This document provides guidelines for commissioning HVAC systems, including coordination, specifications, and pre-commissioning checklists. It outlines the commissioning team members and their roles. Pre-commissioning checklists are provided for various HVAC equipment and components to verify proper installation before functional performance testing. The checklists cover items like piping, pumps, chillers, cooling towers, fan coil units, air handling units, and variable air volume boxes.
This section outlines requirements for contractor quality control, including developing and submitting a quality control plan, performing process control sampling and testing, maintaining records, and ensuring work complies with contract requirements. The contractor must submit a quality control plan describing sampling and testing frequencies, inspection procedures for each construction phase, personnel qualifications, and how subcontractors will be incorporated. The contractor is responsible for maintaining control charts and daily records to document compliance. Acceptance will be based on the contractor's quality control system, and deficiencies must be corrected. Payment for quality control is considered included in contract item prices.
This document outlines requirements for testing, adjusting, and balancing (TAB) of HVAC systems in public buildings. It specifies that TAB must be performed according to standards from organizations like AABC, NEBB, or SMACNA. TAB technicians must be certified and experienced, and their work must be verified. Measurements of air and water flows, pressures, temperatures and other parameters are required at equipment and across systems to validate performance. Thorough documentation and settings verification are also specified.
Presentacion asme seccion viii division 2 2013leo040490
This document outlines steps for developing a quality control system manual (QCSM) to meet ASME Section VIII Division 2 regulations for pressure vessel certification. The key steps include:
1. Applying to ASME and the National Board for certification.
2. Developing detailed design calculations, drawings, materials specifications, and fabrication and inspection procedures meeting code requirements.
3. Implementing the QCSM in the shop and warehouses, and distributing it to all relevant personnel, to ensure all code requirements are met during construction.
4. Scheduling audits by the Authorized Inspector to confirm readiness for joint review and certification.
This document outlines the commissioning process for a building project. It defines key terms related to commissioning and describes the commissioning plan, schedule, and responsibilities. Commissioning aims to verify that building systems and assemblies meet design intent and operational needs. It involves testing and documenting that equipment is installed properly and performs as required. The commissioning process is led by a Commissioning Authority and involves cooperation across design, construction, and facility management teams.
All utility boilers in excess of 25 MW are required to conform to the new EPA MATS standard. Tune-ups are required every 36 calendar months or every 48 calendar months for units with neural network combustion optimization. ICTs understanding is that the intent of the rule is to reduce boiler emissions, specifically CO and NOx. In addition to achieving the mandated emissions reductions, a performance tune up can provide the added benefit of improved heat rate and boiler efficiency. ICT can supply the resources to perform boiler/pulverizer inspections, tuning, and testing to meet the MATS tune-up requirements.
This document summarizes the objectives and contents of an upcoming presentation on ANSI standards for electricity meter testing. The presentation will:
1) Explain the contents of ANSI C12.20-2010 for 0.2 and 0.5 accuracy class meters and its relationship to C12.1.
2) Discuss planned 2015 revisions to C12.20 and 2014 revisions to C12.1.
3) Introduce a new draft ANSI C12.29 standard focused on field testing and the timeline for its approval.
4) Consider whether the new standards will affect how meters are tested in the field.
The document discusses proposed changes to ANSI standards regarding field testing of electricity meters. It outlines:
1) Planned updates to ANSI C12.1 and C12.20 that will refer to a new ANSI C12.29 standard focused specifically on field testing procedures.
2) The new C12.29 standard is being drafted and will provide best practices for testing meters, instrument transformers, and auxiliary devices in the field.
3) The future of field testing is expected to involve more comprehensive checks of meters and installations beyond just accuracy, including software verification and tamper detection.
This section outlines requirements for contractor quality control, including developing and submitting a quality control plan, performing process control sampling and testing, maintaining records, and ensuring work complies with contract requirements. The contractor must submit a quality control plan describing sampling and testing frequencies, inspection procedures for each construction phase, personnel qualifications, and how subcontractors will be incorporated. The contractor is responsible for maintaining control charts and daily records to document compliance. Acceptance will be based on the contractor's quality control system, and deficiencies must be corrected. Payment for quality control is considered included in contract item prices.
This document outlines requirements for testing, adjusting, and balancing (TAB) of HVAC systems in public buildings. It specifies that TAB must be performed according to standards from organizations like AABC, NEBB, or SMACNA. TAB technicians must be certified and experienced, and their work must be verified. Measurements of air and water flows, pressures, temperatures and other parameters are required at equipment and across systems to validate performance. Thorough documentation and settings verification are also specified.
Presentacion asme seccion viii division 2 2013leo040490
This document outlines steps for developing a quality control system manual (QCSM) to meet ASME Section VIII Division 2 regulations for pressure vessel certification. The key steps include:
1. Applying to ASME and the National Board for certification.
2. Developing detailed design calculations, drawings, materials specifications, and fabrication and inspection procedures meeting code requirements.
3. Implementing the QCSM in the shop and warehouses, and distributing it to all relevant personnel, to ensure all code requirements are met during construction.
4. Scheduling audits by the Authorized Inspector to confirm readiness for joint review and certification.
This document outlines the commissioning process for a building project. It defines key terms related to commissioning and describes the commissioning plan, schedule, and responsibilities. Commissioning aims to verify that building systems and assemblies meet design intent and operational needs. It involves testing and documenting that equipment is installed properly and performs as required. The commissioning process is led by a Commissioning Authority and involves cooperation across design, construction, and facility management teams.
All utility boilers in excess of 25 MW are required to conform to the new EPA MATS standard. Tune-ups are required every 36 calendar months or every 48 calendar months for units with neural network combustion optimization. ICTs understanding is that the intent of the rule is to reduce boiler emissions, specifically CO and NOx. In addition to achieving the mandated emissions reductions, a performance tune up can provide the added benefit of improved heat rate and boiler efficiency. ICT can supply the resources to perform boiler/pulverizer inspections, tuning, and testing to meet the MATS tune-up requirements.
This document summarizes the objectives and contents of an upcoming presentation on ANSI standards for electricity meter testing. The presentation will:
1) Explain the contents of ANSI C12.20-2010 for 0.2 and 0.5 accuracy class meters and its relationship to C12.1.
2) Discuss planned 2015 revisions to C12.20 and 2014 revisions to C12.1.
3) Introduce a new draft ANSI C12.29 standard focused on field testing and the timeline for its approval.
4) Consider whether the new standards will affect how meters are tested in the field.
The document discusses proposed changes to ANSI standards regarding field testing of electricity meters. It outlines:
1) Planned updates to ANSI C12.1 and C12.20 that will refer to a new ANSI C12.29 standard focused specifically on field testing procedures.
2) The new C12.29 standard is being drafted and will provide best practices for testing meters, instrument transformers, and auxiliary devices in the field.
3) The future of field testing is expected to involve more comprehensive checks of meters and installations beyond just accuracy, including software verification and tamper detection.
Understand contents of ANSI C12.20-2010 for 0.2 and 0.5 Accuracy Class Meters.
Understand the Relationship of C12.20 to C12.1.
Understand ANSI C12.20 Changes Planned for 2015. Edition and ANSI C12.1 changes planned for 2014.
Understand new ANSI C12.29 for Field Testing and potential time frame.
Discuss – Will this affect how we test in the field?
This document provides a status update for upcoming changes to ANSI standards C12.1 and C12.20 in October 2014. It highlights key definition changes and performance requirement updates to sections regarding meter testing and accuracy classes. The changes are aimed at providing more clarity and specificity around test methodologies and tightening allowable errors for testing equipment.
This document provides design requirements for fire pump systems according to various codes. It lists 13 architectural requirements including separating the fire pump room and providing necessary utilities. It lists 11 mechanical requirements such as identifying pump/controller models and providing piping schematics. It lists 13 electrical requirements such as ensuring reliable power sources, proper wiring, and alarm functions. The purpose is to accompany architectural plan reviews to ensure fire pump system compliance.
