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7/27/2019 QQ BMS Commissioning Method Statement-Draft
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THE PEARL QANAT QUARTIER Manual Ref:MS/QQ01 APARTMENT J46 Service: BMS
THE PEARL - QANAT QUARTIERQQ01 Building
(Apartment) J46, Doha, Qatar
Commissioning Method Statement
Method Statement Ref : MS/QQ01
Service : BMS
Status : Draft-1 Issue Date : 01-05-2010
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INDEX
2 PRE-REQUISITE TO PROCEDURE........................................................................................4
3 DESIGN PARAMETERS..........................................................................................................5
4 REFERENCE DOCUMENTS / DRAWINGS ...........................................................................134.1 THE DGP (DATA GATHERING PANEL) DESIGN.....................................................................13
5 PRE-START CHECKS / PRE-COMMISSIONING...................................................................15
6 COMMISSIONING / TEST PROCEDURES............................................................................176.3.1 100% OUTDOOR AIR HANDLING UNITW/ COOLING COILW/ 2-WAY VALVE.........................256.3.2 PUBLIC EXHAUST FANS...................................................................................................296.3.3 STAIRCASE PRESSURIZATION FANS..................................................................................306.3.4 SMOKE EXHAUST FANS...................................................................................................32
6.3.5 PUBLIC SUPPLY FANS......................................................................................................356.3.6 ROOF DOMESTIC WATER STORAGE TANKS ....................................................................366.3.7 DUPLEX SUBMERSIBLE PUMPS ........................................................................................403.6.8 COMBINE FIRE & RAW WATER SYSTEM............................................................................426.3.9 TREATED (FILTERED) WATER STORAGE TANKS....................................................476.3.10 ENERGY TRANSFER STATION (ETS)......................................................................526.3.11 MOTORIZED DAMPERS............................................................................................54UPONACTIVATIONBY FIRE ALARM SYSTEMTHE BMS WILLMONITORTHEONANDOFFSTATUSOFPRESSURIZATION/SMOKE EXHAUST/EXHAUST FANS MOTORIZED DAMPERS................................546.3.12 ELECTRICAL PANELS.....................................................................................................546.3.13 HV SWITHGEAR............................................................................................................ 546.3.14 AUTOMATIC TRANSFER SWITCH (ATS)..........................................................................556.3.15 GENERATOR.................................................................................................................. 55
6.3.16 LIFTS.......................................................................................................................... 556.3.17 FIRE ALARM CONTROL PANEL........................................................................................556.3.18 SECURITY SYSTEM CONTROL PANEL..............................................................................566.3.19 EMERGENCY MAIN DISTRIBUTION BOARD/MAIN DISTRIBUTION BOARD.............................566.3.20 FM200 PANEL.............................................................................................................. 57
7 INTERFACE PROCEDURE....................................................................................................58
8 DOCUMENTATION................................................................................................................ 59THE INSPECTIONAND TEST PLAN (ITP) FORMINCLUDEDIN APPENDIX-G SHOULDBEAPPROVEDASAPRE-REQUISITEOFTHEPRE-COMMISSIONINGPERIOD.................................................................60
9 DEMONSTRATION PROCEDURES......................................................................................61
64
FIGURE-5: SCHEDULING..........................................................................................................64
10 INSTRUMENTATION............................................................................................................ 66
11 STAFFING............................................................................................................................. 68
12 SAFETY ASPECTS & PERMIT TO WORK REQUIREMENTS............................................69
1 INTRODUCTION
The building management system of The Pearl - Qanat Quartier (Apartment) J46 ,consists of a complete control and monitoring of systems such as the HVAC system,ETS plant rooms, electrical lighting panels from one hand and just monitoring of
other systems such as Irrigation Booster Pumps, Fire Pumps, Jockey Pumps, VFDBooster Pumps, Submersible Pumps, Motorized Dampers , Lifts, Generator Sets,
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EMDBs, MDBs, ATS, Fire Alarm Control Panel, Security System Panel and FM200
System Panel on the other hand.
Practically, the building management system of this project consists of a Main BMScontroller room, located in the Control Room of QQ01 Building. The BMS controlroom consists of both the BMS workstation and the Network Automation Engine(NAE) enclosure:
The BMS workstation, consisting of a desktop computer, can give access to the dataof each of the Building Levels and Parking Levels. The NAE enclosure, on the otherhand, consists of three (3) Network Automated Engines that manage facilities usinginformation and Internet technology. The NAE uses the BACNet network to monitor
and supervise Heating, Ventilating, and Air Conditioning (HVAC) equipment, lighting,and third party systems. In addition the NAE devices provide monitoring and control,alarm and event management, data exchange, trending, energy management,scheduling, and data storage.
Each NAE is connected through the BACNet (BACNet Network) cable to all theBACNet controllers which are spread across the building levels in panels that werefer to as the Data Gathering Panels (DGP).These BACNet controllers in turn areconnected to the different sensors and volt free contacts that consists the core of theinformation the BMS system is monitoring and controlling.
The purpose of this document is to break down and detail the whole procedure oftesting and commissioning of the Building Management System of The Pearl -Qanat Quartier (Apartment) J46.
Consequently, the BMS team progressively inspects all BMS device installation,cable pulling and termination, installation of data gathering panels, point to pointchecking, calibration of devices, system sequence of operation, integration on theworkstation level and fine tuning of the complete system.
In addition to the different levels that this document describes, a list of references of
all the designs and shop drawings is attached to this document along with samplesof each checklist and forms needed in order to achieve the Building ManagementSystem of The Pearl Qanat Quartier QQ01 Building (Apartment) J46.
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2 PRE-REQUISITE TO PROCEDUREThe following items are prerequisites to the beginning of testing andcommissioning:
2.1 A minimum notice of 24 hours for the pre-commissioning request should begiven to the QA/QC officer of CONSPEL.
2.2 The pre-commissioning request is in the form of an Inspection Request Form(IRF) which is attached in Appendix-G. This IRF form has been handed to usby the QA/QC officer of CONSPEL.
2.3 CONSPEL shall have tested commissioned and approved the motor controlcentres panels prior to the testing of the HVAC Control System.
2.4 CONSPEL shall have tested commissioned and approved all electrical lightingpanels, emergency lighting panels, MDBs and EMDBs prior to the testing ofthe BMS controlled/monitored items.
2.5 All defects / snags must have been cleared off by the authorized engineer ofCONSPEL prior to the testing and commissioning of the BMS system.
2.6 Conformation that:
2.6.1 The system conforms to the requirements of the specifications.
2.6.2 CONSPEL has installed the system as per the contract, EngineeringDesign, approved shop drawings and any client / design changes fromvariation or instructed works during contract duration.
2.6.3 CONSPEL has installed completed and connected to all MCC panels,all related electrical and mechanical equipment, as planned.Consequently, these electrical and mechanical systems are ready to
accept electrical power.
2.7 All relevant water and air balancing tests shall be completed by CONSPELand approved by the consultant prior to the testing of the BMS relatedsystems.
2.8 A written confirmation from the installer and the Technical Engineer that thesystem, which the BMS team wants to test and commission, is ready and fitto operate.
2.9 The Inspection and Test Plan (ITP) form included in Appendix-G should beapproved before the beginning of the pre-commissioning period
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3 DESIGN PARAMETERS
3.1 Specification Reference
The specifications for mechanical, electrical and plumbing services that apply to thebuilding management system are described in the document: The Pearl, DP/10Qanat Quartier Design Basis Report-Mechanical.
The building management system has been designed in a way to comply with all thespecification of the above document from all point of views: Field level, Automation
level and Management level.
3.1.1 Field Level
The controller FX16 Master Controller that Energy International supplies,comply with the MEP Services Specifications since it possess the followingfeature:
The FX16 is a protocol independent controller and can adapt to protocols
such as BACNET.
The FX16 allows up to 27 inputs / outputs with the additional possibility to
expand its I/O count through the standard XT / XP modules
The FX16 is freely programmable
The FX16 has a real time clock which allows introducing functions based
on a weekly time schedule
The FX16 is compatible with standard BAS (Building Automation System)
protocols, adaptable to any application and has a wide range of sensorsinput available
Fully programmable using FX Tools package
DIN rail mounting
Female connector option: screw or spring clamp connectors
Optional user interfaces: integrated, local, or remote
Events displayed on user interface (up to 12 events)
Easy commissioning via proprietary commissioning tool
Programming Key for easy application uploading and downloading
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3.1.2 Automation Level
The BACNet is thus compatible with the automation level specificationssince the FX16 chosen for this project is fitted with a BACNetcommunication card. This card enables the FX16 controllers to pass datafrom one to another and to send event-initiated data to the Networkautomation engine in the METASYS System or to any other, off the shelf,BACNet supervisory system. Thanks to the BACNet features the FX16controllers have network input and output points which can be configuredto transmit and receive data over the BACNet Bus. The transmission of
point data is managed by the BACNet network and is independent fromthe supervisory functions of the METASYS Network Automation Engine. Anetwork of FX16 controllers, fitted with the BACNet communication card,can be installed to share analog and digital data between controllers on apeer-to-peer basis; a Network Automation Engine is not required unlessthe network is to be supervised by a METASYS system.Complex control strategy may now be performed in multiple FX16controllers without the need for network data exchange routines in asupervisory controller.
Moreover the FX16 controllers chosen for this project are UL listed andcomply with the temperature range as well as the memory required. Inaddition each of these controllers is equipped with a socket for connectinga commissioning service and has the required features as mentionedabove in the field level.
3.1.3 Management Level
The management level also goes along with the specification since eachpart of the management level has the requested specification. The
management level is made of the following items:
Network Automation Engine (NAE) manages facilities using information
and Internet technology and uses the communication technologies of thebuilding automation industry, including BACnet protocol, BACNETSnetwork, and the N2 Bus to monitor and supervise Heating, Ventilating,and Air Conditioning (HVAC) equipment, lighting and third partyequipment. A single NAE or a network of multiple NAE devices within abuilding provide monitoring and control, alarm and event management,data exchange, trending, energy management, scheduling, and datastorage.
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The main features and benefits of the NAE are:
FEATURES BENEFITS
Communication UsingCommonly Accepted ITStandards at the Automationand Enterprise Level
Allows you to install the system on theexisting IT infrastructure within a building orenterprise and use standard ITcommunication services over the companyintranet, Wide Area Network (WAN), orpublic Internet with firewall protection
Web-Based User Interface
Allows you to access system data in theNAEs from any supported Web browserdevice connected to the network includingremote users connected by dial-uptelephone or an Internet Service Provider(ISP)
Site Director Function
Allows you to access all data on one sitethrough one device. The device designatedas the Site Director coordinates the displayof data from multiple NAE devices for easynavigation through the entire site.
