Publications

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Document type: Reports and Studies
Publication Date: January 2007
Page Focus: Compliance

A study of U.S. architects, electrical engineers, lighting designers, and building contractors and their attitudes and compliance rates; sponsored by the Architectural Products Magazine and the Lighting Controls Association. The purpose of the study was to discover to what extent commercial energy codes are being implemented and enforced.

Document type: Analysis, Technical Support Document
Publication Date: May 2015
Page Focus: Compliance

This report documents the technical analysis used to evaluate whether residential buildings constructed to meet the requirements of the 2015 IECC would result in energy efficiency improvements over residential buildings constructed to meet the requirements of the previous edition, the 2012 IECC.

Document type: Other
Publication Date: September 2012
Page Focus: Compliance

The compliance toolkit describes the steps that should be taken by the build community to make sure that their buildings meet the requirements of the energy codes in effect where the buildings are being built and that the building designs are well documented so that the enforcement community can quickly and easily determine if the building meets the requirement of the energy code.

This toolkit describes the steps that should be taken by the build community to make sure that their buildings meet the requirements of the energy codes in effect where the buildings are being built and that the building designs are well documented so that the enforcement community can quickly and easily determine if the building meets the requirement of the energy code.

Document type: Other
Publication Date: September 2012
Page Focus: Adoption, Code Development, Compliance, Enforcement

Buildings account for almost 40% of the energy used in the United States and, as a direct result of that use, our environment and economy are impacted. Building energy codes and standards provide an effective response. The Building Energy Codes Program designed the Adoption, Compliance, and Enforcement (ACE) Learning Series for those in the building industry having the greatest potential to influence the adoption of and compliance with building energy codes and standards. Each toolkit in the ACE Learning Series delivers essential information to enable designers, specifiers, builders, building owners, policy makers, code officials, and others involved in building design and construction to understand the important role building energy codes play in helping us all address our energy, economic, and environmental challenges.

Document type: Other
Publication Date: September 2013
Page Focus: Compliance

This document, concerning Activities and Methodology for Assessing Compliance with Building Energy Codes, is an action issued by the Department of Energy. Though it is not intended or expected, should any discrepancy occur between the document posted here and the document published in the Federal Register, the Federal Register publication controls. This document is being made available through the Internet solely as a means to facilitate the public's access to this document.

[6450-01-P]
DEPARTMENT OF ENERGY
Office of Energy Efficiency and Renewable Energy
[Docket No. EERE-2013-BT-BC-0036]
Activities and Methodology for Assessing Compliance with Building Energy Codes
AGENCY: Office of Energy Efficiency and Renewable Energy, Department of Energy.
ACTION: Notice of reopening of public comment period.

Document type: Other
Publication Date:
Page Focus: Adoption, Compliance

The Advanced Energy Design Guides (AEDGs) are a series of publications designed to provide recommendations for achieving energy savings over the minimum code requirements of ASHRAE Standard 90.1. This is the first step in the process toward achieving a net zero energy building—defined as a building that, on an annual basis, draws equal or less energy from outside resources than it provides using on-site, renewable energy sources. The guides have been developed in coordination with the following organizations: the American Institute of Architects, the Illuminating Engineering Society of North America, the U.S. Green Building Council, and the U.S. Department of Energy. The New Building Institute participated in the development of the initial guide.

More information on the AEDGs may be found on the Building Technologies Office Commercial Buildings website.

...

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on cool roofs, which are recommended for metal building roofs and roofs with insulation entirely above deck.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on heating and cooling system design loads for the purpose of sizing systems and equipment should be calculated in accordance with generally accepted engineering standards and handbooks such as ASHRAE Handbook--Fundamentals.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on expanded recommendations for daylighting controls; photo sensor placement; calibration and commissioning; daylight levels.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on glazing; glare and contrast; window design and placement.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on visual light transmission; window and office placement; glazing; etc.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on ductwork distribution; duct insulation; duct sealing and leakage; fan motors

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on exterior lighting power; decorative façade lighting; sources.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on mass floors; steel joist or wood frame floors; slab-on-grade floors.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on lighting walls and ceilings; task lighting; reflectances; lamps and ballasts; occupancy sensors; multi-level switching; electric lighting and daylight controls; exit signs.