SEMINAR PENGENALAN KEPADA SPESIFIKASI STANDARD DAN REKABENTUK SISTEM PENYAMAN...azmisalim
This document summarizes a seminar on air conditioning and mechanical ventilation systems for construction industry. It discusses various types of air conditioning systems like window, split, packaged and central air conditioning. It also discusses mechanical ventilation categories used in buildings like smoke spill, staircase and lobby pressurization systems. The document then talks about the tender document preparation process for air conditioning and mechanical ventilation projects. This includes preparing drawings, specifications, bill of quantities, cost estimates and schedules.
This document introduces changes to China's certification procedure and implementation rules for compulsory certification of audio/video and information technology products. Key points include: 1) Allowing type testing and factory inspections to be done in parallel for overseas factories; 2) Requiring a factory quality assurance statement be submitted with applications; 3) Specifying certification modes including type testing with follow-up inspections; and 4) Classifying factories from A to D based on inspection results, with more frequent inspections for lower classes.
This document provides the Saudi Aramco Plumbing Code which adopts the Uniform Plumbing Code (UPC) 2009 edition with some modifications. It summarizes the modifications made to various chapters of the UPC including Administration, Definitions, General Regulations, Plumbing Fixtures, Water Supply and Distribution, Sanitary Drainage, Indirect Wastes, Vents, Traps and Interceptors and Fuel Piping. The document also lists relevant Saudi Aramco engineering standards, materials specifications, and industry codes that are referenced. Detailed modifications are provided for Chapter 1 (Administration) which include exceptions and additions related to plan approval, definitions, organization and enforcement, testing of plumbing systems, and notices of correction
This document discusses the design of piping and instrumentation diagrams (P&IDs) for chemical processes. It provides guidance on:
1. The components that should be included on a P&ID such as equipment, pipes, valves, instruments, and their identification numbers.
2. Standard symbols used to represent these components on P&IDs according to British and other standards.
3. Selection criteria and examples of pump, valve, and pipe fitting types that are important to consider for the piping design.
4. Equations and charts for calculating pressure drops in pipelines due to friction and other factors.
This document discusses proposed changes to ANSI C12.1 standards for in-service performance of electric meters. It recommends that the standards be updated to consider new metering devices like AMI systems, define statistical sampling plans, and require performance monitoring of newly certified meters. Specifically, it suggests the standards cover acceptance testing and sampling of new meter shipments, apply requirements to AMI communication modules, and use statistical sampling to evaluate meters after installation and other metering devices in service. The document advocates completing the proposed draft, educating utilities on the updated standard, and coordinating with IEC and OIML on differences between international standards.
The document provides guidelines for handing over a building from a project team to a facility team. It outlines the process of commissioning building systems to ensure they operate as intended. Commissioning should be done in stages from pre-commissioning to testing to documentation. Systems like AHUs are tested at each stage. The facility team should be involved from the design stage. Proper training and warranty support is required for a smooth transition.
The document provides guidelines for commissioning and handing over a building from the project team to the facility operations team. It discusses the importance of involving the facility team early in the design process and having them lead the commissioning and testing. The commissioning should be done in stages from pre-commissioning to testing to documentation. Training of the facility team is also emphasized. An example commissioning process for an air handling unit is provided to illustrate the different stages.
This document provides a checklist for evaluating HVAC installation contractors and proposals. It suggests rating contractors based on how closely their proposal follows quality installation elements. The checklist contains questions in areas like load calculation, equipment selection, installation measurements, and documentation. Contractors are scored based on the checklist. Their price is then divided by their score to determine the cost per point of quality. This allows homeowners to assess which contractor offers the best value for a high quality installation. The checklist is based on industry quality installation standards.
The document outlines requirements and procedures for mechanical completion and handover of projects from construction to commissioning. It discusses establishing inspection and test records, punch lists, certificates, and documentation like as-built drawings and manuals. Responsibilities include contractors performing mechanical completion and pre-commissioning activities with oversight from the client. Systems are handed over in phases from contractors to the client and eventually to the operator once pre-commissioning and commissioning are complete.
The document discusses mechanical completion, which involves checking and testing equipment, piping, instrumentation, and other components to confirm they are installed correctly and ready for commissioning. It describes the documentation involved, including mechanical completion certificates, check records, and punch lists. Various activities involved in mechanical completion are also outlined for disciplines like mechanical, electrical, instrumentation, and piping.
The document discusses commissioning of offshore installations in building yards. It covers the total commissioning activity and defines the key phases of mechanical completion, pre-commissioning, and commissioning. Mechanical completion involves verifying construction meets design requirements through testing. Pre-commissioning focuses on verifying system functionality and instrument calibration. Commissioning execution involves final checks before handover to operations. Effective planning is critical to the success of each phase.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning new installations upon completion and existing installations after major alterations. The objectives are to verify proper functioning of equipment/systems and that performance meets the design intent through a series of tests and adjustments. The scope includes preliminary inspections during construction, statutory inspections and tests, functional performance tests, documentation, and energization procedures. Specific testing procedures are provided for low voltage, high voltage, lighting, and other systems.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning works. The objectives are to verify proper functioning of equipment/systems and that performance meets design intent. Scope includes preliminary steps, testing during construction, statutory testing and inspection, functional performance testing, and documentation. Specific procedures are provided for tests of low voltage and high voltage installations, as well as functional tests of various systems. Contractors must follow these procedures and submit documentation and certificates of testing and commissioning.
Auditing of critical parameter:- HVAC(heating, ventilation and air conditioning system) 2021; In these presentation includes the requirement of HVAC, Auditing of HVAC components, technical analysis of HVAC components, WHO-GMP audis of HVAC then
Rogert william statement on HVAC, working of HVAC systems and their components Core function of HVAC, Market trends and market analysis of HVAC, WHO guidelines on HVAC system.
Support utilities validation.pptx (asmita magare)magareasmi
1) The document discusses the validation of various utilities used in pharmaceutical manufacturing including water systems, steam systems, compressed air systems, and HVAC systems.
2) Validation involves qualification phases including installation, operational, and performance qualifications to prove the design, procedures, and maintenance of the utilities under all expected operating conditions.
3) Key validation parameters discussed for each utility include particulate testing, pressure and airflow measurements, filter testing, and microbiological testing to ensure the utilities consistently meet quality standards.
The document discusses quality management for construction projects. It describes the purpose and importance of construction quality assurance (QA) and contractor quality control (QC). QA personnel ensure the contractor's work meets contract requirements, while QC is the contractor's responsibility to ensure quality standards are met. The contractor submits daily QC reports detailing activities, test results, deficiencies and corrective actions to document their quality control process. QA personnel review the QC reports to evaluate the effectiveness of the contractor's quality control system. Maintaining thorough documentation in QC reports is essential for the quality management of construction projects.