Support for Web Services atthe Automation NetworkLevel
Allows you to develop facility-specificadvanced data interfaces and applications
User Interface and OnlineSystem ConfigurationSoftware Embedded in NAE
Allows configuration, commissioning, dataarchiving, monitoring, commanding, andsystem diagnosis from any device with Webbrowser software and does not requireseparate workstation software
Supervision of FieldController NetworksIncluding N2 Bus, BACNETSNetwork, andBACnet MS/TP EnabledDevices
Supports connectivity to open networkstandards for complete flexibility in theselection of field devices. Supportedprotocols include BACnet Master-Slave/Token-Passing (MS/TP), BACNETS, andN2.
Multiple Connection Optionsfor Data Access
Allows connection of a Web browser via theInternet Protocol (IP) network using theEthernet port or directly to an RS-232 serialport. For a dial-up connection, use theoptional internal or external modem.
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The building management system uses the Application and Data Server
(ADS) as a software management tool. The Application and Data Serveris the point of access into the building automation network and handlesthe archiving of historical and configuration data. The ADS capabilitiesinclude user graphics, alarm and event management, trend datapresentation, system summaries, reports, schedule configuration andsystem security. The ADS is a scalable platform that serves multipleconcurrent users that are connected with a Web browser. The ADSmanages the long-term storage of trend data, event messages, operatortransactions, and system configuration data. As Site Director, the ADSprovide secure communication to a network of Network AutomationEngines (NAEs). The ADS Web browser interface can be used to defineand modify online the METASYS system database
The System Configuration Tool (SCT) is included in the ADS software
package. It is used to create or modify databases in an offline mode, thento download them to the appropriate devices.
The METASYS user interface (UI) is web-enabled and provides a
powerful framework for navigating through the entire BMS, displaying
data, sending commands, and bringing critical information to the attentionof the operator. The user interface takes full advantage of the ADScapabilities.
The integration of Information Technology (IT) and Internet
communication and security technologies enables the ADS to be usedwithin the existing networking infrastructure of buildings and enterprises.The ADS can be accessed by multiple Web browsers from any locationon the network, and enterprise systems can read the data in the ADSdatabase for business planning and energy management purposes.
The building management system workstation will consist of the latest
Pentium Desktop computer with the latest options and best specificationwhich will exceed the specification given in the MEP ServiceSpecification.
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3.2 Schedule of Equipment
Each building of The Pearl - Qanat Quartier (Apartment) J46, had its ownEquipment Schedules. The Equipment Schedules for the QQ01 Buildingshave the following references:
QQ-7019-MH-BU-GN-1010.dwg
QQ-7019-MH-BU-GN-1011.dwg
QQ-7019-MH-BU-GN-1012.dwg QQ-7019-MF-BU-GN-5010.dwg
QQ-7019-MP-BU-GN-5030.dwg
The equipment schedules include the following systems:
Air Handling Units
Fan Coil Units
Exhaust Air Fans
Supply Fans
Chilled Water Pumps Heat Exchangers
Expansion Tanks
Fire Pumps
FM200
Submersible Sump Pumps
Pumps
Domestic Water Tanks
The equipment schedules give us the complete information about the
mechanical equipment reference number, the area they serve, and theirquantity. The equipment schedule inform us also whether some equipmenthave been deleted, or have been added.
3.3 Drawings (mechanical, electrical, plumbing )
The contract drawings provided by the main contractor include the exactlocation of all kinds of systems controlled by the BMS.
The contract drawings are later on replaced by the shop drawings made bythe main contractor. These shop drawings give more details and are moreaccurate since they are submitted to many modifications.
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The BMS design doesnt become final until it is based on the as-built drawings(which are not yet issued). The as-built drawings will be last revision issuedfor the shop-drawings.
3.4 Lighting Panel Schedule
QQ01 BUILDING
ITEM LIGHTING PANELS LOCATION
1 PP/PK1-1 LEVEL-1
2 PP/PK1-2 LEVEL-1
3 PP/PK1-3 LEVEL-1
4 PP/PK2-1 LEVEL-25 PP/PK2-2 LEVEL-2
6 PP/PK2-3 LEVEL 2
7 LP/LS-1 Building 1 1st Floor
8 PP/B1-L1-1 Building 1 1st Floor
9 PP/B1-L3-1 Building 1 3rd Floor
10 PP/B2-L1-1 Building 2 1st Floor
11 PP/B2-L3-1 Building 2 3rd Floor
12 PP/B3-L1-1 Building 3 1st Floor
13 PP/B3-L4-1 Building 3 4th Floor
14 PP/B4-L1-1 Building 4 1st Floor
15 PP/B4-L341 Building 4 4th Floor
3.5 Motor Control Centre Design
The building management system design cannot be right without the detail ofall the Motor Control Centre (MCC). These MCC give a list of all theequipment to which they provide power. These MCC details of connectionare important since the BMS data gathering panel design is based on theequipment MCC location rather than on the equipment location alone.
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3.6 Power Provision for the BMS Data Gathering Panels
Each data gathering panel has a power requirement of 500VA. This power isprovided from the closest Essential Distribution Board (DBE). You can findbelow a table showing the source of power for each DGP. The one that arenot available yet will be determined later on by CONSPEL.
# BMS PANEL POWER1 QQ01-DGP-PK1-1
2 QQ01-DGP-PK1-1A3 QQ01-DGP-PK1-2
4 QQ01-DGP-PK1-3
5 QQ01-DGP-PK1-4
6 QQ01-DGP-PK2-1
7 QQ01-DGP-PK2-2
8 QQ01-DGP-PK2-3
9 QQ01-DGP-PK2-4
10 QQ01-DGP-PK2-5
11 QQ01-DGP-B1-3F-1
12 QQ01-DGP-B1-RF-1
13 QQ01-DGP-B1-RF-2
14 QQ01-DGP-B2-3F-115 QQ01-DGP-B2-RF-1
16 QQ01-DGP-B2-RF-2
17 QQ01-DGP-B3-3F-1
18 QQ01-DGP-B3-RF-1
19 QQ01-DGP-B3-RF-2
20 QQ01-DGP-B4-3F-1
21 QQ01-DGP-B4-RF-1
22 QQ01-DGP-B4-RF-2
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3.7 Systems controlled and monitored
The building management system provides the control and/or monitoring ofthe following systems:
Heat Exchangers
Chilled Water Pumps
Irrigation Booster Pump (Monitor)
Transfer Pumps
Fire Pumps (Monitoring)
Jockey Pump (Monitoring) Lifting & Booster Pumps (Monitor)
VFD Booster Pumps
Submersible Pumps (Monitor)
Outdoor Air Handling Units
Exhaust Fans
Smoke Exhaust Fans
Corridor Supply Fans
Pressurization Fans
FCUs in Public Areas
Lighting Circuits in Public Areas
Interfacing at a high level with the following Equipment via BACNet / LonWorkor Volt Free Contact (VFC)
Lifts
Generator
Fire Alarm System
Security System
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4 REFERENCE DOCUMENTS / DRAWINGS
4.1 The DGP (Data Gathering Panel) design
Each DGP design is related to a specific BMS panel and includes thefollowing:
List of equipment controlled by the panel
Panel layout
Bill of material
Control diagram
Sequence of operation Connection diagram
Terminal block
Single line diagram
For the list of references of the The Pearl Qanat Quartier (Apartment) J46QQ01 Building DGPs please refer to Appendix-B.
4.2 The BMS Shop drawings
These shop drawings are floors layout showing the following:
The location of the BMS data gathering panels
The location of all mechanical, electrical and other BMS related
systems existing on the same plan
The location of all BMS field devices (temperature sensors, pressure
transmitters, valves, actuators )
The type and number of all BMS cables that interconnects the Data
gathering panel, with their corresponding mechanical equipment, fielddevices, electrical panels
The routing of the above mentioned cables
The type and routing of the network cable connecting the Data
Gathering Panels to the BMS control room
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4.3 Work of MEP sub-contractors
Based on the shop drawings and the data gathering panel designsubmitted to the MEP sub-contractor, the MEP sub-contractor shall:
Install all control devices and provide accessories of installation
Provide containment to the cables
Install the data gathering panels
Pull the BMS cables
Connect the BMS cables on both field and DGP side
Provide power to the data gathering panel
During the execution of the work, the MEP sub-contractor will make sure tofollow all IEE wiring regulations related to his work, but not to contradictKAHRAMAA specific requirements.
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5 PRE-START CHECKS / PRE-COMMISSIONING
5.1 Standard Pre-start Checks:
Prior to any pre-commissioning, testing and commissioning, the followingdocumentation will be available for inspection by any attendee of the testingand commissioning team (refer to section-11 of this document):
5.1.1 Snag list duly signed off as sufficiently completed as not to impedecommissioning. Note that it is not necessary to have all snags
complete prior to commissioning commencing.
5.1.2 All documentation required as part of the safety procedure filled out.In the BMS testing and commissioning only one document will berequired: the work permit which is needed in case we are workingeither in an already closed area or in a shaft.
5.1.3 All approved relevant BMS data gathering panel design and BMSshop drawings (See Appendix-B & Appendix-C)
5.1.4 Approved BMS Pre-commissioning test sheets of cables and field
devices (See Appendix-D)
5.1.5 Approved BMS testing and commissioning checklists of field devicesand sequence of operation (See Appendix-E & F)
5.1.6 The approved version of this document BMS Commissioning MethodStatement
5.1.7 The work permit from J&P safety officer in case we are working in analready closed area or in a shaft.
5.1.8 Acquire temperature and pressure setpoints for all mechanicalequipment that need it (AHU, Heat Exchangers)
5.1.9 Acquire time schedule parameters for all equipment that need to beturned on and off on schedule
5.1.10 Verify that all safety interlocks with the Motor Control Centre are tested
5.1.11 Verify that all interfacing / integration requirements are installed &tested in both cases whether it is hardwired or high level thrucommunication
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In addition to the paperwork and before the period of pre-commissioning;
CONSPEL will assign two QA/QC officers to witness the testing of cables andthe proper installation of devices. One QA/QC officer will be responsible forthe electrical part and the other QA/QC officer will be responsible for themechanical part.
5.2 Standard Pre-commissioning Checks:
5.2.1. Visual inspection to ensure that all equipment is installed as perdrawings and specifications, and complies with all relevant codes andpractices
5.2.2. Checking of cables (per DGP) Continuity check
Labelling of the cable on both side
Proper cable termination on the data gathering panel side, to the
corresponding terminal block
Proper cable termination on the field level side
5.2.3. Checking of field devices/points (per DGP).
Checking that the field device part number is correct with
respect to system drawing bill of material (if available)
Checking of the proper installation of the field device(if available)
Checking of the tagging of each device (if available)
5.2.4. Point to point checking from the DGP terminal Block to the BMS Fieldpoints. We will use in this part the voltmeter in order to verify that theterminations on the field device are interfaced at the correct DGPterminals.
