Building Commissioning
Last updated: 10-02-2008
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Introduction
Building Commissioning is a rapidly emerging A-E-C project management practice that is being embraced by public and private organizations because of its benefits in improved project delivery results.
This section of WBDG organizes commissioning information, guidance, and resources under three broad principles, including Determine Project Performance Requirements, Plan the Commissioning Process, and Document Compliance and Acceptance. It is important to note that all three principles are applied over the life-span of a capital design and construction project, and that it takes a multi-disciplined effort involving owners, design professionals, constructors, and commissioning providers to achieve optimal results from the commissioning process.
This WBDG page provides an overview of commissioning drivers, benefits, goals, and principles and general commissioning guides, standards, and resources.
Definition
ASHRAE Guideline 0, The Commissioning Process, defines commissioning as "a quality-oriented process for achieving, verifying, and documenting that the performance of facilities, systems, and assemblies meets defined objectives and criteria". Commissioning is therefore an "umbrella" process for all the planning, delivery, verification, and managing risks to critical functions performed in, or by, facilities. Commissioning uncovers deficiencies in design or installation using peer review and field verification. Commissioning also accomplishes higher energy efficiency, environmental health, and occupant safety and improves indoor air quality. Commissioning is a quality assurance-based process that delivers preventive and predictive maintenance plans, tailored operating manuals, and training procedures. Essentially, the commissioning process formalizes review and integration of all project expectations during planning, design, construction, and occupancy phases by inspection and functional performance testing, and oversight of operator training and record documentation.
Commissioning Definitions (PDF 26 KB, 3 pgs)
Benefits
Commissioning assists in the delivery of a project that provides a safe and healthful facility; optimizes energy use; reduces operating costs; ensures adequate O&M staff orientation and training; and improves installed building systems documentation.
Commissioning benefits owners' through improved energy efficiency, improved workplace performance due to higher quality environments, reduced risk from threats, and prevention of business losses. Organizations that have researched commissioning claim that owners can achieve savings in operations of $4 over the first five years of occupancy as a direct result of every $1 invested in commissioning—an excellent return on investment. Meanwhile, the cost of not commissioning is equal to the costs of correcting deficiencies plus the costs of inefficient operations. For mission-critical facilities, the cost of not commissioning can be measured by the cost of downtime, which reaches an average of $26 thousand per hour for the package shipping industry, $89.5 thousand per hour for airline reservation operations, and $6.45 million per hour for brokerage operations, according to the research firm Dataquest.
Drivers
Governmental projects commonly employ commissioning because mission critical facilities support essential public infrastructures. Corporations use commissioning on projects to prevent "down-time" that can adversely impact bottom lines and business continuity. Manufacturers use commissioning because of high levels of environmental controls needed in process manufacturing and to ensure occupational safety in hazardous settings. While projects with special performance needs require commissioning, all projects can potentially need some level of commissioning.
In addition to the performance needs of mission-critical facilities, another factor driving demand for commissioning is the desire to obtain certification through the U.S. Green Building Council (USGBC) Leadership in Energy and Environmental Design (LEED) program and the Green Building Initiative's Green Globes program. These rating systems were developed to improve energy efficiency and environmental performance in buildings—and commissioning is a prerequisite for LEED certification and a requirement in Green Globes. A building certified to these rating systems might include highly efficient power and lighting systems, photovoltaic and active/passive solar technologies. From an owner's perspective, investment in such sophisticated building technologies must be accompanied by rigorous construction quality assurance and performance verification measurement, which are best provided by the commissioning process. Commissioning beyond the basic prerequisite requirement can earn an additional LEED point.
Green design helps reduce building costs while providing for a more comfortable indoor environment, research indicates. Investing in green construction pays for itself 10 times over, according to an October 2003 study prepared for a group of more than 40 California government agencies. The study, conducted by the Capital E Group at Lawrence Berkeley National Laboratory with input from a number of state agencies, reflects the most definitive cost-benefit analysis of green building to date.