SATTA MATKA | DPBOSS | KALYAN MAIN BAZAR | FAST MATKA RESULT KALYAN MATKA | MATKA RESULT | KALYAN MATKA TIPS | SATTA MATKA | MATKA COM | MATKA PANA JODI TODAY | BATTA SATKA | MATKA PATTI JODI NUMBER | MATKA RESULTS | MATKA CHART | MATKA JODI | SATTA COM | FULL RATE GAME | MATKA GAME | MATKA WAPKA | ALL MATKA RESULT LIVE ONLINE | MATKA RESULT | KALYAN MATKA RESULT | DPBOSS MATKA 143 | MAIN MATKA
MATKA NUMBER FIX MATKANUMBER FIX SATTAMATKA FIXMATKANUMBER SATTA MATKA ALL SATTA MATKA FREE GAME KALYAN MATKA TIPS KAPIL MATKA GAME SATTA MATKA KALYAN GAME DAILY FREE 4 ANK ALL MARKET PUBLIC SEVA WEBSITE FIX FIX MATKA NUMBER INDIA.S NO1 WEBSITE TTA FIX FIX FIX MATKA GURU INDIA MATKA KALYAN CHART MATKA GUESSING KALYAN FIX OPEN FINAL 3 ANK SATTAMATKA143 GUESSING SATTA BATTA MATKA FIX NUMBER TODAY WAPKA FIX AAPKA FIX FIX FIX FIX SATTA GURU NUMBER SATTA MATKA MATKA143 SATTA SATTA SATTA MATKA SATTAMATKA1438 FIX MATKA MATKA BOSS SATTA LIVE 3MATKA 143 FIX FIX FIX KALYAN JODI MATKA KALYAN FIX FIX WAP MATKA BOSS440 SATTA MATKA FIX FIX MATKA NUMBER SATTA MATKA FIXMATKANUMBER FIX MATKA MATKA RESULT FIX MATKA NUMBER FREE DAILY FIX MATKA NUMBER FIX FIX MATKA JODI SATTA MATKA FIX ANK MATKA ANK FIX KALYAN MUMBAI MATKA NUMBER FIXMATKANUMBER SATTA NUMBER FAST MATKA RESULT SATTA BATTA INDIAN SATTA SATTA RESULT MADHUR SATTA PRABHAT SATTA FIX FIX FIX SATTA NUMBER SATTAKING143 GUESSING SATTA CHART KALYAN PENAL CHART MATKA420 SATTA GUESSING NUMBER KALYAN NIGHT CHART SATTA FIX FIX FIX SATTA NUMBER FIX FIX FIX OPEN FIX FIX WAPKA MATKA DPBOSS FIX FIX 3ANK MATKA KALYAN CHART MATKA GUESSING TARA MATKA FIX FIXMATKANUMBER FINAL ANK MATKABOSS DUBAI SATTA MATKA GOLDEN MATKA FIX FIX MATKA NUMBER FIX MATKANUMBER FIX FIX FIX MATKA NUMBER FIX MATKANUMBER FIX SATTAMATKA FIXMATKANUMBER SATTA MATKA ALL SATTA MATKA FREE GAME KALYAN MATKA TIPS KAPIL MATKA GAME SATTA MATKA KALYAN GAME DAILY FREE 4 ANK ALL MARKET PUBLIC SEVA SATTA FIX FIX FIX MATKA GURU INDIA MATKA KALYAN CHART MATKA GUESSING KALYAN FIX OPEN FINAL 3 ANK SATTAMATKA143 GUESSING SATTA BATTA MATKA FIX NUMBER TODAY WAPKA FIX AAPKA FIX FIX FIX FIX SATTA GURU NUMBER SATTA MATKA MATKA143 SATTA SATTA SATTA MATKA SATTAMATKA1438 FIX MATKA MATKA BOSS SATTA LIVE 3MATKA 143 FIX FIX FIX KALYAN JODI MATKA KALYAN FIX FIX WAP MATKA BOSS440 SATTA MATKA FIX FIX MATKA NUMBER SATTA MATKA FIXMATKANUMBER FIX MATKA MATKA RESULT FIX MATKA NUMBER FREE DAILY FIX MATKA NUMBER FIX FIX MATKA JODI SATTA MATKA FIX ANK MATKA ANK FIX KALYAN MUMBAI MATKA NUMBER FIXMATKANUMBER SATTA NUMBER FAST MATKA RESULT SATTA BATTA INDIAN SATTA SATTA RESULT MADHUR SATTA PRABHAT SATTA FIX FIX FIX SATTA NUMBER SATTAKING143 GUESSING SATTA CHART KALYAN PENAL CHART MATKA420 SATTA GUESSING NUMBER KALYAN NIGHT CHART SATTA FIX FIX FIX SATTA NUMBER FIX FIX FIX OPEN FIX FIX WAPKA MATKA DPBOSS FIX FIX 3ANK MATKA KALYAN CHART MATKA GUESSING TARA MATKA FIX FIXMATKANUMBER FINAL ANK MATKABOSS DUBAI SATTA MATKA GOLDEN MATKA WAPKA.FIX FIX FIX
Understand contents of ANSI C12.20-2010 for 0.2 and 0.5 Accuracy Class Meters.
Understand the Relationship of C12.20 to C12.1.
Understand ANSI C12.20 Changes Planned for 2015. Edition and ANSI C12.1 changes planned for 2014.
Understand new ANSI C12.29 for Field Testing and potential time frame.
Discuss – Will this affect how we test in the field?
This document provides a status update for upcoming changes to ANSI standards C12.1 and C12.20 in October 2014. It highlights key definition changes and performance requirement updates to sections regarding meter testing and accuracy classes. The changes are aimed at providing more clarity and specificity around test methodologies and tightening allowable errors for testing equipment.
This document provides design requirements for fire pump systems according to various codes. It lists 13 architectural requirements including separating the fire pump room and providing necessary utilities. It lists 11 mechanical requirements such as identifying pump/controller models and providing piping schematics. It lists 13 electrical requirements such as ensuring reliable power sources, proper wiring, and alarm functions. The purpose is to accompany architectural plan reviews to ensure fire pump system compliance.
SEMINAR PENGENALAN KEPADA SPESIFIKASI STANDARD DAN REKABENTUK SISTEM PENYAMAN...azmisalim
This document summarizes a seminar on air conditioning and mechanical ventilation systems for construction industry. It discusses various types of air conditioning systems like window, split, packaged and central air conditioning. It also discusses mechanical ventilation categories used in buildings like smoke spill, staircase and lobby pressurization systems. The document then talks about the tender document preparation process for air conditioning and mechanical ventilation projects. This includes preparing drawings, specifications, bill of quantities, cost estimates and schedules.
This document introduces changes to China's certification procedure and implementation rules for compulsory certification of audio/video and information technology products. Key points include: 1) Allowing type testing and factory inspections to be done in parallel for overseas factories; 2) Requiring a factory quality assurance statement be submitted with applications; 3) Specifying certification modes including type testing with follow-up inspections; and 4) Classifying factories from A to D based on inspection results, with more frequent inspections for lower classes.
This document provides the Saudi Aramco Plumbing Code which adopts the Uniform Plumbing Code (UPC) 2009 edition with some modifications. It summarizes the modifications made to various chapters of the UPC including Administration, Definitions, General Regulations, Plumbing Fixtures, Water Supply and Distribution, Sanitary Drainage, Indirect Wastes, Vents, Traps and Interceptors and Fuel Piping. The document also lists relevant Saudi Aramco engineering standards, materials specifications, and industry codes that are referenced. Detailed modifications are provided for Chapter 1 (Administration) which include exceptions and additions related to plan approval, definitions, organization and enforcement, testing of plumbing systems, and notices of correction
This document discusses the design of piping and instrumentation diagrams (P&IDs) for chemical processes. It provides guidance on:
1. The components that should be included on a P&ID such as equipment, pipes, valves, instruments, and their identification numbers.
2. Standard symbols used to represent these components on P&IDs according to British and other standards.
3. Selection criteria and examples of pump, valve, and pipe fitting types that are important to consider for the piping design.
4. Equations and charts for calculating pressure drops in pipelines due to friction and other factors.
This document discusses proposed changes to ANSI C12.1 standards for in-service performance of electric meters. It recommends that the standards be updated to consider new metering devices like AMI systems, define statistical sampling plans, and require performance monitoring of newly certified meters. Specifically, it suggests the standards cover acceptance testing and sampling of new meter shipments, apply requirements to AMI communication modules, and use statistical sampling to evaluate meters after installation and other metering devices in service. The document advocates completing the proposed draft, educating utilities on the updated standard, and coordinating with IEC and OIML on differences between international standards.
The document provides guidelines for handing over a building from a project team to a facility team. It outlines the process of commissioning building systems to ensure they operate as intended. Commissioning should be done in stages from pre-commissioning to testing to documentation. Systems like AHUs are tested at each stage. The facility team should be involved from the design stage. Proper training and warranty support is required for a smooth transition.