The checking of cables, installation of field devices and point to point checkingare made through one pre-commissioning form EIC-QQ01-XX-001 (XX beingthe name of building). Please refer to Appendix-D to find a sample of this formin addition to the pre-commissioning forms of the whole QQ01 Building.
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6 COMMISSIONING / TEST PROCEDURES
The commissioning of the BMS is divided into three successive phases.
6.1 Data Gathering Panel power test
The data gathering panel power test must be done after we make sure thatthe pre-commissioning forms, of the concerned DGP, have all been filled andsigned.
The power test procedure consists of:
Checking that the ground cable of the DGP is connected
Opening the 24VAC fuse of each controller of the DGP concerned
Requesting for power from CONSPEL person in charge
Checking the main power 230VAC on the supply of the DGP using a
multi-meter
Checking the low current 24VAC supply from the panel transformer
using the multi-meter
Closing all the 24VAC fuses of the panel
Checking the low current 24VAC supply to each controller andextension module
Upon the testing of these points, the top part of the checklist, EIC-FTC-XX-001/002/003 (where XX is the name of the building) in Appendix-E, must befilled.
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6.2 Field devices/points commissioning tests
This part consists of the testing of both, the correct function of each fielddevice/point and the testing of the correct interpretation of its signal at theDGP.This procedure takes place after downloading the Input / Output program tothe controller and opening the commissioning software.Refer to the list below, to find the proper way of commissioning each kind offield device / point.
1.1 Binary or Digital Input
1. Choose one point
2. If the point is operational (ex: auto/manual switch that can be rotated) thenphysically alternate its state from the field
3. Check on the commissioning screen of the laptop is any value isalternating state
4. If yes, check that the software name of this software point coincide withthe field point we are testing
5. If the point indication is impossible to change, it can be simulated manually(this is done in general for all faults and alarms) and the same steps (3 &4) are continued
6. If the point is not operational, simulate a binary switch at the unit and labelNot Operational.
7. If the binary input comes from a sensor, check the list below for moredetails in testing and commissioning.
8. Note the input that has been verified by making a check against the deviceon the appropriate commissioning documentation. (See Appendix-E,checklist EIC-FTC-XX-001/002/003).
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6.2.2 Binary Output
1. Verify proper interfacing device is installed. (e.g. Relay)
2. With power OFF at controlled devices , ensure the interfacing deviceresponds to a Software / Manual command. The software commandcomes from the commissioning software where as the manual commandcan be done by applying a jumper on the coil of the relay.
3. Note that the device has been verified by making a check against thedevice on the appropriate commissioning documentation. (See Appendix-E, checklist EIC-FTC-XX-001/002/003).
6.2.3 Analogue Input
1. Measure the actual input variable.
2. Check the value read on the commissioning tool, and verify that itcorresponds to the measured one
3. Check that the unit on the commissioning software point is matching theparameter we are checking.
4. Check that the input we are reading has a logical sense and does not fallout of common sense range.
5. If the analogue input comes from a sensor, check the list below for moredetails in testing and commissioning.
6. Note that the input has been verified by making a check against the sensoron the appropriate commissioning documentation. (See Appendix-E,checklist EIC-FTC-XX-001/002/003).
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6.2.4 Analogue Output
1. Check that the unit on the commissioning software point is matching theparameter we are checking.
2. Send multiple different outputs.
3. Verify that the connected device is physically responding according toeach output sent
4. Calibrate the device if needed (in our case all valve actuators have beenmounted on their corresponding valves, tested and calibrated prior to theyuse on site).
5. If the connected device has a feedback, then check that the feedback ofthe device corresponds with the output sent.
6. Note that the output has been verified by making a check against theActuator Device on the appropriate commissioning documentation. (SeeAppendix-E, checklist EIC-FTC-XX-001/002/003).
N.B. While checking the analogue input and output, refer to the following listof sensors for calibration purposes
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6.2.5 Duct Pressure Sensor
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-D)
2. Take from CONSPEL the list of all actual measured pressure across theneeded terminal connections as shown on sensor data sheets.
3. Compare the actual value of CONSPEL with that read on the propercommissioning tool. The pressure sensor is factory calibrated; therefore no
field adjustment should be necessary. The actual pressure is still beingtested. A list of value will be sent as soon as the values will be confirmed.
4. Go back to 6.2.3. Analogue Input, to finish step 6.
6.2.6 Duct Temperature Sensor
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. Verify the sensor reading, by comparing the temperature read on theproper commissioning tool and the resistance measured on the terminalblock by the voltmeter. Use the table below (Figure-2: nominaltemperature vs. resistance) to check the matching.
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Figure-2: Nominal Temperature vs. Resistance
3. Go back to 6.2.3. Analogue Input, to finish step 6.
6.2.7 AHU Fan Air Differential Pressure Switch
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. With the relevant fan running adjust the pressure set point of thedifferential pressure switch until the contacts close. Turn off the fan andcheck the contacts have opened.
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3. Cycle the differential pressure switch two or three times by operating the
fan on and off and each time check the switch contacts have opened orclosed appropriately.
4. Go back to 6.2.1. Binary Input, to finish step 8.
6.2.8 Water Differential Pressure Switch
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. With the relevant pump running adjust the pressure set point of the
differential pressure switch until the contacts close. Turn off the pump andcheck the contacts have opened.
3. Cycle the differential pressure switch two or three times by operating thepump on and off and each time check the switch contacts have opened orclosed appropriately.
4. Go back to 6.2.1. Binary Input, to finish step 8.
6.2.9 Water Differential Pressure Sensor
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. Take from CONSPEL the list of all actual differential pressure measuredacross supply and the return water lines terminal connection as shown onsensor data sheets.
3. Compare the actual value of CONSPEL with that read on the propercommissioning tool. The differential pressure sensor is factory calibrated;therefore no field adjustment should be necessary.
4. Go back to 6.2.3. Analogue Input, to finish step 6.
6.2.10 AHU Filter Differential Air Pressure Switch
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. Set the differential pressure switch to the setting given by the customer forfilter dirty condition. Check that switching occurs at the set differential
pressure (between 10 to 30% of the scale range).
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3. Recalibrate if necessary.
4. Go back to 6.2.1. Binary Input, to finish step 8.
6.3.1.1 Damper Actuator (On/Off Control)
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. Check the Actuator and Damper are correctly assembled.
3. Calibrate the Damper / Actuators assembly to set direction and end stops
using hand held ON / OFF signal generator.
4. Set damper end switch positions and verify operation.
5. Go back to 6.2.3. Analogue Input, to finish step 6, or to 6.2.1. Binary Input,to finish step 8 (depending on the type of damper)
6.2.12 Chilled Water Control Valve (Modulating Control)
1. Verify that the sensor has been checked as installed in checklist EIC-PC-XX-001. (See Appendix-F)
2. Check the Installation of the valve to ensure correct flow direction.
3. Check the Actuator and valve are correctly assembled.
4. Calibrate the Valve /Actuator assembly to set stroke and end stops usinghand held 0-10V signal generator.
5. Calibrate the valve position feedback potentiometer.
6. Note that all Valves were assembled / calibrated in our office /manufacture prior to site delivery.
7. Go back to 6.2.3. Analogue Input, to finish step 6.
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6.3 Commissioning of DDC Controller Software along with therelevant system sequence of operation
6.3.1 100% Outdoor Air Handling Unit w/ Cooling Coil w/ 2-way Valve
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF A CONSTANT VOLUME 100%. OUTDOOR AIR
HANDLING UNIT WITH:
1. SUPPLY FAN (SF)
2. MOTORIZED FRESH AIR DAMPER (MD)
3. PRE-FILTER (PF)
4. BAG FILTER (BF)
5. 2-WAY MODULATING VALVES (MV)
6. CHILLED WATER COIL (CWC)
7. HEAT DEHUMIDIFICATION PIPE
8. DUCT MOUNTED TEMPERATURE SENSOR.
9. DUCT MOUNTED SMOKE DETECTOR.
10. SOLENOID VALVE
THE AIR HANDLING UNIT SHALL BE DIRECTLY CONTROLLED AND MONITORED
BY MEANS OF A DEDICATED STAND-ALONE DIRECT DIGITAL CONTROLLER
(DDC).
THE DDC SHALL BE CONNECTED TO THE BUILDING MANAGEMENT SYSTEM
(BMS).
THE DDC CONTROL LOGIC SHALL:
1. CONTROL THE AHU MOTOR AND CHILLED WATER VALVE
OPERATION.
2. MONITOR THE SUPPLY TEMPERATURE SENSOR, THE FILTERS
DIFFERENTIAL PRESSURE SWITCHES, THE FANS DIFFERENTIAL
PRESSURE SWITCH, AND THE SMOKE DETECTOR LOCATED ON
THE SUPPLY DUCT.
3. SHUTTING DOWN THE SOLENOID VALVE AROUND THE HEAT PIPE
COIL DURING WINTER OPERATION.
4. REPORT ALL VALUE CONTROLLED AND MONITORED TO THE BMS.
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HOA SWITCHES
ALL 1OO% OUTDOOR AIR AHU SUPPLY FANS SHALL BE PROVIDED WITH AN
HOA SWITCH.
NORMAL OPERATION SEQUENCE
SYSTEM OFF
WHEN THE SYSTEM IS OFF:
1. THE CHILLED WATER MODULATING VALVE SHALL BE IN THE NORMALLY
CLOSED POSITION.
2. THE OUTSIDE AIR DAMPER SHALL BE CLOSED.
3. THE SUPPLY FAN SHALL BE OFF.
4. THE SOLENOID VALVE AROUND THE HEAT PIPE COIL SHALL BE IN THE
CLOSED POSITION
SYSTEM STARTUP
THE AIR HANDLING UNIT SHALL BE OPERATED BY ANY OF THE FOLLOWING
MEANS:
1. MANUALLY THROUGH THE HOA SWITCH.
2. AUTOMATICALLY FROM THE BMS BY AN OPTIMUM START STOPS SEVEN-
DAY TIME SCHEDULE PROGRAM.
3. MANUALLY FROM THE BMS BY AN OPERATOR MANUALLY ENTERED
COMMAND.
OCCUPIED / UN-OCCUPIED MODE
THE CONTROLLER SHALL OPERATE IN ONE OF THE FOLLOWING 4 MODES:
1. SUMMER OCCUPIED MODE.2. SUMMER UN-OCCUPIED MODE.
3. WINTER OCCUPIED MODE.
4. WINTER UN-OCCUPIED MODE.
THE ACTIVE OPERATING MODE SHALL BE DETERMINED BASED ON ANY OF
THE FOLLOWING MEANS:
1. AUTOMATICALLY FROM THE BMS, BASED ON A PROGRAMMED TIME
SCHEDULE.