Commissioning Goals
Commissioning is often misinterpreted to focus solely on testing during the end of the construction phase. But commissioning is actually a collaborative process for planning, delivering, and operating buildings that work as intended. ASHRAE (The American Society of Heating, Refrigeration and Air-Conditioning Engineers) defines commissioning as "…the process of ensuring that systems are designed, installed, functionally tested, and capable of being operated and maintained to perform in conformity with the design intent… Commissioning begins with planning and includes design, construction, start-up, acceptance and training, and can be applied throughout the life of the building." This definition accurately depicts commissioning as a holistic process that spans from pre-design planning to post-construction operation and can be thought of as a checks-and-balances system. Accordingly, the goals of commissioning are to:
- Define and document requirements clearly at the outset of each phase and update through the process
- Verify and document compliance at each completion level
- Establish and document commissioning process tasks for subsequent phase delivery team members
- Deliver buildings and construction projects that meet the owner's needs, at the time of completion
- Verify that operation and maintenance personnel and occupants are properly trained
- Maintain facility performance across its life cycle
Commissioning Principles
Regardless of the extent of commissioning that is determined as appropriate for a project (Number or complexity of systems commissioned) and the approach utilized (Independent Commissioning Authority (CA), A-E/CA, CM/CA or Owner/CA), there are three overarching principles in the Commissioning Process that begin at project inception and continue through Occupancy and Operations.
Determine Project Performance Requirements
Every project goes through Pre-Design and Design Stages that establish an owner's needs, goals, scope, and design solutions for a proposed project. Proposed designs and constructed work can only be evaluated against objective criteria and measures that are embodied in well-documented project requirements. Project development is an "iterative" process where building performance decisions are refined to successive levels of detail over the course of project delivery. Key commissioning activities supporting this principle include:
- Understand Needs of Special Building Types
- Define Threats, Risks, and Consequences
- Determine Key Program Goals and Objectives
- Recognize Systems Criticality to Achieving Goals
- Conduct Key Commissioning Programming Activities
Plan the Commissioning Process
Commissioning involves the systematic process of planning delivery team member roles and responsibilities and tasks for all project phases and activities, including review and acceptance procedures, documentation requirements, development and approval of Commissioning Plans, Commissioning Schedules, and Testing and Inspection plans. Planning the Commissioning Process includes identification of special testing needs for unique or innovative assemblies and measures that will assure adequate O&M Training. Key commissioning activities supporting this principle include:
- Establish Goals for Quality, Efficiency, and Functionality
- Establish a Commissioning Approach and Scope
- Establish Commissioning Budgets
- Establish Commissioning Plans
- Establish Commissioning Schedules
- Establish Testing and Inspection Plans
- Develop Commissioning Specifications
- Determine Special Testing Needs
- Establish Re-Commissioning Plans
Document Compliance and Acceptance
Commissioning serves as the historical record of an owner's expectations for project performance throughout the project delivery process. The purpose of commissioning documenting is to record the "Why, How, and What" of key delivery team decisions throughout the planning and delivery process. Commissioning documents the establishment of standards of performance for building systems, and verifies that designed and constructed work meets those standards. Key commissioning activities supporting Document Compliance and Acceptance include:
- Document all Levels of Project Development and Acceptance
- Emphasize Inspection, Testing, and Training on Commissioned Systems
- Compile Key Commissioning Documentation
Application
Currently, no building code requirements exist at a national level for Building Commissioning. However, all new or renovation building programs can benefit from some level of commissioning, depending on mission and systems criticality. Recent case studies conducted in private sector facilities have shown that the Building Commissioning Process can improve new building energy performance by 8% to 30%. Similar results can be expected in other facilities. For complex building types with highly integrated building systems, formal Building Commissioning Processes will prove most valuable. Mission Critical Facilities have special needs for protecting their mission continuity and occupants.
Some governmental agencies, including GSA, NAVFAC, and USACE have adopted formal requirements, standards or criteria for commissioning of their capital construction projects. However, the extent of commissioning utilized will depend on project funds available.
Industry Guidelines
This section of the Whole Building Design Guide is based primarily on the Commissioning Process recommended in ASHRAE Guideline 0 - 2005. It is highly recommended that project teams who employ the Building Commissioning Process should follow the process outlined in ASHRAE Guideline 0. Guideline 0 has been adopted by both ASHRAE and NIBS and does not focus upon specific systems or assemblies, but presents a standard process that can be followed to commission any building system that may be critical to the function of a project. The NIBS Total Building Commissioning Program is currently working with industry organizations to develop commissioning guidelines for various systems and assemblies.