The document provides guidelines for commissioning and handing over a building from the project team to the facility operations team. It discusses the importance of involving the facility team early in the design process and having them lead the commissioning and testing. The commissioning should be done in stages from pre-commissioning to testing to documentation. Training of the facility team is also emphasized. An example commissioning process for an air handling unit is provided to illustrate the different stages.
This document provides a checklist for evaluating HVAC installation contractors and proposals. It suggests rating contractors based on how closely their proposal follows quality installation elements. The checklist contains questions in areas like load calculation, equipment selection, installation measurements, and documentation. Contractors are scored based on the checklist. Their price is then divided by their score to determine the cost per point of quality. This allows homeowners to assess which contractor offers the best value for a high quality installation. The checklist is based on industry quality installation standards.
The document outlines requirements and procedures for mechanical completion and handover of projects from construction to commissioning. It discusses establishing inspection and test records, punch lists, certificates, and documentation like as-built drawings and manuals. Responsibilities include contractors performing mechanical completion and pre-commissioning activities with oversight from the client. Systems are handed over in phases from contractors to the client and eventually to the operator once pre-commissioning and commissioning are complete.
The document discusses mechanical completion, which involves checking and testing equipment, piping, instrumentation, and other components to confirm they are installed correctly and ready for commissioning. It describes the documentation involved, including mechanical completion certificates, check records, and punch lists. Various activities involved in mechanical completion are also outlined for disciplines like mechanical, electrical, instrumentation, and piping.
The document discusses commissioning of offshore installations in building yards. It covers the total commissioning activity and defines the key phases of mechanical completion, pre-commissioning, and commissioning. Mechanical completion involves verifying construction meets design requirements through testing. Pre-commissioning focuses on verifying system functionality and instrument calibration. Commissioning execution involves final checks before handover to operations. Effective planning is critical to the success of each phase.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning new installations upon completion and existing installations after major alterations. The objectives are to verify proper functioning of equipment/systems and that performance meets the design intent through a series of tests and adjustments. The scope includes preliminary inspections during construction, statutory inspections and tests, functional performance tests, documentation, and energization procedures. Specific testing procedures are provided for low voltage, high voltage, lighting, and other systems.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning works. The objectives are to verify proper functioning of equipment/systems and that performance meets design intent. Scope includes preliminary steps, testing during construction, statutory testing and inspection, functional performance testing, and documentation. Specific procedures are provided for tests of low voltage and high voltage installations, as well as functional tests of various systems. Contractors must follow these procedures and submit documentation and certificates of testing and commissioning.
Auditing of critical parameter:- HVAC(heating, ventilation and air conditioning system) 2021; In these presentation includes the requirement of HVAC, Auditing of HVAC components, technical analysis of HVAC components, WHO-GMP audis of HVAC then
Rogert william statement on HVAC, working of HVAC systems and their components Core function of HVAC, Market trends and market analysis of HVAC, WHO guidelines on HVAC system.
Support utilities validation.pptx (asmita magare)magareasmi
1) The document discusses the validation of various utilities used in pharmaceutical manufacturing including water systems, steam systems, compressed air systems, and HVAC systems.
2) Validation involves qualification phases including installation, operational, and performance qualifications to prove the design, procedures, and maintenance of the utilities under all expected operating conditions.
3) Key validation parameters discussed for each utility include particulate testing, pressure and airflow measurements, filter testing, and microbiological testing to ensure the utilities consistently meet quality standards.
The document discusses quality management for construction projects. It describes the purpose and importance of construction quality assurance (QA) and contractor quality control (QC). QA personnel ensure the contractor's work meets contract requirements, while QC is the contractor's responsibility to ensure quality standards are met. The contractor submits daily QC reports detailing activities, test results, deficiencies and corrective actions to document their quality control process. QA personnel review the QC reports to evaluate the effectiveness of the contractor's quality control system. Maintaining thorough documentation in QC reports is essential for the quality management of construction projects.
Semelhante a TG-15595- report-and-analysis_powerpointviewer(1).doc (20)
SATTA MATKA | DPBOSS | KALYAN MAIN BAZAR | FAST MATKA RESULT KALYAN MATKA | MATKA RESULT | KALYAN MATKA TIPS | SATTA MATKA | MATKA COM | MATKA PANA JODI TODAY | BATTA SATKA | MATKA PATTI JODI NUMBER | MATKA RESULTS | MATKA CHART | MATKA JODI | SATTA COM | FULL RATE GAME | MATKA GAME | MATKA WAPKA | ALL MATKA RESULT LIVE ONLINE | MATKA RESULT | KALYAN MATKA RESULT | DPBOSS MATKA 143 | MAIN MATKA
MATKA NUMBER FIX MATKANUMBER FIX SATTAMATKA FIXMATKANUMBER SATTA MATKA ALL SATTA MATKA FREE GAME KALYAN MATKA TIPS KAPIL MATKA GAME SATTA MATKA KALYAN GAME DAILY FREE 4 ANK ALL MARKET PUBLIC SEVA WEBSITE FIX FIX MATKA NUMBER INDIA.S NO1 WEBSITE TTA FIX FIX FIX MATKA GURU INDIA MATKA KALYAN CHART MATKA GUESSING KALYAN FIX OPEN FINAL 3 ANK SATTAMATKA143 GUESSING SATTA BATTA MATKA FIX NUMBER TODAY WAPKA FIX AAPKA FIX FIX FIX FIX SATTA GURU NUMBER SATTA MATKA MATKA143 SATTA SATTA SATTA MATKA SATTAMATKA1438 FIX MATKA MATKA BOSS SATTA LIVE 3MATKA 143 FIX FIX FIX KALYAN JODI MATKA KALYAN FIX FIX WAP MATKA BOSS440 SATTA MATKA FIX FIX MATKA NUMBER SATTA MATKA FIXMATKANUMBER FIX MATKA MATKA RESULT FIX MATKA NUMBER FREE DAILY FIX MATKA NUMBER FIX FIX MATKA JODI SATTA MATKA FIX ANK MATKA ANK FIX KALYAN MUMBAI MATKA NUMBER FIXMATKANUMBER SATTA NUMBER FAST MATKA RESULT SATTA BATTA INDIAN SATTA SATTA RESULT MADHUR SATTA PRABHAT SATTA FIX FIX FIX SATTA NUMBER SATTAKING143 GUESSING SATTA CHART KALYAN PENAL CHART MATKA420 SATTA GUESSING NUMBER KALYAN NIGHT CHART SATTA FIX FIX FIX SATTA NUMBER FIX FIX FIX OPEN FIX FIX WAPKA MATKA DPBOSS FIX FIX 3ANK MATKA KALYAN CHART MATKA GUESSING TARA MATKA FIX FIXMATKANUMBER FINAL ANK MATKABOSS DUBAI SATTA MATKA GOLDEN MATKA FIX FIX MATKA NUMBER FIX MATKANUMBER FIX FIX FIX MATKA NUMBER FIX MATKANUMBER FIX SATTAMATKA FIXMATKANUMBER SATTA MATKA ALL SATTA MATKA FREE GAME KALYAN MATKA TIPS KAPIL MATKA GAME SATTA MATKA KALYAN GAME DAILY FREE 4 ANK ALL MARKET PUBLIC SEVA SATTA FIX FIX FIX MATKA GURU INDIA MATKA KALYAN CHART MATKA GUESSING KALYAN FIX OPEN FINAL 3 ANK SATTAMATKA143 GUESSING SATTA BATTA MATKA FIX NUMBER TODAY WAPKA FIX AAPKA FIX FIX FIX FIX SATTA GURU NUMBER SATTA MATKA MATKA143 SATTA SATTA SATTA MATKA SATTAMATKA1438 FIX MATKA MATKA BOSS SATTA LIVE 3MATKA 143 FIX FIX FIX KALYAN JODI MATKA KALYAN FIX FIX WAP MATKA BOSS440 SATTA MATKA FIX FIX MATKA NUMBER SATTA MATKA FIXMATKANUMBER FIX MATKA MATKA RESULT FIX MATKA NUMBER FREE DAILY FIX MATKA NUMBER FIX FIX MATKA JODI SATTA MATKA FIX ANK MATKA ANK FIX KALYAN MUMBAI MATKA NUMBER FIXMATKANUMBER SATTA NUMBER FAST MATKA RESULT SATTA BATTA INDIAN SATTA SATTA RESULT MADHUR SATTA PRABHAT SATTA FIX FIX FIX SATTA NUMBER SATTAKING143 GUESSING SATTA CHART KALYAN PENAL CHART MATKA420 SATTA GUESSING NUMBER KALYAN NIGHT CHART SATTA FIX FIX FIX SATTA NUMBER FIX FIX FIX OPEN FIX FIX WAPKA MATKA DPBOSS FIX FIX 3ANK MATKA KALYAN CHART MATKA GUESSING TARA MATKA FIX FIXMATKANUMBER FINAL ANK MATKABOSS DUBAI SATTA MATKA GOLDEN MATKA WAPKA.FIX FIX FIX
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1. DESIGN CONSULTANT CRITERIA