2. MANUALLY FROM THE BMS BY AN OPERATOR MANUALLY ENTERED
COMMAND.
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THE CONTROLLER SHALL MAINTAIN THE COMFORT LEVEL TO A USER-
DEFINED SET POINT DURING THE OCCUPIED PERIOD.THE CONTROLLER
SHALL USE SETUP AND SETBACK VALUES DURING THE UNOCCUPIED PERIOD
TO MAINTAIN THE SPACE TEMPERATURE.
START SEQUENCE
THE SYSTEM SHALL BE STARTED IN THE FOLLOWING SEQUENCE:
1. THE MOTORIZED FRESH AIR DAMPER SHALL MODULATE TO A PRESET
POSITION (AS SENSED BY A LIMIT SWITCH).
2. AFTER A TIME DELAY. THE SUPPLY FAN SHALL START.3. ONCE THE SUPPLY FAN IS RUNNING, THE MODULATING VALVE
CORRESPONDING TO THE OPERATION MODE SHALL OPERATE.
OPERATION SEQUENCE
FAN CONTROL
CURRENT SENSING RELAYS SHALL PROVE THE ON STATUS OF THE FAN.
DEDICATED DIFFERENTIAL PRESSURE SWITCHES ACROSS THE SUPPLY FAN
SHALL PROVE AIRFLOW
MODULATING VALVES CONTROL: COOLING
THE SUPPLY AIR TEMPERATURE SENSOR SHALL CONTROL THE 2-WAY
MOTORIZED VALVE THROUGH THE AIR HANDLING UNIT DCP TO INSURE
THAT THE SUPPLY AIR TEMPERATURE DOES NOT RISE ABOVE A PRESET
TEMPERATURE.
THE ACTUAL POSITION OF THE MODULATING VALVE SHALL BE REPORTED TO
THE BMS.
SOLENOID VALVE CONTROL: HEAT PIPE DEHUMIDIFICATION
DURING THE SUMMER OPERATION, THE SOLENOID VALVE IS NORMALLY
OPEN TO INSURE THE FULL REFREGERANT FLOW IN PIPES. WHILE IN THE
WINTER OPERATION THE SOLENOID VALVE WILL BE TURNED OFF.
THE ACTUAL POSITION OF THE SOLENOID VALVE SHALL BE REPORTED TO
THE BMS.
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TEMPERATURE CONTROL
THE REQUIRED SUPPLY AIR TEMPERATURE SET POINT SHALL BE SET BY THE
DDC AT THE BMS WORKSTATION.
WHEN THE SUPPLY TEMPERATURE, AS SENSED BY THE SUPPLY AIR
TEMPERATURE SENSOR, EXCEEDS A PROGRAMMABLE LIMIT, A HIGH LIMIT
ALARM WILL BE REPORTED TO THE BMS.
WHEN THE SUPPLY TEMPERATURE, AS SENSED BY THE SUPPLY AIR
TEMPERATURE SENSOR, DROPS BELOW A PROGRAMMABLE LIMIT, A LOW
LIMIT ALARM WILL BE REPORTED TO THE BMS.
WHEN THE SUPPLY TEMPERATURE RETURNS TO THE PROPER RANGE, A
RETURN T0 NORMAL STATUS WILL BE REPORTED TO THE BMS.
FILTER CONTROL
DEDICATED DIFFERENTIAL PRESSURE SWITCHES SHALL MONITOR THE
STATUS OF THE PRE-FILTER AND THE BAG FILTER.
SYSTEM SHUT DOWN
THE AIR HANDLING UNIT SHALL BE SHUT DOWN EITHER LOCALLY AT THE DDC
OR REMOTELY AT THE BMS.
1. MANUALLY (MANUALLY ENTERED COMMAND AT BMS)
2. AUTOMATICALLY FROM BMS
3. HIGH LIMITS REACHED
4. LOW LIMITS REACHED
5. BMS COMPONENT FAILURE
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6.3.2 Public Exhaust Fans
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF AN EXHAUST FAN.
THE FAN SHALL BE DIRECTLY CONTROLLED AND MONITORED BY MEANS OF A
STAND ALONE PROGRAMMABLE LOGIC DIRECT DIGITAL CONTROLLER (DDC).
THE DDC SHALL BE CONNECTED TO THE BUILDING MANAGEMENT SYSTEM (BMS).
NORMAL OPERATION SEQUENCE
SYSTEM START-UP
THE FAN SHALL BE OPERATED MANUALLY FROM THE FAN CONTROLLER OR REMOTELY
AT THE BMS.
FAN CONTROL
DEDICATED DIFFERENTIAL PRESSURE SWITCHES ACROSS THE FAN SHALL PROVE
AIRFLOW.
SYSTEM SHUTDOWN
THE FAN SHALL BE SHUT DOWN MANUALLY FROM THE FAN CONTROLLER OR REMOTELY
FROM THE BMS.
ALARMS
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE FOLLOWING EVENT:
FAN FAILS TO START.
FAN FAILURE DURING NORMAL OPERATION.
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6.3.3 Staircase Pressurization Fans
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF STAIRCASE PRESSURIZATION FAN SETS, PRESSURE
RELIEF DAMPERS, DUCTWORK, AIR OUTLETS AS WELL AS ALL NECESSARY
ACCESSORIES AND CABLING REQUIRED FOR THE PROPER OPERATION OF THE
SYSTEM.
EACH FAN SET COMPRISE OF NO.2 FANS. ONE ON DUTY WHILE THE OTHER IS
STAND-BY.
THE FANS SHALL BE DIRECTLY CONTROLLED AND MONITORED BY MEANS OF
A STAND ALONE PROGRAMMABLE LOGIC DIRECT DIGITAL CONTROLLER
(DDC).
THE DDC SHALL BE CONNECTED TO THE BUILDING MANAGEMENT SYSTEM
(BMS).
NORMAL OPERATION SEQUENCE
SYSTEM OFF
THE STAIRCASE PRESSURISING FANS ARE NORMALLY OFF AND THE
CORRESPONDING MOTORIZED DAMPERS ARE NORMALLY FULLY CLOSED.
SYSTEM STARTUP
ALL THE DUTY STAIRCASE PRESSURISING FANS SHALL BE OPERATED
AUTOMATICALLY AND SIMULTANEOUSLY UPON RECEPTION OF A SIGNAL
FROM THE FIRE PANEL.
THE FANS COULD ALSO BE OPERATED MANUALLY AT THE BMS.HOWEVER THE FIRE ALARM PANEL SHALL HAVE OVERRIDING
CAPABILITIES OVER THE BMS.
ALL FANS ARE PROVIDED WITH AN HOA SWITCH.
THE FANS COULD ALSO BE OPERATED MANUALLY THROUGH THE
HOA SWITCH.
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WHEN THE SYSTEM STARTS THE FOLLOWING SEQUENCE SHALLBE ADOPTED:
1. MOTORIZED DAMPERS ON THE DUTY FANS OPEN FIRST.
2. WHEN THE "OPENED" STATUS OF THE DAMPER IS CHECKED THEN
THE CORRESPONDING FANS SHALL START.
IF THE DUTY FAN FAILS TO START THE STAND-BY FAN SHALL CUT-
IN AUTOMATICALLY, AN ALARM INDICATION SHALL BE REPORTED TO
THE BMS.
THE STATUS OF THE FANS AND THE DAMPERS SHALL BE
REPORTED TO THE BMS.
EXCESSIVE PRESSURE BUILD-UP INSIDE THE STAIRCASES SHALL BERELIEVED BY MEANS OF THE RELIEF DAMPER.
SYSTEM SHUT DOWN
THE PRESSURIZATION FANS SHALL BE SHUT DOWN MANUALLY FROM
THE BMS PROVIDED THE FIRE ALARM IS RESET.
ALARMS
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE
FOLLOWING EVENT:
FAN FAILS TO START.
FAN FAILURE DURING NORMAL OPERATION.
FAILURE IN THE DAMPERS OPERATION.
HOA SWITCH IN HAND POSITION.
HOA SWITCH IN OFF POSITION.
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6.3.4 Smoke Exhaust Fans
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF THE FOLLOWING:
1. SMOKE FAN SET LOCATED ON THE ROOF.
2. MAKE-UP AIR FANS SET LOCATED ON THE ROOF.
3. EACH FLOOR HAS SEVERAL SMOKE DUCT OUTLETS INSTALLED AT
ABOVE FALSE CEILING IN ADDITION TO SUPPLY AIR MAKE-UP OUTLET
INSTALLED AT LOW LEVEL. EXHAUST & SUPPLY OUTLETS ARECONTROLLED BY MEANS OF MOTORIZED DAMPERS. THERE IS ONE
DAMPER PER-EACH OUTLET.
4. ALL NECESSARY CONTROLS, CABLING AND ACCESSORIES REQUIRED
FOR THE PROPER OPERATION OF THE SYSTEM.
EACH SMOKE FAN SET COMPRISE OF NO 2 FANS. ONE ON DUTY WHILE THE OTHER
IS STAND-BY.
THE FANS SHALL HAVE A DEDICATED DIRECT DIGITAL CONTROLLER (DDC). THE
CONTROLLER SHALL
1. MONITOR THE OPERATION OF THE FAN.
2. REPORT ALL VALUES CONTROLLED TO THE BMS.
THE SYSTEM SHALL BE ENTIRELY CONTROLLED BY THE FIRE ALARM SYSTEM. THE
FIRE ALARM SHALL HAVE OVERRIDE CAPABILITIES IN CASE THE FANS ARE
CONTROLLED THOUGH THE BMS FOR TESTING AND COMMISSIONING PURPOSES.
NORMAL OPERATION SEQUENCE
SYSTEM OFF
ALL SMOKE EXHAUST AND AIR SUPPLY FANS ARE NORMALLY OFF.
ALL MOTORIZED DAMPERS ARE CLOSED.
SYSTEM START-UP
ALL FANS ARE PROVIDED WITH AN HOA SWITCH.
THE FANS SHALL BE OPERATED BY ANY OF THE FOLLOWING MEANS:
AUTOMATICALLY FROM THE FIRE ALARM PANEL UPON SMOKE DETECTION IN THE
FLOOR ON FIRE MANUALLY THROUGH THE HOA SWITCH.
MANUALLY FROM THE BMS BY AN OPERATOR MANUALLY ENTERED COMMAND.