Document type: AEDG Implementation Recommendations
Publication Date: May 2010
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on the 0.9 W/ft2 foot goal for lighting power which represents an average lighting power density for the entire building. An example design describes one way (but not the only way) that this watts-per-square-foot limit can be met.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on noise path for heating, ventilation, and air conditioning units.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on insulation entirely above-deck; metal buildings; attics and other roofs; single-rafter roofs.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on service water heating types; sizing; equipment efficiency; location; pipe insulation.

Document type: AEDG Implementation Recommendations
Publication Date: April 2008
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on testing, adjusting, and balancing; heating sources; filters.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on ventilation air; exhaust air; control strategies; carbon dioxide sensors; economizers.

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on mass walls; metal building, steel framed, wood frame and other walls

Document type: AEDG Implementation Recommendations
Publication Date: May 2009
Page Focus: Compliance

The Advanced Energy Design Guide (AEDG) for Small Office Buildings, 30% series, seeks to achieve 30% savings over ASHRAE Standard 90.1-1999. This guide focuses on improvements to small office buildings, less than 20,000ft2. The recommendations in this article are adapted from the implementation section of the guide and focus on thermal zones and zone temperature control.

Document type: Resource Guide
Publication Date: September 2011
Page Focus: Compliance

The U.S. Department of Energy (DOE) recognizes the enormous potential that exists for improving the energy efficiency, safety and comfort of homes. The 2012 International Energy Conservation Code (IECC) sets the bar for energy efficiency, and air sealing requirements are one of the key provisions.

This guide is a resource for understanding the air leakage requirements in the 2012 IECC and suggestions on how these measures can be met. It also provides information from Building America’s Air Sealing Guide, best Practices and case studies on homes that are currently meeting the provisions. The 2012 IECC and a few International Residential Code requirements are referenced throughout the guide.

Document type: Other, Program Information, Reports and Studies
Publication Date: February 2010
Page Focus: Adoption, Code Development, Compliance

In order to provide a basic introduction to the varied and complex issues associated with building energy codes, the U.S. Department of Energy’s Building Energy Codes Program, with valued assistance from the International Codes Council and ASHRAE, has prepared Building Energy Codes 101: An Introduction. This guide is designed to speak to a broad audience with an interest in building energy efficiency, including state energy officials, architects, engineers, designers, and members of the public.

Document type: Resource Guide
Publication Date: June 2011
Page Focus: Adoption, Code Development, Compliance

This guide provides key information to policy makers on energy codes and standards and offers guidance on how policy makers can support the creation of statewide energy efficiency goals and standards. In addition, this guide instructs policy makers on how they can:

  • Encourage the adoption of statewide codes.
  • Establish energy code awareness programs.
  • Support enforcement of and compliance with energy codes.
  • Participate in the development of model codes and standards.
  • Determine the viability of the new code.
Document type: Resource Guide
Publication Date: September 2011
Page Focus: Compliance

This guide provides key information on energy codes tailored for architects and provides guidance on how they can support the adoption of new or updated energy codes and the resources needed to ensure compliance with what is adopted. The guide also includes information on the importance of architects in the development and compliance verification processes; information on the interface between codes and the design process; design and compliance tools; information on building construction and commissioning, and many other resources that are key to helping architects understand the important role energy codes through the design process play in addressing our energy, economic and environmental challenges.

Document type: Technical Support Document
Publication Date: October 2009
Page Focus: Compliance

You can use COMcheck™ to demonstrate that your commercial or high-rise residential building design complies with the ASHRAE Standard 90.1-2004 and ASHRAE Standard 90.1-2007.

The COMcheck software provides a highly flexible way to demonstrate compliance with minimal input. The envelope section allows tradeoffs between envelope components, including roofs, walls, windows, floors, and skylights. The lighting section enables you to quickly determine if your lighting design meets interior-lighting power limits. The mechanical section enables you to assemble a customized list of code requirements that are applicable to the systems and equipment in your building.