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TG 15595 - 1
Commissioning of HVAC Systems
TECHNICAL GUIDE TG 15595
1. COORDINATION ISSUES:
1.1 Coordinate with Air Conditioning sections and Electrical sections.
2. DESIGN ISSUES: (Not Used)
3. DRAWING NOTES: (Not Used)
4. STANDARD DRAWINGS: (Not Used)
5. SPECIFICATION NOTES: (Not Used)
6. GUIDE SPECIFICATION:
6.1 Section 15595 Commissioning of HVAC Systems.
SPECIFIER’S NOTE: Blue colored texts are Notes to the Specifier and should be completely
deleted from the final text. Where [red colored italicized text in parentheses] is shown in
this specification section, insert wording, numbers, etc. as appropriate and delete
parentheses. Where <Red colored text in brackets> is shown, choice is indicated. Make the
appropriate choice and delete the brackets. Maintain footer notation in italics with the
current version used.
For multiple projects, if there is more than one DAGS Job Number for the project, include all
DAGS Job Numbers in the footer. Do not include the Project Name (etc.) line in the footer.
Use the following format for the specification footer.
TG15595 v03.05 Commissioning of HVAC Systems
Job No. [00-00-0000] Page [1]
[00-00-0000]
End Footer Sample
2. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 2
SECTION 15595 - COMMISSIONING OF HVAC SYSTEMS
PART 1 - GENERAL
1.01 SUMMARY
A. This section covers the commissioning of the air conditioning, ventilation and related
systems. Commissioning is the process of achieving, verifying and documenting the
performance of the air conditioning and ventilation system to meet the design intent
and functional and operational needs.
SPECIFIER’S NOTE: Describe the air conditioning system pertaining to the project in
paragraph 1.01.B. The following paragraph is an example description.
EXAMPLE:
The air conditioning system main plant consists of two (2)
main chillers, a jockey chiller serving off hour/24 hour air
conditioning needs, two (2) cooling towers, constant and
variable speed chilled water pumps, and three (3) condenser
water pumps. The building’s air conditioning system consists
of constant and variable speed air handling units and fan coil
units. Variable air volume (VAV) boxes regulate the air flow
into the various spaces. Exhaust fans ventilate the toilets,
mechanical rooms, electrical rooms and the interior parking
areas.
1.03 RELATED WORK SPECIFIED IN OTHER SECTIONS
A. The air conditioning and ventilation system as specified in other sections of
DIVISION 15.
B. Electrical work as specified in DIVISION 16.
1.04 SUBMITTALS
A. Submit the following in accordance with SECTION 15011 - GENERAL
MECHANICAL REQUIREMENTS.
1. Shop Drawings: None
2. Product Data: None
3. Schedules:
(a) Commissioning Team: List of team members who will represent the
Contractor in the pre-commissioning checks and functional performance
testing, at least 2 weeks prior to the start of pre-commissioning checks.
Proposed revision to the list, prior to the start of the impacted work.
(b) Test Procedures: Detailed procedures for pre-commissioning checks and
functional performance tests, at least 4 weeks prior to the start of pre-
commissioning checks.
(c) Test Schedule: Schedule for pre-commissioning checks and functional
performance tests, at least 2 weeks prior to the start of pre-commissioning
checks.
4. Reports.
(a) Test Reports: Completed pre-commissioning checklists and functional
performance test checklists organized by system and by subsystem and
3. DESIGN CONSULTANT CRITERIA
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TG 15595 - 3
submitted as one package. The results of failed tests shall be included along
with a description of the corrective action taken.
5. Certificates of Conformance or Compliance.
6. As-built Drawings: None
7. Operations and Maintenance Manuals: None
8. Guarantee and Certificate:
SPECIFIER’S NOTE: Confirm referenced sections in paragraph 1.05.A.
1.05 SEQUENCING AND SCHEDULING
A. The work described in this Section shall begin only after all work required in related
Sections, including Section 15910 - DIRECT DIGITAL CONTROL SYSTEMS and
Section 15990 - TESTING AND BALANCING AIR AND WATER SYSTEMS, has
been successfully completed, and all test and inspection reports and operation and
maintenance manuals required in these Sections have been submitted and approved.
PART 2 PRODUCTS [Not Applicable]
PART 3 EXECUTION
3.01 COMMISSIONING TEAM AND CHECKLISTS
A. The Contractor shall designate team members to participate in the pre-
commissioning checks and the functional performance testing specified. In addition,
the State will be represented by the State’s Commissioning Agent, DAGS Inspector,
and the Design Agent’s Representative. The team members are:
1. Symbol Function
Q Contractor’s Chief Quality Control Representative
M Contractor’s Mechanical Representative
E Contractor’s Electrical Representative
T Contractor’s Testing, Adjusting, and Balancing Representative
C Contractor’s Controls Representative
O State’s Commissioning Agent
B. The commissioning team shall complete each checklist in appendices located at the
end of this section. Each commissioning team member shall accept of each pre-
commissioning checklist item, by initials and date. Items noted with an “X” (or
blacked out) indicates that participation by that individual is not required. Also,
each commissioning team member shall accept each functional performance test
checklist by signature and date.
3.02 TESTS
A. The pre-commissioning checks and functional performance tests shall be performed
in a manner which essentially duplicates the checking, testing, and inspection
methods established in the related Sections. Where checking, testing, and inspection
methods are not specified in other Sections, methods shall be established which will
provide the information required. Testing and verification required by this Section
shall be performed during the Commissioning phase. Requirements in related
Sections are independent from the requirements of this Section and shall not be used
to satisfy any of the requirements specified in this Section. The Contractor shall
4. DESIGN CONSULTANT CRITERIA
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TG 15595 - 4
provide all materials, services, and labor required to perform the pre-commissioning
checks and functional performance tests. A pre-commissioning check or functional
performance test shall be aborted if any system deficiency prevents the successful
completion of the test or if any participating non-State commissioning team member
of which participation is specified is not present for the test. The Contractor shall
reimburse the State for all costs associated with effort lost due to tests that are
aborted. These costs shall include salary, travel costs and per diem (where
applicable) for State commissioning team members.
B. Pre-Commissioning Checks: Perform for the items indicated on the checklists in
Appendix A. Deficiencies discovered during these checks shall be corrected and
retested in accordance with the applicable contract requirements.
C. Functional Performance Tests: Perform for the items indicated on the checklists in
Appendix B. Functional performance tests shall begin only after all pre-
commissioning checks have been successfully completed. Tests shall prove all modes
of the sequences of operation, and shall verify all other relevant contract
requirements. Tests shall begin with equipment or components and shall progress
through subsystems to complete systems. Upon failure of any functional
performance test checklist item, the Contractor shall correct all deficiencies in
accordance with the applicable contract requirements. The checklist shall then be
repeated until it has been completed with no errors.