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START SEQUENCE
THE SYSTEM SHALL BE STARTED IN THE FOLLOWING SEQUENCE:
1. DAMPERS OPEN FIRST.
2. WHEN THE 'OPENED' STATUS OF THE DAMPER IS CHECKED THEN THE
SMOKE EXHAUST FAN SHALL START.
3. ONCE THE 'RUN' STATUS ON THE EXHAUST FAN IS CONFIRMED, THE
SUPPLY FAN SHALL START.
SYSTEM SHUTDOWN
THE FANS SHALL BE SHUT DOWN MANUALLY:
1. FROM THE FIRE ALARM PANEL.
2. FROM THE BMS PROVIDED THE FIRE ALARM IS RESET.
ALARMS
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE FOLLOWING EVENT:
1. FAN FAILS TO START.
2. FAN FAILURE DURING NORMAL OPERATION.
3. FALURE IN THE DAMPERS OPERATION.
4. HOA SWITCH IN HAND POSITION
5. HOA SWITCH IN OFF POSITION
INTERLOCKS
BOTH SMOKE EXHAUST FANS AND AIR MAKE-UP FANS SHALL BE INTERLOCKED.
1. THE SUPPLY FAN SHALL NOT START UNLESS THE SMOKE FAN IS
ALREADY ON.
2. THE SMOKE EXHAUST FAN SHALL NOT START UNLESS THE OPEN
DAMPED IS CONFIRMED.
FIRE ALARM STRATEGY
CASE 1: FIRE IN A MID FLOOR.
1. SMOKE MOTORIZED DAMPERS ON THE FIRE FLOOR OPENS FIRST.
2. SUPPLY AIR DAMPERS ON FLOOR ABOVE FLOOR ON FIRE AND BELOW
FLOOR ON FIRE WILL BOTH OPEN.
3. WHEN THE OPENED STATUS OF THE SMOKE DAMPER IS CHECKED
THEN SMOKE EXHAUST FAN SHALL START.
4. WHEN THE OPENED STATUS OF AT LEAST ONE FRESH AIR DAMPER IS
CHECKED AND THE RUN STATUS ON THE EXHAUST FAN ISCONFIRMED, THE ROOF SUPPLY FAN SHALL START.
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CASE 2:FIRE IN THE FLOOR BELOW THE ROOF.
1. SMOKE MOTORIZED DAMPERS ON FIRE FLOOR OPENS FIRST.
2. SUPPLY AIR DAMPERS ON THE LOWER TWO FLOORS WILL BOTH
OPEN.
3. WHEN THE OPENED STATUS OF THE SMOKE DAMPER IS CHECKED
THEN THE SMOKE EXHAUST FAN SHALL START.
4. WHEN THE OPENED STATUS OF AT LEAST ONE FRESH AIR DAMPER IS
CHECKED AND THE RUN STATUS ON THE EXHAUST FAN IS CONFIRMED,
THE ROOOF SUPPLY FAN SHALL START.
CASE 3: FIRE IN THE FIRST FLOOR (PIAZZA LEVEL).
1. SMOKE MOTORIZED DAMPERS ON FIRE FLOOR OPENS FIRST.
2. SUPPLY AIR DAMPERS ON THE UPPER TWO FLOORS WILL BOTH OPEN.
3. WHEN THE OPENED STATUS OF THE SMOKE MOTORIZED DAMPER IS
CHECKED THEN THE SMOKE EXHAUST FAN SHALL START.
4. WHEN THE OPENED STATUS OF AT LEAST ONE FRESH AIR DAMPER IS
CHECKED AND THE RUN STATUS ON THE EXHAUST FAN IS CONFIRMED,
THE ROOF SUPPLY FANSHALL START.
THE ABOVE STRATEGIES WILL ENSURE THAT THE FIRE FLOOR IS ALWAYS
UNDER POSITIVE PRESSURE AND THAT THE ADJACENT FLOORS (ABOVE AND
BELOW) ARE ALWAYS UNDER POSITIVE PRESSURE. THIS WILL PREVENT SMOKE
MIGRATION FROM THE FIRE FLOOR.
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6.3.5 Public Supply Fans
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF AN SUPPLY FAN.
THE FAN SHALL BE DIRECTLY CONTROLLED AND MONITORED BY MEANS OF A STAND
ALONE PROGRAMMABLE LOGIC UNITARY CONTROLLER (UC).
THE UC SHALL BE CONNECTED TO THE BUILDING MANAGEMENT SYSTEM (BMS).
NORMAL OPERATION SEQUENCE
SYSTEM START-UP
THE FAN SHALL BE OPERATED MANUALLY FROM THE FAN CONTROLLER OR REMOTELY
AT THE BMS.
FAN CONTROL
DEDICATED DIFFERENTIAL PRESSURE SWITCHES ACROSS THE FAN SHALL PROVE AIRFLOW.
SYSTEM SHUTDOWN
THE FAN SHALL BE SHUT DOWN MANUALLY FROM THE FAN CONTROLLER OR REMOTELY
FROM THE BMS.
ALARMS
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE FOLLOWING EVENT:
FAN FAILS TO START.
FAN FAILURE DURING NORMAL OPERATION.
INTERLOCKS
FANS SHALL BE INTERLOCKED AS NECESSARY WITH CORRESPONDING
FAN COIL UNITS.
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6.3.6 Roof Domestic Water Storage Tanks
Sequence of Operation
SEQUENCE OF OPERATIONS FOR BOOSTER PUMP SET WITH VARIABLE SPEED
DRIVE.
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF THE FOLLOWING:
1. TWO ROOF WATER TANKS DEDICATED FOR DOMESTIC WATER
STORAGE.
2. PRESSURE TRANSMITTER FOR EVERY TANK.3. ONE BOOSTER SET WITH VARIABLE FREQUENCY DRIVE. (VFD)
4. PRESSURE SWITCH.
5. PRESSURE SENSOR.
6. ALL RELATED ACCESSORIES AND CONTROLS REQUIRED FOR THE
PROPER OPERATION OF THE SYSTEM.
THE VSD BOOSTER SET SHALL HAVE A DEDICATED CONTROLLER. THE
CONTROLLER SHALL:
1. CONTROL THE OPERATION OF THE PUMPS.
2. REPORT ALL VALUES CONTROLLED TO THE BMS.
THE SYSTEM PRESSURE, THE OPERATION OF THE PUMPS AS WELL AS THE
WATER LEVELS SHALL BE MONITORED AT THE BMS.
VFD OPERATION.
THE VFD SHALL OPERATE IN THREE (3) MODES:
1. AUTOMATIC IN THE AUTOMATIC MODE, THE VFD RECEIVES A SIGNAL
FROM THE DDC PANEL TO MODULATE THE VFD.
2. MANUAL: IN THE MANUAL MODE, THE VFD RECEIVES A SIGNAL FROMA MANUALLY ADJUSTED POTENTIOMETER TO MODULATE THE
VFD.
3. BY-PASS: IN THE BYPASS MODE, THE VFD IS COMPLETELY
BYPASSED AND THE BYPASS PANEL SHALL TAKE OVER. THE VFD
DISPLAY SHALL BE OFF AND ALL THE COMPONENTS OF THE VFD
SHALL BE ELECTRICALLY ISOLATED. THE FREQUENCY OUTPUT TO
THE MOTOR SHALL BE 50HZ WITH LINE VOLTAGE.
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NORMAL OPERATION SEQUENCE
SYSTEM OFF
THE BOOSTER SET SELECTOR SWITCH SHALL BE IN THE 'AUTOMATIC MODE'
WHEN THERE IS NO DEMAND FOR WATER, THE BOOSTER SET SHALL BE ON
STAND-BY AND THE PUMPS SHALL BE OFF.
SYSTEM START-UP
WHEN THE PRESSURE IN THE SYSTEM DROPS TO A PRESET LIMIT, AS SENSED
BY THE LINE PRESSURE SWITCH, THE FIRST PUMP SHALL CUT-IN.
IF A PUMP FAILS TO START, THE STAND-BY PUMP SHALL CUT-IN AND AN
ALARM SHALL BE SENT TO THE BMS.
OPERATION SEQUENCE
THE BOOSTER SET WILL BE CONTROLLED AS FOLLOWS:
RISE IN SYSTEM FLOW
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE IS
LOWER THAN THE DESIRED (SET) PRESSURE .
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A SIGNAL
TO THE VFD THAT CAUSES THE VFD TO INCREASE ITS OUTPUT
FREQUENCY TO THE MOTOR, HEREBY MATCHING THE SPEED WITH
THE SETPOINT CONSUMPTION 8, PRESSURE.
3. IN CASES WHERE THERE ARE ONLY 1 PUMP ACTING, THE DEMAND
INCREASES, PUMP 1 ACCELERATES TO MEET THE REQUIRED DEMAND
AT THE REQUIRED FREQUENCY.
4. IN CASES WHERE THERE ARE 2 PUMPS ACTING, PUMP 1 ACCELERATES
UP TO 95% OF ITS MAXIMUM SPEED AND PUMP 2 SHALL CUT-IN AT ITS
MINIMUM FREQUENCY. IF CONSUMPTION INCREASE, PUMP 1 SHALL
REACH 100% OF ITS SPEED AND PUMP 2 SHALL RAMP UP ITS SPEED
TO MEET THE NEEDS.
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CONSTANT SYSTEM DEMAND (FLOW)
ONCE THE PRESSURE AS SENSED BY THE PRESSURE SENSOR. REACHES THE
SETPOINT:
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE IS
THE DESIRED (SET) PRESSURE.
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A SIGNAL
TO THE VFD THAT CAUSES THE VFD TO MAINTAIN A CONSTANT
OUTPUT FREQUENCY TO THE MOTOR.
DROP IN SYSTEM FLOW
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE IS
HIGHER THAN THE DESIRED (SET) PRESSURE.
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A SIGNAL
TO THE VFD THAT CAUSES THE VFD TO REDUCE ITS OUTPUT
FREQUENCY TO THE MOTOR.
ALARMS & EQUIPMENT STATUS SUMMARY
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE FOLLOWING
EVENTS:
EQUIPMENT STARTERS (ALL PUMPS)
HOA SWITCH IN HAND POSITION.
HOA SWITCH IN OFF POSITION.
SYSTEM PRESSURE
HIGH SYSTEM PRESSURE.LOW SYSTEM PRESSURE.
PUMPS
PUMPS TRIPPED.
EXCESSIVE FREQUENCY OF START/STOPS
TANKS WATER LEVELS
ROOF TANK COMPARTMENT 1 LOW WATER LEVEL.
ROOF TANK COMPARTMENT 2 LOW WATER LEVEL.
ROOF TANK COMPARTMENT 1 HIGH WATER LEVEL.
ROOF TANK COMPARTMENT 2 HIGH WATER LEVEL.