Publication Date: June 2013
Page Focus: Compliance
Document type: Reports and Studies
Publication Date: September 2011
Page Focus: Adoption, Compliance

Conformity assessment is a term used to describe the processes followed to demonstrate that a product, service, management system, or body meets specified requirements, such as standards, codes, laws, regulations, or other criteria. With respect to energy codes, conformity assessment includes all activities and tasks undertaken by any number of entities to ensure that the provisions of an adopted energy code are achieved at a designated point in time. This report identifies and discusses conformity assessment activities and provides guidance for developing new or adjusting existing ways of verifying compliance. In addition, this report looks at different ways to ensure that the energy efficiency goals of an adopted code or standard are achieved.

Document type: Brochures/Fliers, Program Information
Publication Date: July 2011
Page Focus: Adoption, Code Development, Compliance

As our country continues to focus on saving energy and reducing emissions in the face of global climate change, it is turning to the building sector for viable solutions. The effects of energy use in residential and commercial buildings are nationwide, worldwide and varied. In the U.S. alone, residential and commercial buildings account for 40% of all energy consumption and 70% of electricity usage.

Document type: Reports and Studies
Publication Date: May 2014
Page Focus: Adoption, Code Development, Compliance, Residential

Pacific Northwest National Laboratory analyzed the relationship between the Residential Energy Services Network (RESNET) Home Energy Rating System (HERS) Index and the traditional simulation-based Performance Path used in the International Energy Conservation Code (IECC). The analysis evaluates, for a single-family residence with various characteristics, the ranges of HERS Index values that would imply compliance with the 2012 IECC Performance Path. Several building characteristics considered likely to result in quantifiable differences in the outcomes of the two approaches, or otherwise believed to be of interest to code developers and policy makers, are considered in the analysis.

Document type: Resource Guide
Publication Date: September 2011
Page Focus: Compliance

Ensuring compliance with HVAC control requirements is difficult, as controls can be difficult to identify on plans or in the building, yet it is a crucial task. HVAC controls are a key driver of building performance and without compliance and enforcement activities, the code requirements may be ignored, overlooked, or misunderstood.

This guide provides an aid that will make it easier to apply the heating, ventilation, and air conditioning (HVAC) control requirements found in building energy codes and addresses requirements defined by 2009 and 2012 editions of the International Energy Conservation Code (IECC) and ASHRAE Standard 90.1-2007 and ASHRAE Standard 90.1-2010.

Document type: Analysis
Publication Date: October 2016
Page Focus: Adoption, Compliance, Enforcement

Pacific Northwest National Laboratory (PNNL), funded by DOE, conducted an assessment of the prospective impacts of national model building energy codes from 2010 through 2040. A previous PNNL study evaluated the impact of the Building Energy Codes Program1; this study looked more broadly at overall code impacts. This report describes the methodology used for the assessment and presents the impacts in terms of energy savings, consumer cost savings, and reduced CO2 emissions at the state level and at aggregated levels.

Document type: Analysis, Reports and Studies
Publication Date: March 2017
Page Focus: Adoption, Compliance

This study used a three-step process to evaluate the degree to which high-impact controls requirements included in commercial energy codes are realizing their savings potential. The three-step process included: (1) interviews of commissioning agents; (2) field audits of a sample of commercial buildings to determine how well control measures are being designed, commissioned and correctly implemented; and (3) analysis of the information gathered.

Document type: Code Notes
Publication Date: August 2012
Page Focus: Compliance

The intent of the pipe insulation requirements is to reduce temperature changes while fluids are being transported through piping associated with heating, cooling or service hot water (SHW) systems, thereby saving energy and reducing operating costs.

Document type: Code Notes
Publication Date: August 2012
Page Focus: Compliance

The intent of the pipe insulation requirements is to reduce temperature changes while fluids are being transported through piping associated with heating, cooling or service hot water (SHW) systems, thereby saving energy and reducing operating costs.

Document type: Resource Guide
Publication Date: September 2012
Page Focus: Adoption, Code Development, Compliance

This guide provides information for anyone dealing with a lighting energy code or standard. It provides background and development information to help readers understand the basis for requirements and their intent. The guide also provides detailed explanations of the major types of requirements such that users can more effectively design to meet compliance while applying the most flexibility possible.

Document type: Compliance Tool
Publication Date: October 2010
Page Focus: Compliance

This document contains a flier and letter templates for use by states.