SPECIFIER’S NOTE: Confirm requirements and modify to suite Project.
3.03 PRE-COMMISSIONING CHECKLISTS [APPENDIX A]
A. Pre-commissioning checklist for equipment and systems:
EQUIPMENT / SYSTEM PRE-COMMISSIONING CHECKLIST
Chiller Plant <Required><Not Required>
Chilled Water Piping <Required><Not Required>
Condenser Water Piping <Required><Not Required>
Chilled Water Pumps <Required><Not Required>
Chilled Water Pumps With VFD <Required><Not Required>
Condenser Water Pumps <Required><Not Required>
Chillers <Required><Not Required>
Cooling Towers <Required><Not Required>
DDC System <Required><Not Required>
Exhaust Fans <Required><Not Required>
Chemical System <Required><Not Required>
Fan Coil Unit <Required><Not Required>
AHU With VFD <Required><Not Required>
VAV Boxes <Required><Not Required> [20 Per Floor]
Ductwork <Required><Not Required>
DDC System <Required><Not Required>
B. Pre-commissioning Checklist: Piping
For Piping System at Chiller Plant ______________________
CHECKLIST ITEMS
1. Installation Q M E T C O
5. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 5
a. Piping complete
b. As-built shop drawings submitted
c. Piping flushed and cleaned
d. Strainers cleaned
e. Valves installed as required
f. Piping insulated as required
g. Thermometers and gauges installed as required
h. Verify operation of valves
i. Air vents installed as specified
j. Flexible connectors installed as specified
k. Verify that piping has been labeled and valves
identified as specified
2. Testing, Adjusting, and Balancing (TAB) Q M E T C O
a. Hydrostatic test complete
b. TAB operation complete
C. Pre-commissioning Checklist: Pumps
For Pump ______________________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Pump grouted in place
b Pump vibration isolation devices functional
c Pump/motor coupling alignment verified
d Piping system installed
e Piping system pressure tested
f Pump not leaking
g Field assembled couplings aligned to meet
manufacturer's prescribed tolerances
2 Electrical Q M E T C O
a Power available to pump disconnect
b Pump rotation verified
c Control system interlocks functional
d Verify that power disconnect is located within sight
of the unit it controls
e Variable frequency drive functional
3 Testing, Adjusting, and Balancing (TAB) Q M E T C O
a Pressure/temperature gauges installed
b Piping system cleaned
c Water balance complete
d Water balance with design maximum flow
e TAB Report submitted
D. Pre-commissioning Checklist – Centrifugal Chiller
For Chiller: ____________________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Chilled water connection properly piped
b Condenser water connections properly piped
c Chilled water pipe leak tested
d Condenser water pipe leak tested
e High efficiency purge unit installed and operating
6. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 6
as specified
f Refrigerant leak detector installed
g Oxygen sensor installed and tested
h Mechanical room ventilation installed as specified
i Manufacturer’s required maintenance clearance
provided
j Field assembled couplings aligned to meet
manufacturer’s prescribed tolerances
2 Electrical Q M E T C O
a Power available to unit starter
b Power available to unit control panel
c Verify that power disconnect is located within sight
of the unit it co
3 Chiller Controls Q M E T C O
a Factory startup, witness tests and checkout
complete
b Chiller safety/protection devices installed and
tested.
c Chilled water flow switch installed.
d Chilled water flow switch tested.
e Chilled water pump interlock installed.
f Chilled water pump interlock tested.
g Condenser water flow switch installed.
h Condenser water flow switch tested.
i Condenser water pump interlock installed.
j Condenser water pump interlock tested.
E. Pre-commissioning - Cooling Tower
For Cooling Tower: ____________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Cooling tower in place.
b Cooling tower piped.
c Cooling tower fan drive adjusted.
d Cooling tower makeup water supply piped and
meter installed.
e Verify makeup control valve can shutoff.
f Fan bearings lubricated and blade pitch adjusted
g Manufacturer's required maintenance/operational
clearance provided
2 Electrical Q M E T C O
a Power available to tower disconnect switch
b Control system interlocks functional
c Motor and fan rotation checked
d Verify that power disconnect is located within sight
of the unit’s controls
3 Piping Q M E T C O
a Tower basin is clean and filled
b Condenser water treatment functional
c Water balance with design flow verified
d Water distribution headers balanced
7. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 7
F. Pre-commissioning - Fan Coiling Unit
For Fan coil Unit: ____________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Vibration isolation devices installed
b Access doors/removable panels are operable and
sealed
c Casing undamaged
d Insulation undamaged
e Condensate drainage is unobstructed
f Fan belt adjusted
g Any damage to coil fins has been repaired
h Manufacturer's required maintenance clearance
provided
2 Electrical Q M E T C O
a Power available to unit disconnect
b Power available to unit control panel
c Proper motor rotation verified
d Verify that power disconnect is located within sight
of the unit’s controls
3 Coils Q M E T C O
a Chilled water piping properly connected
b Chilled water piping pressure tested
c Condensate piping properly connected
d Condensate piping leak tested
e Air vents installed on water coils with shutoff
valves as specified
f Any damage to coil fins have been repaired
4 Controls Q M E T C O
a Control valves/actuators properly installed
b Control valves/actuators operable
c Verify proper location and installation of
thermostat
5 Testing, Adjusting and Balancing (TAB) Q M E T C O
a Construction filters removed and replaced
b TAB results +10%/_0% of CFM shown on drawings
c TAB Report submitted
G. Pre-commissioning – Air Handling Unit
For Air handling Unit: ____________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Vibration isolation devices installed
b Access doors/removable panels are operable and
sealed
c Casing undamaged
d Insulation undamaged
e Condensate drainage is unobstructed. (Visually
verify drainage by pouring a cup of water into drain
pan.)
8. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 8
f Fan belt adjusted
g Any damage to coil fins has been repaired
h Manufacturer’s required maintenance clearance
provided
i Ductwork complete
j Ductwork leak test complete
k Fire dampers, smoke dampers and access doors
installed as required
l Ductwork insulated as required
m Thermometers and gauges installed as required
n Verify open/closed status of dampers
o Verify smoke dampers operation
p Flexible connectors installed as specified
2 Electrical Q M E T C O
a Power available to unit disconnect
b Power available to unit control panel
c Proper motor rotation verified
d Verify that power disconnect is located within sight
of the unit’s controls
3 Coils Q M E T C O
a Chilled water piping properly connected
b Chilled water piping pressure tested
c Condensate piping properly connected
d Condensate piping leak tested
e Air vents installed on water coils with shutoff
valves as specified
f Any damage to coil fins have been repaired
4 Controls Q M E T C O
a Control valves/actuators properly installed
b Control valves/actuators operable
c Dampers/actuators properly installed
d Dampers/actuators operable
e Verify proper location and installation of
thermostat
5 Testing, Adjusting and Balancing (TAB) Q M E T C O
a Construction filters removed and replaced
b TAB results +10%/_0% of CFM shown on drawings
c TAB Report submitted
H. Pre-commissioning – Variable Volume Air Handling Unit
For Air handling Unit: ____________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Vibration isolation devices installed
b Access doors/removable panels are operable and
sealed
c Casing undamaged
d Insulation undamaged
e Condensate drainage is unobstructed. (Visually
verify drainage by pouring a cup of water into drain
pan.)