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INTERLOCKS
LOW WATER LEVEL INTERLOCKS
THE PRESSURE TRANSMITTERS LOCATED IN THE ROOF TANK SHALL BE
INTERLOCKED WITH THE VSD SET.
THE INTERLOCK SHALL PREVENT THE START-UP OF THE ABOVE PUMPS IN
CASE OF LOW WATER LEVEL IN THE TANK.
ALTERNATION
IN ORDER TO PROVIDE EQUAL PUMP OPERATION TIMES, PUMPS SHALL BE
ALTERNATEDAUTOMATICALLY.
INTEGRATION WITH DDC
A COMPLETE INTERFACE SOLUTION TO AND FROM THE BMS SYSTEM SHALL BE
PROVIDED.THE INTERFACE SHALL INCLUDE:
1. SOFTWARE INTEGRATION: (COMMUNICATION PORTS - GATEWAYS
PROTOCOL TRANSLATORS ETC.) AS WELL AS ALL ACCESSORIES
REQUIRED FOR PROPERINTEGRATION.
OR
2. ALL NECESSARY CABLES AND REQUIRED CONTACTS FOR THE
PROPER HARDWIRE TRANSFER OF THE INFORMATION TO AND
FROM THE BMS.
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6.3.7 Duplex Submersible Pumps
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF TWO (2) SUBMERSIBLE SUMP PUMPS: ONE DUTY (LEAD)
AND ONE STAND-BY (LAG), FLOAT SWITCHES (FS), AND ALL CONTROL ACCESSORIES &
CABLING.
THE SYSTEM SHALL BE DIRECTLY CONTROLLED AND MONITORED BY MEANS OF A
DEDICATED CONTROL PANEL.
THE CONTROL PANEL SHALL BE CONNECTED TO THE BUILDING MANAGEMENT
(BMS) FOR MONITORING PURPOSES ONLY.
THE CONTROL PANEL SHALL:
1. CONTROL THE OPERATION AND ALTERNATION OF THE PUMPS.
2. REPORT LOW AND HIGH SEWAGE/DRAINAGE LEVEL INSIDE THE
SUMP.
3. REPORTS ALL VALUES CONTROLLED AND MONITORED TO THE
BMS.
FOUR (4) FLOAT SWITCHES (FS) SHALL BE INSTALLED AND SHALL FUNCTION AS
FOLLOWS:
1. FS-1: SHALL REPORT THE LOW SEWAGE/DRAINAGE LEVEL INSIDE
THE PIT
2. FS-2: SHALL STOP THE PUMP / PUMPS IN OPERATION.
3. FS-3: SHALL START THE LEAD PUMP.
4. FS-4: SHALL START THE LAG PUMP AND REPORT A HIGH
SEWAGE/DRAINAGE LEVEL ALARM.
NORMAL OPERATION SEQUENCE
SYSTEM OFF
WHEN THE SYSTEM IS OFF, THE PUMPS ARE ON A STAND-BY POSITION.
SYSTEM START-UP AND OPERATION
WHEN THE SEWAGE/DRAINAGE LEVEL INSIDE THE FIT RISES TO A PERFECT LIMIT
AS DETECTED BY THE FS-3, THE LEAD PUMP SHALL START.
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IF THE SEWAGE LEVEL INSIDE THE PIT CONTINUES TO RISE, AND REACHES APREDETERMINED LEVEL AS DETECTED BY FS-4, THE LAG PUMP SHALL CUT-IN SO
THAT BOTH LEAD AND LAG ARE OPERATING AND A HIGH SEWAGE LEVEL ALARM
SHALL BE REPORTED TO THE BMS.
ALTERNATION
IN ORDER TO PROVIDE EQUAL OPERATION TIMES, PUMPS SHALL BE ALTERNATED
AUTOMATICALLY.
SYSTEM SHUT DOWN
THE PUMP / PUMPS SHALL REMAIN IN OPERATION UNTIL THE NORMAL SEWAGE
LEVEL, AS DETECTED BY FS-2 IS REACHED INSIDE THE PIT.
ALARMS
AN ALARM SHALL BE INITIATED AT THE CONTROL PANEL FOR ANY OF THE
FOLLOWING EVENTS:
1. PUMP FAILURE TO START: IF THE DUTY PUMP FAILS TO START, THE
STAND-BY PUMP SHALL CUT-IN AUTOMATICALLY.
2. PUMP FAILURE DURING NORMAL OPERATION.
3. HIGH SEWAGE LEVEL ALARM.
4. LOW SEWAGE LEVEL INSIDE THE PIT.
INTEGRATION WITH BMS
INTEGRATION WITH BMS SHALL BE ACHIEVED THROUGH HARDWIRED CABLING /
CONTACTS FROM THE PUMP CONTROL PANEL TO THE ADJACENT DCP, AND BASED
ON THE SCHEDULE OF POINT PROVIDED .
AS AN ALTERNATIVE, A FILTEREDWARE INTEGRATION VIA A SINGLE RS-485CABLINGIS ALSO ACCEPTABLE.
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3.6.8 Combine Fire & Raw Water System
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF THE FOLLOWING:
1. ONE MAIN RAW WATER TANK (DOUBLE COMPARTMENT)
DEDICATED FOR COMBINED RAW, IRRIGATION, AND FIRE
FIGHTINGWATER STORAGE.
2. ONE FILTERED WATER TANK (DOUBLE COMPARTMENT).
3. PRESSURE TRANSMITTERS FOR EVERY TANK AND TANKCOMPARTMENT.
4. ONE SET OF CONSTANT VOLUME TRANSFER PUMPS.
5. ONE SET OF CONSTANT VOLUME IRRIGATION BOOSTER
PUMPS.
6. ONE SET OF TWO FIRE FIGHTING PUMPS + ONE JOCKEY PUMP.
7. ALL RELATED ACCESSORIES AND CONTROLS REQUIRED FOR
THE PROPER OPERATION OF THE SYSTEM.
THE CONSTANT VOLUME IRRIGATION BOOSTER PUMP SET SHALL HAVE A
DEDICATED CONTROL PANEL.THE CONTROL PANEL SHALL:
1. MONITOR THE WATER LEVELS IN THE TANK.2. CONTROL THE OPERATION / ALTERNATION OF THE PUMPS.
3. REPORT ALL VALUES CONTROLLED TO THE BMS.
THE FIRE PUMPS INCLUDING THE JOCKEY PUMPS SHALL EACH HAVE A
DEDICATED CONTROL PANEL. THE CONTROL PANEL SHALL:
1. CONTROL THE OPERATION.
2. REPORT ALL VALUES CONTROLLED TO THE BMS.
TRANSFER AND TRANSFER PUMPS SHALL BE CONTROLLED VIA THE MCP.
THE SYSTEM PRESSURE, THE OPERATION OF THE PUMPS AS WELL AS THEWATER LEVELS SHALL BE MONITORED AT THE BMS.
NORMAL OPERATION SYSTEM
SYSTEM OFF
WHEN THERE IS NO DEMAND FOR WATER:
1. THE IRRIGATION BOOSTER PUMPS SHALL BE OFF.
2. THE MAIN FIRE PUMPS SHALL BE OFF.
3. THE JOCKEY PUMPS SHALL EITHER BE OFF OR RUNNING TO
MAINTAIN THE PRESET PRESSURE INSIDE THE SYSTEM IN
CASE OF LEAKAGE AIR POCKETS.
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SYSTEM START-UP & OPERATION SEQUENCE
LOCAL HOA SWITCHES SHALL BE PROVIDED FOR ALL THE PUMPS OR PUMP
SETS.
THE PUMPS CONTROL PANEL SHALL BE EQUIPPED WITH SWITCHES AND
INDICATORS TO START/ STOP THE SYSTEM, START STOP EACH PUMP AND
OPERATE THE SYSTEM IN AUTOMATIC OR HAND CONTROLLED MODE.
CONSTANT VOLUME IRRIGATION BOOSTER PUMP SET
THE CONSTANT VOLUME PUMP SET SHALL BE OPERATED BY ANY OF THE
FOLLOWING MEANS:
1. WHEN IN THE AUTO POSITION, UPON A PRESSURE DROP IN
THE MAIN LINE AS SENSED BY THE PRESSURE SENSOR.
2. LOCALLY FROM THE HOA SWITCH LOCATED ON THE PUMPS
CONTROL PANEL.
3. PUMPS SHALL BE ENABLED / DISABLED FROM THE BMS.
THE CONSTANT VOLUME TRANSFER PUMPS SHALL BE OPERATED BY ANY
OF THE FOLLOWING MEANS:
1. WHEN LOW LEVEL IN THE FILTERED WATER TANKS IS
REACHED.
2. PUMPS SHALL BE ENABLED / DISABLED FROM THE BMS.
IN ORDER TO PROVIDE EQUAL OPERATING TIMES, ALL PUMPS EXCEPT THE
FIRE PUMPS SHALL BE SEQUENCED TO ALTERNATE AS DUTY AND STAND BY
AT EACH OPERATING CYCLE.
SYSTEM SHUT DOWN
CONSTANT VOLUME IRRIGATION BOOSTER PUMP SET
ONCE THE PRESSURE IN THE SYSTEM RISES TO A PRESET VALUE ASINDICATED BY THE PRESSURE SENSOR, THE PUMPING SET SHALL STOP.
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ALARMS & EQUIPMENT STATUS
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE
FOLLOWING EVENTS.
TANKS WATER LEVELS
RAW WATER TANK COMPARTMENT 1 LOW WATER LEVEL.
RAW WATER TANK COMPARTMENT 2 LOW WATER LEVEL.
RAW WATER TANK COMPARTMENT 1 HIGH WATER LEVEL.
RAW WATER TANK COMPARTMENT 2 HIGH WATER LEVEL.
EQUIPMENT STARTERS (ALL PUMPS)
1. WHEN THE HOA SWITCH IN THE HAND POSITION THE BMS
SHALL SHOW AN ALARM CONDITION.
2. WHEN THE HOA SWITCH IN THE OFF POSITION. THE BMS
SHALL SHOW AN 'OFF' STATUS.
CONSTANT VOLUME PUMP SET
1. IF THE LEAD PUMP FAILS TO START, THE LAG PUMP SHALL
CUT IN AND AN ALARM SHALL BE SENT TO THE BMS.
2. PUMP FAILS TO START.
3. PUMP FAILURE DURING OPERATION.
MULTILAYER FILTER
1. WHEN THE DIFFERENTIAL PRESSURE SWITCH REACHES ITS
PRESET VALUE, AN ALARM SIGNAL SHALL BE REPORTED TO
THE BMS AND THE BACKWASH CYCLE SHALL
AUTOMATICALLY START.
