. BMS CommissioningBMS Commissioning
• Communications networks
– Check that all control devices can be
addressed over the communications network
– Check that the speed of comm/s meets thatCheck that the speed of comm/s meets that
specified. It is important that this is assessed
when the network is under “normal” cond/swhen the network is under normal cond/s
– Check that the data comm/s are error-free
Ch k th t ti f d t– Check that no cross corruption of data occurs
– Check other devices: routers, bridges.
30. BMS CommissioningBMS Commissioning
• Integrated systems – gateways
– Check that the gateway drivers convertg y
between the two communications protocols.
– Check that the functionality of the gatewayCheck that the functionality of the gateway
meets the spec/s.
Check that the as specified transfer of data– Check that the as specified transfer of data
over the gateway occurs.
Ch k th t th ti d l i d i– Check that the time delays experienced in
transfer data do not exceed the spec/d max.
31. BMS CommissioningBMS Commissioning
• Integrated systems – direct
interoperabilityp y
– Check the degree of direct interoperability.
Check the functional profiles that define the– Check the functional profiles that define the
data which can be transferred for specific
items of plantitems of plant.
– Check that the data transferred between the
diff t f t t l d tdifferent manufacturers control products
meets the specified functional profiles.
32. BMS CommissioningBMS Commissioning
• Integration with fire detection systems
– Integration for monitoring (uni-directional)g g ( )
• Increasingly common (alarm status).
• Check the status info for each fire alarm detectorCheck the status info for each fire alarm detector
can be viewed on the BMS operator PC.
• Check that any spec/d bldg graphics indicating they p g g p g
location of detector heads can be viewed w. status
• Check that a fire alarm cond/n automatically
displays the appropriate bldg graphic.
• Check time delays receiving fire alarm data.
33. BMS CommissioningBMS Commissioning
• Integration with fire detection systems
– Integration for monitoring (bi-directional)g g ( )
• Check that the alteration of any fire alarm
parameter via the BMS has no adverse effect onp
the correct operation of the fire alarm system.
• Test re-setting of alarm sounders.
• Test changing thresholds on detector heads.
• Test isolating fire detection devices & sounders.
• Test partial system re-configuration.
• Check that loss of electrical power to the BMS hasp
no adverse effect on the fire detection system.
34. BMS Commissioning
I t ti ith fi d t ti t
BMS Commissioning
• Integration with fire detection systems
– Integration for control
• Control smoke protection plant such as smoke
vents, and fans for escape route pressurization
systemssystems.
• Check that the BMS can receive fire alarm data
originating from each detector and within time limitg g
• Check for correct control logic in response to a fire
alarm condition on a point-by-point basis.
• Confirm that the correct plant is activated in the
spec/d sequence.
35. BMS CommissioningBMS Commissioning
• Security systems – Intruder alarm
– Check that the status information for each
specified detector can be viewed on the W/S.
– Check that any specified graphics indicatingCheck that any specified graphics indicating
the location of detectors can be viewed.
Check that an alarm condition results in the– Check that an alarm condition results in the
automatic display of the appropriate graphic.
Ch k th t ti d l i i i– Check that any time delay in receiving an
alarm is within the specified maximum.
36. BMS Commissioning
S it t A t l
BMS Commissioning
• Security systems – Access control
– Check that the BMS operator W/S displays
the specified status information from the
access control system (ACS).
– Check that any time delay in receiving data
from the ACS system is within the spec/d max
– Check that any spec/d bldg services control
actions operate correctly in response to the
t t f th ACSstatus of the ACS.
– Check that ACS are correctly integr/d with
Lifts & EscalatorsLifts & Escalators.
37. BMS Commissioning
I t ti f l t i l l
BMS Commissioning
• Interruption of electrical power supply
– Check that the controllers preserve control
strategy configuration data for a spec/d periodstrategy configuration data for a spec/d period
when mains power is lost.
– Check that the condition of any volatile dataCheck that the condition of any volatile data
protection system is regularly and
automatically monitored.
– Check that an alarm is raised on loss of data
by any controller or other device and/or failure
of the monitoring systemof the monitoring system.
– Check that the control system operates
correctly under generator standby and UPScorrectly under generator standby and UPS
power.
38. BMS Commissioning
S ifi Pl t C V l
BMS Commissioning
• Specific Plant Cx – Valves
– Confirm that the valves have been correctly
selected, installed, and applied.
– Check the characteristic positioner, linear or
equal percentage.
– Under dynamic conditions:
• Drive the valve across the whole span.
• Check the max and min positions
• Check the rate of valve movement and whether it
meets that specified.
39. BMS CommissioningBMS Commissioning
• Specific pant Cx – Dampers
– Check that the dampers are correctly installedp y
and applied.
– Check that all damper sections & linkagesCheck that all damper sections & linkages
operate synchronously.
Check the max and min positions and rate of– Check the max and min positions and rate of
movement.
Ch k /d i t l ki ith th f– Check any spec/d interlocking with other fans.
– On receipt of a fire signal check the spec.pos.
40. BMS Commissioning
S ifi l t C F ( i l d)
BMS Commissioning
• Specific plant Cx – Fans (single speed)
– Panel controls (power, fan run/trip, fuses, )
– Hardware:
• Check the fan rotates in correct direction.
• Check start/stop by the application s/w.
• Check correct fan status & mnemonic.
– Interlocks:
• Appropriate interlocks and overrides, with plant in
ffmanual, off, auto modes.
• Check the fans operate as spec/d under fire alarm.
41. BMS CommissioningBMS Commissioning
• Specific plant Cx – Fans (single speed)
– Alarms:
• Set the fan air flow failure device to the desired
value and simulate a no flow condition.
• Check an alarm is initiated and fans are shutdown.
• Set the alarm inhibit time for the air flow failure
device to a time consistent with the fan start.
• Check that on fan failure the corresponding supply
or extract fan switches off.