f Fan belt adjusted
9. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 9
g Any damage to coil fins has been repaired
h Manufacturer’s required maintenance clearance
provided
i Ductwork complete
j Ductwork leak test complete
k Fire dampers, smoke dampers and access doors
installed as required
l Ductwork insulated as required
m Theromometers and gauges installed as required
n Verify open/closed status of dampers
o Verify smoke dampers operation
p Flexible connectors installed as specified
2 Electrical Q M E T C O
a Power available to unit disconnect
b Power available to unit control panel
c Proper motor rotation verified
d Verify that power disconnect is located within sight
of the unit’s controls
3 Coils Q M E T C O
a Chilled water piping properly connected
b Chilled water piping pressure tested
c Condensate piping properly connected
d Condensate piping leak tested
e Air vents installed on water coils with shutoff
valves as specified
f Any damage to coil fins have been repaired
4 Controls Q M E T C O
a Control valves/actuators properly installed
b Control valves/actuators operable
c Dampers/actuators properly installed
d Dampers/actuators operable
e Verify proper location and installation of
thermostat
f Verify proper location, installation and calibration
of duct static pressure sensor
g Fan air volume controller operable
h Air handler controls system operational
5 Testing, Adjusting and Balancing (TAB) Q M E T C O
a Construction filters removed and replaced
b TAB results +10%/_0% of CFM shown on drawings
c TAB Report submitted
d TAB results for outside air intake within +10%/_0%
of both the minimum and maximum CFM shown on
drawings
I. Pre-commissioning – Ductwork
For Air handling Unit: ____________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Ductwork Complete
b As-built shop drawings submitted
c Ductwork leak test complete
10. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 10
d Fire dampers, smoke dampers and access doors
installed as required
e Ductwork insulated as required
f Verify open/closed status of dampers
g Verify smoke dampers operation
h Flexible connectors installed as specified
2 Testing, Adjusting and Balancing (TAB) Q M E T C O
a TAB Report submitted
J. Pre-commissioning – VAV Terminal
For VAV Terminalt: _______________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a VAV terminal in place.
b VAV terminal ducted.
c VAV terminal connected to controls.
d Manufacturer’s required maintenance clearance
provided.
2 Controls Q M E T C O
a Cooling only VAV terminal controls set.
b Cooling only VAV controls verified.
3 Testing, Adjusting and Balancing (TAB) Q M E T C O
a Verify terminal maximum airflow set.
b Verify terminal minimum airflow set.
c TAB operation complete.
K. Pre-commissioning – Exhaust Fan
For Exhaust Fan: _________________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Vibration isolation devices installed.
b Casing undamaged.
c Fan belt adjusted.
d Manufacturer's required maintenance clearance
provided.
e Ductwork complete.
f Ductwork leak test complete.
g Fire dampers, smoke dampers and access doors
installed as required.
h Verify open/closed status of dampers.
i Verify smoke dampers operation.
j Flexible connectors installed as specified.
2 Electrical Q M E T C O
a Power available to unit disconnect switch.
b Proper motor rotation verified.
c Verify that power disconnect is located within sight
of the unit’s controls.
3 Controls Q M E T C O
a Control interlocks properly installed.
11. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 11
b Control interlocks operable.
c Dampers/actuators properly installed.
d Dampers/actuators operable.
e Verify proper location and installation of
thermostat.
5 Testing, Adjusting and Balancing (TAB) Q M E T C O
a TAB results +10%/_0% of CFM shown on drawings.
b TAB Report submitted.
L. Pre-commissioning – DCC System
For DCC System: _________________________________________
CHECKLIST ITEMS
1 Installation Q M E T C O
a Asbuilt shop drawings submitted.
b Layout of control panel matches drawings.
c Framed instructions mounted in or near control
panel.
d Components properly labeled on inside and outside
of panel.
e Control components piped and/or wired to each
labeled terminal strip.
f DDC system connection made to each labeled
terminal strip as shown.
g Control wiring and tubing labeled at all
terminations, splices, and junctions.
h Shielded wiring used on electronic sensors.
i Programming/ graphics complete.
2 Electrical Q M E T C O
a 110 volt AC power available to panel.
3 Testing, Adjusting and Balancing (TAB) Q M E T C O
a TAB Report submitted.
3.04 FUNCTIONAL PERFORMANCE TEST CHECKLISTS [APPENDIX B]
A. Provide functional performance checklist for equipment and systems:
EQUIPMENT / SYSTEM PERFORMANCE CHECKLIST
Chiller Plant <Required><Not Required>
Chilled Water Piping <Required><Not Required>
Condenser Water Piping <Required><Not Required>
Chilled Water Pumps <Required><Not Required>
Chilled Water Pumps With VFD <Required><Not Required>
Condenser Water Pumps <Required><Not Required>
Chillers <Required><Not Required>
Cooling Towers <Required><Not Required>
DDC System <Required><Not Required>
Exhaust Fans <Required><Not Required>
Chemical System <Required><Not Required>
12. DESIGN CONSULTANT CRITERIA
v03.05
TG 15595 - 12
Fan Coil Unit <Required><Not Required>
AHU With VFD <Required><Not Required>
VAV Boxes <Required><Not Required> [20 Per Floor]
Ductwork <Required><Not Required>
DDC System <Required><Not Required>
B. Functional Performance Test – Pumps
For Pumps: _________________________________________
Prior to performing these checks, ensure that for closed loop systems, system is
pressurized and the make-up water system is operational or, for open loop systems,
that the sumps are filled to the proper level.
1. Energize and de-energize pump start using control system commands (all possible
combinations, on/auto, etc.). Verify pump starts and stops as expected.
ON OFF
Manual switch:
AUTO Start/Stop: Initiating device
a. Record Pressure drop across strainer:
Strainer inlet pressure psig
Strainer outlet pressure psig
Strainer differential pressure psig
b. Annotate pump inlet/outlet design conditions and compare to Testing,
Adjusting and Balancing report (TAB)
Design TAB
Pump inlet pressure (psig)
Pump outlet pressure (psig)
PUMP FLOW RATE (gpm)
c. Operate pump at shutoff and at 100 percent of design flow when all
components are in full flow. Plot test readings on pump curve and compare
results against readings taken from flow measuring devices.
Shutoff 100 Percent
Pump inlet pressure (psig)
Pump outlet pressure (psig)
Pump flow rate, from flow measuring
device (gpm)
Pump flow rate, from pump curve (gpm)
d. For variable speed pumps, operate pump at 50% of design flow and at
minimum flow or when all components are in full by-pass. Plot test readings
on pump curve and compare results against readings taken from flow
measuring devices.
50% flow Minimum flow
Pump inlet pressure (psig)
Pump outlet pressure (psig)
Pump flow rate, from flow measuring
device (gpm)
Pump flow rate, from pump curve (gpm)
13. DESIGN CONSULTANT CRITERIA
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TG 15595 - 13
2. Verify motor amperage each phase and voltage phase to phase and phase to
ground for both the full flow and the minimum flow conditions.
a. Full flow: Phase 1 Phase 2 Phase 3
Amperage
Voltage
Voltage to Ground
b. Minimum Flow: Phase 1 Phase 2 Phase 3
Amperage
Voltage
Voltage to Ground
3. Unusual vibration, noise, and other similar items.
4. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
C. Functional Performance Test – Centrifugal Chiller
For Chiller: _________________________________________
1. Functional Performance Test: Contractor shall demonstrate operation of chilled
water system as per specifications including the following:
a. Start all the building’s AHU’s to provide maximum load for the chiller. Set
each AHU control valve to full cooling.
AHU No Design Load
(BTU)
AHU Design Load
(BTU)
b. Time of day startup program initiates chiller start
sequence (start initiated by entering start time in startup
program):
Satisfactory
c. Start condenser water pump and establish condenser
water flow. Verify condenser water proof-of-flow switch
operation allows chiller startup.
Satisfactory
d. Start primary chilled water pump and establish chilled Satisfactory
14. DESIGN CONSULTANT CRITERIA
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TG 15595 - 14
water flow. Verify chilled water proof-of-flow switch
operation allows chiller startup.
e. Verify chiller control system energizes chiller start
sequence. Record time of day startup initiated and time
of day compressor starts. Check against chiller startup
instructions from manufacturer.