INTERLOCKS
LOW WATER LEVEL INTERLOCKS
THE PRESSURE TRANSMITTERS LOCATED IN THE DRAIN LINES OF THE
WATER TANKS SHALL BE INTERLOCKED WITH:
1. THE CONSTANT VOLUME IRRIGATION BOOSTER PUMPING
SET.
2. THE TRANSFER PUMPS.
3. THE FIRE PUMPS AND JOCKEY PUMP.
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THE INTERLOCK SHALL PREVENT THE START-UP OF THE ABOVE PUMPS INCASE OF LOW WATER LEVEL IN THE TANK.
HIGH WATER LEVEL INTERLOCKS
THE MULTIPLE LEVEL TRANSMITTERS LOCATED IN THE TREATED WATER
TANKS SHALL BE INTERLOCKED WITH:
1. THE TRANSFER PUMPS.
THIS INTERLOCK SHALL PREVENT THE START-UP OF THE ABOVE PUMPS IN
CASE OF HIGH WATER LEVEL IN THE TANK.
FIRE ALARM SEQUENCE
PRESSURE SWITCHES
THREE (3) PRESSURE SWITCHES SHALL BE INSTALLED.
PRESSURE SWITCH 1: SHALL CONTROL THE START/STOP OPERATION OF
THE JOCKEY PUMP.
PRESSURE SWITCH 2: SHALL CONTROL THE START ONLY OF THE FIRST
FIRE PUMP.
PRESSURE SWITCH 3: SHALL CONTROL THE START ONLY OF THE SECOND
FIRE PUMP.
THE SYSTEM SHALL BE MAINTAINED AT A CONSTANT PRESSURE AT ALL
TIME.
WHEN THE PRESSURE IN THE SYSTEM DROPS TO A PRESET LIMIT, AS
SENSED BY THE PRESSURE SENSOR DEDICATED TO THE JOCKEY PUMP,
THE JOCKEY PUMP SHALL CUT-IN.THE JOCKEY PUMP SHALL KEEP
OPERATING UNTIL THE REQUIRED PRESET SYSTEM STATIC PRESSURE IS
RE-ESTABLISHED.
UPON FURTHER DROP IN PRESSURE TD A PRESET LIMIT, AS SENSED BY THE
PRESSURE DEDICATED TO THE LEAD FIRE PUMP, THE JOCKEY PUMP SHALL
STOP AND LEAD FIRE PUMP SHALL CUT-IN AND AN ALARM SHALL BE
REPORTED TO THE BMS.
SHOULD THE LEAD PUMP FAILS TO START, THE LAG FIRE PUMP SHALL CUT-
IN AND AN ALARM BE REPORTED TO THE BMS.
THE FIRE PUMP SHALL KEEP OPERATING UNTIL THE REQUIRED PRESET
SYSTEM STATIC PRESSURE IS RE-ESTABLISHED.
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INTEGRATION WITH DDC
A COMPLETE INTERFACE SOLUTION TO AND FROM THE BMS SYSTEM SHALL
BE PROVIDED. THE INTERFACE SHALL INCLUDE:
1. FILTEREDWARE INTEGRATION (COMMUNICATION PORTS -
GATEWAYS - PROTOCOL TRANSLATORS ETC.) AS WELL AS
ALL ACCESSORIES REQUIRED FOR PROPER INTEGRATION
OR
2. ALL NECESSARY CABLES AND REQUIRED CONTACTS FOR
THE PROPER HARDWIRE TRANSFER OF THE INFORMATION
TO AND FROM THE BMS.
THE INTEGRATION SHALL BE PROVIDED FOR:
1. CONSTANT VOLUME IRRIGATION BOOSTER SET CONTROL
PANEL.
2. FIRE PUMPS & JOCKEY PUMPS CONTROL PANEL.
3. TRANSFER PUMPS.
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6.3.9 TREATED (FILTERED) WATER STORAGE TANKS
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM CONSISTS OF THE FOLLOWING:
1. ONE TREATED (FILTERED) WATER TANK (DOUBLE
COMPARTMENT) DEDICATED FOR DOMESTIC WATER
STORAGE FOR EACH PLOT
2. SECONDARY GROUP ROOF WATER TANKS DEDICATED FOR
DOMESTIC WATER DISTRIBUTION FOR EACH BUILDING WITHIN
THE PLOT
3. PRESSURE TRANSMITTERS FOR EVERY TANK AND TANK
COMPARTMENT
4. DEDICATED LIFTING PUMP SET FOR FILLING EACH ROOF TANK
WITHIN THE PLOT (QQ)
5. ONE STAND-BY LIFTING PUMP FOR EVERY PLOT (QQ).
6. ONE VARIABLE SPEED BOOSTER SET (VSD DRIVE) SERVING
F&B, RETAILS, & PARKING FLOORS
7. ALL RELATED ACCESSORIES AND CONTROLS REQUIRED FOR
THE PROPER OPERATION OF THE SYSTEM
THE CONSTANT VOLUME PUMPS SHALL HAVE A DEDICATED CONTROL
PANEL. THE CONTROL PANEL SHALL:
1. MONITOR WATER LEVELS IN EACH TANK.
2. CONTROL THE OPERATION OF THE PUMPS.
3. REP0RT ALL VALUES CONTROLLED TO THE BMS.
THE VSD BOOSTER SET SHALL HAVE A DEDICATED CONTROLLER THE
CONTROLLER SHALL:
1. CONTROL THE OPERATION OF THE PUMPS.
2. REPORT ALL VALUES CONTROLLED TO THE BMS.
VFD OPERATION
THE VFD SHALL OPERATE IN THREE (3) MODES:
1. AUTOMATIC IN THE IN THE AUTOMATIC MODE. THE VFD
RECEIVES A SIGNAL FROM THE DDC PANEL TO MODULATE THE
VFD.
2. MANUAL IN THE MANUAL MODE. THE VFD RECEIVES A SIGNAL
FROM A MANUALLY ADJUSTED POTENTIOMETER TO MODULATE
THE VFD.
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3. BY-PASS IN THE BYPASS MODE. THE VFD IS COMPLETELYBYPASSED AND THE BY-PASS PANEL SHALL TAKE OVER THE VFD
DISPLAY SHALL BE OFF AND ALL THE COMPONENTS OF THE VFD
SHALL BE ELECTRICALLY ISOLATED THE FREQUENCY OUTPUT
TO THE MOTOR SHALL BE 50HZ WITH LINE VOLTAGE.
NORMAL OPERATION SYSTEM
SYSTEM OFF
WHEN THERE IS NO LOW LEVEL INDICATION IN ANY OF THE ROOF TANKS:
1. THE LIFTING WATER PUMPS SHALL BE OFF.
THE BOSTER SET SELECTOR SWITCH SHALL BE IN THE AUTOMATIC MODE
WHEN THERE IS NO DEMAND FOR WATER, THE BOOSTER SET WILL BE ON
STAND-BY AND THE PUMPS SHALL BE OFF.
SYSTEM START-UP & OPERATION SEQUENCE
LOCAL HOA SWITCHES SHALL BE PROVIDED FOR ALL THE PUMPS OR PUMP
SETS. THE PUMPS CONTROL PANEL SHALL BE EQUIPPED WITH SWITCHES
AND INDICATORS TO START/STOP EACH PUMP AND OPERATE THE SYSTEM IN
AUTOMATIC OR HAND CONTROLLED MODE.
CONSTANT VOLUME PUMPS
THE CONSTANT VOLUME PUMPS SHALL BE OPERATED BY ANY OF THE
FOLLOWING MEANS:
1. WHEN IN THE AUTO POSITION, UPON DETECTION OF LOW
LEVEL IN ANY OF THE ROOF TANKS, THE CORRESPONDING
LIFTING PUMP SHALL CUT-IN.
2. LOCALLY FROM THE HOA SWITCH LOCATED ON THE PUMPSCONTROL PANEL.
VARIABLE SPEED BOOSTER PUMP SET
WHEN THE SENSOR IN THE SYSTEM DROPS TO A PRESET LIMIT, AS SENSED
BY THE LINE PRESSURE SWITCH, THE FIRST PUMP SHALL CUT-IN.
IF A PUMP FAILS TO START, THE STAND-BY PUMP SHALL CUT-IN AND AN
ALARM SHALL BE SENT TO THE BMS.
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TO AND FROM THE BMS
RISE IN THE SYSTEM FLOW
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE
IS LOWER THAN THE DESIRED (SET) PRESSURE.
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A
SIGNAL TO THE VFD THAT CAUSES THE VFD TO INCREASE ITS
OUTPUT FREQUENCY TO THE MOTOR. HEREBY MATCHING THE
SPEED WITH THE SETPOINT CONSUMPTION & PRESSURE.
3. IN CASE THE DEMAND INCREASES, PUMP 1 ACCELERATES UP
95% OF ITS MAXIMUM SPEED AND PUMP 2 SHALL CUT-IN AT ITS
MINIMUM FREQUENCY. IF CONSUMPTION INCREASE, PUMP 1
SHALL REACH 100% OF ITS SPEED AND PUMP 2 SHALL RAMP UP
ITS SPEED TO MEET THE NEEDS.
CONSTANT SYSTEM DEMAND (FLOW)
ONCE THE PRESSURE AS SENSED BY THE PRESSURE SENSOR , REACHES
THE SET POINT.
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE IS
THE DESIRED (SET) PRESSURE.
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A
SIGNAL TO THE VFD THAT CAUSES THE VFD TO REDUCE ITS
OUTPUT FREQUENCY TO THE MOTOR.
DROP IN SYSTEM FLOW
1. THE SENSOR SENDS A SIGNAL TO THE BOOSTER SYSTEM
CONTROLLER, INDICATING THAT THE PUMP OUTPUT PRESSURE IS
HIGHER THAN THE DESIRED (SET) PRESSURE.
2. THE BOOSTER CONTROLLER SHALL RESPOND BY SENDING A
SIGNAL TO THE VFD THAT CAUSES THE VFD TO REDUCE ITS
OUTPUT FREQUENCY TO THE MOTOR.
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SYSTEM SHUT DOWN
CONSTANT VOLUME
ONCE THE LEVEL IN ANY ROOF TANK ATTAINS THE HIGH LEVEL AS
REPORTED BY THE LEVEL SENSOR, THE CORRESPONDING LIFTING PUMP
SHALL STOP.
VFD BOOSTER PUMP SET
THE BOOSTER SET SELECTOR SWITCH SHALL BE IN THE AUTOMATIC
MODE WHEN THERE IS NO DEMAND FOR WATER. THE BOOSTER SET SHALL
BE ON STAND-BY AND THE PUMPS SHALL BE OFF.