NIBS Guideline 3 (Draft Version)—Total Building Commissioning (TBC) Process
Conclusion
The commissioning process can be applied in a variety of approaches focusing on building systems/assemblies and can be customized to suit project needs. But regardless of commissioning approach and system focus, it always requires clear definition of performance expectations, rigor in planning and execution, and thorough project testing, operational training, and documentation.
Relevant Codes and Standards
- ASHRAE Guideline 0-2005: The Commissioning Process—the industry-accepted Commissioning Guideline.
- NIBS Guideline 3-2006: Exterior Enclosure Technical Requirements for the Commissioning Process, National Institute of Building Sciences, 2006.
- The Building Commissioning Guide, U.S. General Services Administration, 2005.
Additional Resources
Agencies
- California Commissioning Collaborative—a group of government, utility, and building-services professionals committed to developing and promoting commissioning practices in California
- Commissioning For Better Buildings in Oregon by Oregon Office of Energy / PECI, 1997. New construction overview, benefits, process and case studies. 44 pp.
- Energy Design Resources—Sponsored by Pacific Gas and Electric Company, San Diego Gas & Electric, Southern California Edison, and Southern California Gas.
- Federal Energy Management Program—Offers programs and resources for energy efficiency in operation of federal facilities.
- Oregon Office of Energy—Benefits of Commissioning, case study, tool kit of new and existing commissioning application materials, and the full text of Commissioning for Better Buildings in Oregon
- Portland Energy Conservation, Inc.
Department of Energy publications
- Continuous Commissioning Guidebook for Federal Managers, October 2002
- Commissioning commercial buildings
- Commissioning R & D
Organizations
- ASHRAE—A leading organization in the development of standardized commissioning guidelines
- Building Commissioning Association—A leading professional association for membership and certification of building commissioning practitioners
- Commissioning Specialist's Association (UK)
- The Green Building Initiative
- U.S. Green Building Council
Publications
- Building Commissioning: The Key to Quality Assurance (PDF 1 MB) U.S. Department of Energy Rebuild America Guide Series, 1998. Commissioning retrofits and existing buildings: overview, process, and case studies. 77 pp, PECI.
- The Building Commissioning Handbook 2nd Edition, by John A. Heinz, PE and Richard B. Casault, PE.
- Commissioning Four New Science Laboratory Buildings (U. of WA) by Bonneville Power Admin. / Phoebe Caner, Portland Energy Conservation Inc., 1997. Commissioning case studies with detailed "lessons learned" information. ~70 pp. Phone: (503) 230-7334.
- Commissioning Guide by Public Works Canada, Western Region. 1993. Phone: (403) 497-3770.
- Commissioning Guidelines, Instructions for Architects and Engineers by State of Washington, Dept. of General Administration, Division of Engineering & Architectural Services, 1995. Phone: (360) 902-7272.
- The Cost-Effectiveness of Commercial-Buildings Commissioning: A Meta-Analysis of Energy and Non-Energy Impacts in Existing Buildings and New Construction in the United States by Evan Mills, Norman Bourassa and Mary Ann Piette of Lawrence Berkeley National Laboratory, Hannah Friedman and Tudi Haasl of Portland Energy Conservation Inc., Tehesia Powell and David Claridge of Energy Systems Laboratory, Texas A&M University. December 2004.
- Guidelines for Incorporating Commissioning into Energy Savings Performance Contracts (PDF 258 KB) PECI, October 2000.
- A Practical Guide for Commissioning Existing Buildings by Tudi Haasl of Portland Energy Conservation Inc. and Terry Sharp of Oak Ridge National Laboratory. April 1999.
- National Clearinghouse for Educational Facilities (NCEF)—publications on commissioning
- What Commissioning Can Do For Your Building? (PDF 10 MB) PECI, 1997. Derived from a database of 175 case studies of commissioning of new construction, equipment replacements, and upgrades in existing facilities. 12 pp. Phone: (503) 248-4636.
Training and Other Resources
- ASHRAE Learning Institute—offers an ongoing series of commissioning workshops
- Building Commissioning Association
- NCBC—a national conference on building commissioning incorporating integrated research, development, initial deployment, and information on building commissioning
- Portland Energy Conservation, Inc. (PECI)—Provides workshop announcements and conference information, E-mail: peci@peci.org
- University of Wisconsin-Madison – Department of Engineering Professional Development—Offers several commissioning courses and Commissioning Process Certifications.