Satisfactory
Compressor Amps
Time Start-up initiated
Time Compressor starts
f. Verify chiller senses chilled water temperature above set point and chiller
control system activates chiller start.
Chilled water return temperature
Chilled water supply temperature
Chilled water set point temperature
g. Verify functioning of “soft start” sequence.
Set point of VFD acceleration
Record actual time from start to constant speed
Final compressor RPM
Record peak amps during start up:
h. Shut off air handling equipment to remove load on chilled
water system. Verify chiller shutdown sequence is
initiated and accomplished after load is removed.
i. Restart air-handling equipment one minute after chiller shut down.
Record time compressor reaches 0 rpm.
Record time AHU restarted.
j. Verify condenser water pump, cooling tower, and chiller restart sequence.
Condenser water pump starts satisfactory
Chilled water pump starts satisfactory
Cooling tower fan starts satisfactory
Chiller starts satisfactory
2. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor’s Testing, Adjusting and
Balancing Representative
_____________________ _________
15. DESIGN CONSULTANT CRITERIA
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TG 15595 - 15
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
D. Functional Performance Test – Cooling Tower
For Cooling Tower: _______________________________________
1. Functional Performance Test: Contractor shall demonstrate operation of cooling
tower as per specifications and the following:
a. Activate cooling tower fan start using control system command through DDC
system. This should first start condenser water pump, establish flow and
starting of the fan start if the condenser water temperature exceeds the set
point
Fan Motor Amps
Condenser Supply Water temperature In
Degrees F:
Set point Test
b. Verify makeup water float valve is functioning at level
set point and overflow drain is free flowing:
c. Activate chemical treatment feed valve, verify makeup of chemical treatment
system, pump, and controls are operational.
Record conductivity.
Check solenoid valve for bleed off is operational.
Record set point for chemical addition (i.e. time or
conductivity level)
d. Entering condenser water temperature: °F
e. Leaving condenser water temperature: °F
f. Air volume measured: cfm
g. Air volume calculated: cfm
h. Entering dry/wet bulb temperature: / °F
i. Leaving dry/wet bulb temperature: / °F
j. Measured condenser water flow: gpm
2. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
16. DESIGN CONSULTANT CRITERIA
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TG 15595 - 16
E. Functional Performance Test – VAV Terminals
The Commissioning Agent will select the VAV terminals to be spot-checked during
the functional performance test. The number of terminals shall not exceed [10] per
floor.
1. Functional Performance Test: Contractor shall demonstrate operation of selected
VAV boxes as per specifications and the following:
a. Cooling only VAV boxes:
Verify VAV box responds to room temperature set point adjustment. Turn
thermostat to 5°F above ambient and measure maximum airflow. Turn
thermostat to 5°F below ambient and measure minimum airflow.
VAV Box Minimum CFM Maximum CFM
Tab Report Test Tab Report Test
Check Damper maximum/minimum flow settings:
VAV Box Minimum CFM Maximum CFM
Tab Report Test Tab Report Test
2. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
17. DESIGN CONSULTANT CRITERIA
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TG 15595 - 17
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
F. Functional Performance Test – Variable Volume Air Handling Unit
For Air Handling Unit: ___________________________________
1. Functional Performance Test: Contractor shall demonstrate operation of air
handling unit as per specifications including the following:
a. The following shall be verified when the supply fan operating mode is
initiated:
1) All valves in normal position. Set point equals °F
Record supply air temperature using installed
temperature sensor °F
Record supply air temperature using separate test
gauge within 5 feet of the installed sensor °F
2) VAV fan VFD controller shall “soft-start” fan
Final fan speed
Time of acceleration to operating speed
3) Modulate all VAV boxes to minimum air flow and verify that the static
pressure does not exceed the design static pressure Class shown.
Duct Pressure class upstream of VAV boxes: "w.g
Duct Static pressure at minimum air flow:
(Use installed static pressure controller) "w.g
Duct Static pressure at minimum air flow:
(Use test static pressure gauge) "w.g
b. Occupied mode of operation.
1) Exhaust fans energized.
2) Verify chilled water control valve modulating to
maintain leaving air temperature set point by varying
set point.
3) Verify VFD fan controller receiving signal from duct
static pressure sensor and modulating fan to maintain
supply duct static pressure set point.
CFM Signal Fan RPM
50% of full speed
100% speed
c. The following shall be verified when the supply fan off mode is initiated:
1) All valves in normal position.
2) Fan de-energizes and fan speed goes to zero.
d. Verify the chilled water coil control valve operation by setting all VAV’s to
maximum and minimum cooling.
Maximum Cooling Minimum Cooling
Supply air volume cfm
Supply air temp °F
VFD rpm
18. DESIGN CONSULTANT CRITERIA
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TG 15595 - 18
e. Verify safety shut down initiated by duct smoke detectors.
2. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
G. Functional Performance Test – Fan coil Unit
1. Functional Performance Test: Contractor shall demonstrate operation of selected
fan coils as per specifications including the following:
a. Cooling only fan coils:
1) Verify fan coil unit response to room temperature set
point adjustment. Changes to be cooling set point to
cooling set point minus 10°F and return to cooling set
point.
2) Check blower fan air flow at each speed cfm
3) Check cooling coil water flow gpm
4) Verify proper operation of cooling water control valve
b. Cooling fan coils:
1) Verify fan coil unit responds to room temperature set
point adjustment
2) Check blower fan airflow. cfm
3) Check cooling coil water flow gpm
4) Verify proper operation of cooling water control valve
by observing the valve movement when the set point
has been changed for the test
5) Check cooling mode inlet air temperature °F
6) Check cooling mode outlet air temperature °F
2. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
19. DESIGN CONSULTANT CRITERIA
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TG 15595 - 19
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
H. Functional Performance Test – HVAC DDC System
For HVAC DDC System: ___________________________________
The Commissioning Agent will select the number of points from the HVAC control
systems to undergo functional performance testing. The number of terminals shall
not exceed [10%] of the total shown on the points list
1. Functional Performance Test: Contractor shall demonstrate operation of the
HVAC controls by performing the following tests and measurements:
a. Verify that controller is maintaining the set point by manually measuring the
controlled variable with a thermometer, sling psychrometer, inclined
manometer, etc. or other calibrated device or meter that does not rely on the
DDC system for the reading.
b. Verify sensor and controller combination by manually measuring the
controlled medium using a separate device from the permanently installed
system device. Take readings from control panel display or the equivalent
readings from a remote lap top computer and compare readings taken
manually. Take reading from the sensor that supplies the reading to the
system and convert to the variable being displayed. Record all readings.
Point Sensor Reading Manual Measurement Panel Reading
c. Verify system stability by changing the control variable set point as follows:
1) Air temperature-10°F
2) Water temperature-10°F
3) Static pressure-10% of set point
The control system shall be observed for 10 minutes after the change in set
point. Instability or excessive hunting will be unacceptable. Report findings.
d. Verify interlock with other HVAC controls such as exhaust fan and supply fan
interlocks.
e. Verify interlock with fire alarm control panel.
f. Change controller set point by 10 percent with the DDC system or remote lap
top computer and verify the system responds correctly
20. DESIGN CONSULTANT CRITERIA
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TG 15595 - 20
2. Verify that the operation of the DDC system conforms to that specified in the
sequence of operation for start-up, shutdown and load variations.
3. Certification: We the undersigned have witnessed the above functional
performance tests and certify that the item tested has met the performance
requirements in this section of the specifications.
Signature Date
Contractor’s Chief Quality Control
Representative
_____________________ _________
Contractor’s Mechanical Representative _____________________ _________
Contractor’s Electrical
Representative
_____________________ _________
Contractor's Testing, Adjusting and
Balancing Representative
_____________________ _________
Contractor’s Controls
Representative
_____________________ _________
State’s Commissioning Agent
Representative
_____________________ _________
END OF SECTION 15995