ALARMS & EQUIPMENT STATUS
AN ALARM SHALL BE INITIATED AT THE CONTROL PANEL FOR ANY OF THE
FOLLOWING EVENTS:
TANKS WATER LEVEL
TREATED (FILTERED) TANK COMPARTMENT 1 LOW WATER LEVEL.
TREATED (FILTERED) TANK COMPARTMENT 2LOW WATER LEVEL.
TREATED (FILTERED) TANK COMPARTMENT 1 HIGH WATER LEVEL.
TREATED (FILTERED) TANK COMPARTMENT 2HIGH WATER LEVEL.
ROOF TANK 1, FIRST BUILDING, LOW WATER LEVEL.
ROOF TANK 1, FIRST BUILDING, HIGH WATER LEVEL.
ROOF TANK 2, FIRST BUILDING, LOW WATER LEVEL.
ROOF TANK 2, FIRST BUILDING, HIGH WATER LEVEL.
ROOF TANK 1, SECOND BUILDING, LOW WATER LEVEL.
ROOF TANK 1, SECOND BUILDING, HIGH WATER LEVEL.
ROOF TANK 2, SECOND BUILDING, LOW WATER LEVEL.
ROOF TANK 2, SECOND BUILDING, HIGH WATER LEVEL.ROOF TANK 1, THIRD BUILDING, LOW WATER LEVEL.
ROOF TANK 1, THIRD BUILDING, HIGH WATER LEVEL.
ROOF TANK 2, THIRD BUILDING, LOW WATER LEVEL.
ROOF TANK 2, THIRD BUILDING, HIGH WATER LEVEL
ETC.
EQUIPMENT STARTERS (ALL PUMPS)
HOA SWITCH IN HAND POSITION
HOA SWITCH IN OFF POSITION
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CONSTANT VOLUME PUMPS1. IF THE LEAD PUMP FAILS TO START, AN ALARM SHALL BE SENT TO THE
CONTROL PANEL. SWITCHING TO THE STAND-BY PUMP WILL BE DONE
MANUALLY.
2. PUMPFAILURE DURING OPERATION.
VFD BOOSTER PUMP SET
SYSTEM PRESSURE
HIGH SYSTEM PRESSURE
LOW SYSTEM PRESSURE
PUMPS
PUMPS TRIPPED
EXCESSIVE FREQUENCY OF START/STOPS.
ALTERNATION
IN ORDER TO PROVIDE EQUAL PUMP OPERATION TIMES, VFD PUMPS SHALL BE
ALTERNATED
AUTOMATICALLY.
INTERLOCKS
LOW WATER LEVEL INTERLOCKS
THE PRESSURE TRANSMITTERS LOCATED AT DRAIN LINES OF THE FILTERED
WATER TANK SHALL BE INTERLOCKED WITH:
1. THE CONSTANT VOLUME PUMPS
2. VFD BOOSTER PUMP SET
THE INTERLOCK SHALL PREVENT THE START-UP OF THE ABOVE PUMPS IN CASE OF
LOW WATER LEVEL IN THE TANK.
HIGH WATER LEVEL INTERLOCKS
THE PRESSURE TRANSMITTERS LOCATED AT DRAIN LINES OF THE ROOF TANKSSHALL BE INTERLOCKED WITH:
1. THE CORRESPONOING CONSTANT VOLUME PUMP
THIS INTERLOCK SHALL PREVENT THE START-UP OF THE ABOVE PUMPS IN CASE OF
HIGH WATER LEVEL IN THE TANK.
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INTEGRATION WITH DDC
A COMPLETE INTERFACE SOLUTION TO AND FROM THE BMS SYSTEM SHALL BE
PROVIDED.
THE INTERFACE SHALL INCLUDE:
1. SOFTWARE INTEGRATION (COMMUNICATION PORTS GATEWAYS - PROTOCOL
TRANSLATORS ETC.) AS WELL AS ALL ACCESSORIES REQUIRED FOR PROPER
INTEGRATION.
OR
2. ALL NECESSARY CABLES AND REQUIRED CONTACTS FOR THE PROPER
HARDWIRE TRANSFER OF THE INFORMATION
6.3.10 ENERGY TRANSFER STATION (ETS)
Sequence of Operation
SYSTEM DESCRIPTION
THE SYSTEM PROVIDES CHILLED WATER TO THE APARTMENT BUILDINGS
AND TOWN HOUSES.
DISTRICT COOLING WATER IS PROVIDED TO EACH QANAT QUARTlER AT THE
ETS ROOM A SET OF PLATE HEAT EXCHANGERS ARE USED FOR CHILLING
THE COOLING WATER OF THE SPACES.
THE DISTRICT COOLING WATER ENTERING THE HEX'S SHALL BE AT A
TEMPERATURE OF 4.44C WHILE THE LEAVING TEMPERATURE SMALL BE
MAINTAINED AT 13 33C.
THE CHILLED WATER LEAVING THE HEX'S SHALL BE MAINTAINED AT A
TEMPERATURE OF 5.55C WHILE THE ENTERING CHILLED WATER (RETURN
FROM SPACES) SHALL BE AT A TEMPERATURE OF 14.4C.
THE ENTIRE SYSTEM SHALL BE CONTROLLED AND MONITORED BY THE BMS.
THE CUSTOMER SIDE PUMPS (CWP) ARE VARIABLE SPEED. EACH PUMP SET
CONTAINS ONE STAND BY PUMP.
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CONTROL SEQUENCE
THE PUMPS SHALL START AND STOP EITHER LOCALLY FROM THE CONTROL
PANEL OR REMOTELY FROM BMS.
IF DUTY PUMPS FAILS TO START THE STAND-BY PUMP SHALL CUT-IN
AUTOMATICALLY, AN ALARM SHALL BE GENERATED AT THE BMS.
ALTERNATION
IN ORDER TO PROVIDE EQUAL OPERATION TIMES. PUMPS SHALL BE
ALTERNATED AUTOMATICALLY.
CHILLED WATER SYSTEM CONTROL
THE DIFFERENTIAL PRESSURE SENSOR INSTALLED AT THE MOST
HYDRAULICALLY REMOTE PIPELINE SHALL MODULATE THE SECONDARY
PUMPS FLOW VIA THE VARIABLE FREQUENCY DRIVE.
THE SUPPLY & RETURN WATER TEMPERATURES TO THE HA EXCHANGERS
ARE MEASURED BY THE TEMPERATURE TRANSMITTERS INSTALLED.
THE FLOW AT CUSTOMER SIDE CIRCUIT IS MEASURED THROUGH THE
ELECTROMAGNETIC FLOW METERS
ALARMS & EQUIPMENT STATUS SUMMARY
AN ALARM SHALL BE INITIATED AT THE BMS FOR ANY OF THE FOLLOWING EVENTS.
HOA SWITCH IN HAND POSITION HOA SWITCH IN OFF POSITION.
PROGRAMMABLE SUPPLY CHILLED WATER TEMPERATURE HIGH LIMIT REACHED.
PROGRAMMABLE SUPPLY CHILLED WATER TEMPERATURE LOW LIMIT REACHED.
PROGRAMMABLE RETURN CHILLED WATER TEMPERATURE HIGH LIMIT REACHED.
PROGRAMMABLE RETURN CHILLED WATER TEMPERATURE LOW LIMIT REACHED.
PUMP FAILS TO START.
PUMP FAILURE DURING NORMAL OPERATION.
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6.3.11 MOTORIZED DAMPERS
Sequence of Operation
MONITORED DEVICE
Motorized Damper Status:
Upon activation by Fire Alarm System the BMS will monitor the on andoff status of Pressurization/Smoke Exhaust/Exhaust Fans MotorizedDampers.
6.3.12 Electrical Panels
Sequence of Operation
Light Status:
An auxiliary contact returns the state of the non-essential panelcontactor we are triggering.
Light Command:
The contactors of the electrical panel can be turned on automaticallyvia a time schedule from the workstation or they can be triggered bythe BMS operator.
6.3.13 HV Swithgear
Sequence of Operation
MONITORED DEVICE
On/Off Status:
An auxiliary contact returns the state of the contactor being triggered.
A CB or Contactor tripped and Availability of Power status shall be
monitored by BMS.
Command:
The contactors of the Main Incoming CB, Tie Breakers & Outgoing CB
can be turned on and off automatically via a time schedule from the
workstation or they can be triggered by the BMS operator.
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6.3.14 Automatic Transfer Switch (ATS)
Sequence of Operation
MONITORED DEVICE
GENERATOR & TRANSFORMER :
The BMS shall monitor the CB or Contactor on and off status ofGenerator, By-Pass Generator, Transformer & By-Pass TransformerPositions.
6.3.15 Generator
Sequence of Operation
MONITORED DEVICE
GENERATOR SETS :
The BMS shall monitor the Run Status & General Alarm of GeneratorSets.
6.3.16 LIFTS
Sequence of Operation
MONITORED DEVICE
LIFTS :
The BMS shall monitor the Run Status & General Alarm of Lifts.
6.3.17 Fire Alarm Control Panel
Sequence of Operation
MONITORED DEVICE
Fire Alarm Control Panel :
The BMS shall monitor the Panel Status/Supervisory Mode, GeneralFault & General Alarm of Fire Alarm Control Panel.
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6.3.18 Security System Control Panel
Sequence of Operation
MONITORED DEVICE
Security System Control Panel :
The BMS shall monitor the General Fault & General Alarm of Security
System Control Panel.
6.3.19 Emergency Main Distribution Board/Main Distribution Board (EMDB/MDB)
Sequence of Operation
MONITORED DEVICE
On/Off Status:
An auxiliary contact returns the state of the contactor being triggered.
A CB or Contactor tripped status shall be monitored by BMS.
SEQUENCE OF OPERATION
Command:
The contactors of the Main Incoming CBs & Outgoing Feeder CBs can
be turned on and off automatically via a time schedule from the
workstation or they can be triggered by the BMS operator.
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6.3.20 FM200 Panel
Sequence of Operation
System Description:
The System consists of the following:1. FM200 Cylinders2. Cylinder Valves3. Solenoid Pilot Valves4. Smoke & Heat Detectors located at hazard area5. Selector Valve
6. All related accessories and controls required for the properoperation of the system
The smoke detector shall be connected to an FM200 Control Panel(FM200CP).
The system pressure, the FM200 shall be monitored at the BMS
System Start Up & Operation Sequence:
Solenoid pilot valve will always be in the close position until activated
by Smoke/Heat Detector through the FM200 Control Panel(FM200CP). Selector valve shall in case of multi-room protectiondictate the direction of flow into the corresponding room.
Alarm & Equipment Status:
1. Smoke/Heat occurred in the room as sensed by the Smoke/HeatDetector.
2. Pressure at the starting of the gas line decreases indi