Example:

Buildings account for roughly 40 percent of the nation’s energy consumption. Enhancing their efficiency will lead to a stronger economy, a cleaner environment, and decreased dependence on imported oil. With this goal in mind, the (state organization), with support from the U.S. Department of Energy’s Building Energy Codes Program (BECP), is asking local jurisdictions to participate in a statewide study to measure compliance rates with building energy codes. This letter is meant to familiarize you with the study and to solicit your support for this important activity.

Document type: Compliance Tool, Reports and Studies
Publication Date: March 2010
Page Focus: Compliance

In this document, the U.S. Department of Energy's Building Energy Codes Program provides a detailed set of procedures that may help states as they engage in activities in support of code implementation and enforcement as well as measurement of the compliance rate associated with the codes and standards named in legislation, most notably those associated with measuring and reporting rates of compliance.

Document type: Compliance Tool, Reports and Studies
Publication Date: March 2010
Page Focus: Compliance

To supplement the Measuring State Energy Code Compliance report, this user-friendly action plan summarizes the main procedures, shows further options, and points to several ready-made resources and web-based tools U.S Department of Energy's Building Energy Codes Program is releasing to support the process.

Document type: Technical Support Document
Publication Date: September 2012
Page Focus: Compliance

This report explains the methodology used to develop Version 4.4.3 of the REScheck software developed for the 1992, 1993, and 1995 editions of the MEC, and the 1998, 2000, 2003, 2006, 2007, 2009, and 2012 editions of the IECC, and the 2006 edition of the International Residential Code (IRC). Although some requirements contained in these codes have changed, the methodology used to develop the REScheck software for these editions is similar. Beginning with REScheck Version 4.4.0, support for 1992, 1993, and 1995 MEC and the 1998 IECC is no longer included, but those sections remain in this document for reference purposes.

Document type: Compliance Tool
Publication Date: June 2012
Page Focus: Compliance

In supporting state energy code compliance evaluations, the U.S. Department of Energy's Building Energy Codes Program (BECP) has developed residential data collection checklists. The checklists are available for use as paper checklists or electronic Microsoft® Word® forms.

Guidelines for using the following checklists to evaluate state energy code compliance can be found in Measuring State Energy Code Compliance, Section 6.0.

The BECP also developed an online tool, the Checklist Score + Store (no longer supported). While overall compliance can be determined manually for individual buildings and groups of renovations, this tool provides automated building scores and state-wide consolidation of data. Individual building scores will remain confidential (available only to the state and their contractors), but storing data nationally will shed valuable light on nationwide compliance,...

Document type: Reports and Studies
Publication Date: February 2007
Page Focus: Compliance

The primary goal of this paper was to review existing energy code evaluation studies, and make recommendations for future work in this area. The secondary purpose is to address this existing body of literature as it relates to the quantification of the savings gap, defined as the energy savings foregone due to non-compliance with the energy code adopted in a state or local jurisdiction.

Document type: Compliance Tool
Publication Date: September 2010
Page Focus: Compliance, Residential

This document contains sample survey questions designed for use by states wishing to conduct a survey of their building jurisdictions as one method of better understanding energy code compliance rates in their state.

Document type: Technical Support Document
Publication Date: September 2012
Page Focus: Compliance

This technical support document (TSD) is designed to explain the technical basis for the COMcheck software as originally developed based on the ANSI/ASHRAE/IES Standard 90.1-1989 (Standard 90.1-1989). Documentation for other national model codes and standards and specific state energy codes supported in COMcheck has been added to this report as appendices. These appendices are intended to provide technical documentation for features specific to the supported codes and for any changes made for state-specific codes that differ from the standard features that support compliance with the national model codes and standards. Beginning with COMcheck version 3.8.0, support for 90.1-1989, 90.1-1999, and the 1998 IECC and version 3.9.0 support for 2000 and 2001 IECC are no longer included, but those sections remain in this document for reference purposes.

Document type: Technical Support Document
Publication Date: November 2006
Page Focus: Compliance

This Technical Support Document describes the process and methodology for the development of the Advanced Energy Design Guide (AEDG) for Small Office Buildings, a design guidance document intended to provide recommendations for achieving 30% energy savings in small office buildings over levels contained in ASHRAE Standard 90.1- 1999. This the first in a series of guides being developed by a partnership of organizations, including ASHRAE, the American Institute of Architects, the Illuminating Engineering Society of North America, the New Buildings Institute, and the U.S. Department of Energy.