2013 REFERENCE APPENDICES THE BUILDING ENERGY EFFICIENCY STANDARDS FOR RESIDENTIAL AND NONRESIDENTIAL BUILDINGS JOINT APPENDICES RESIDENTIAL APPENDICES NONRESIDENTIAL APPENDICES EFFECTIVE JANUARY 1, 2014 MAY 2012 CEC‐400‐2012‐005‐CMF-REV CALIFORNIA ENERGY COMMISSION Edmund G. Brown Jr., Governor John Laird Secretary for Natural Resources Agency CALIFORNIA ENERGY COMMISSION: Robert Weisenmiller, Ph.D. Chairman Commissioners: Andrew McAlister Karen Douglas, J.D. David Hochschild Janea A. Scott, J.D. Robert P. Oglesby Executive Director David Ashuckian Deputy Director Efficiency and Renewable Energy Division Bill Pennington Deputy Division Chief Efficiency and Renewable Energy Division Eurlyne Geiszler Office Manager High Performance Buildings Office Project Managers: Maziar Shirakh, P.E. Martha Brook, P.E. High Performance Buildings Office Acknowledgments The Building Energy Efficiency Standards (Standards) were first adopted and put into effect in 1978 and have been updated periodically in the intervening years. The Standards are a unique California asset and have benefitted from the conscientious involvement and enduring commitment to the public good of many persons and organizations along the way. The 2013 Standards development and adoption process continued that long-standing practice of maintaining the Standards with technical rigor, challenging but achievable design and construction practices, public engagement and full consideration of the views of stakeholders. The 2013 Standards revision and the supporting documents were conceptualized, evaluated and justified through the excellent work of Energy Commission staff and consultants working under contract to the Energy Commission, Pacific Gas and Electric Company, Southern California Edison Company, San Diego Gas and Electric Company, and Southern California Gas Company. At the Energy Commission, Maziar Shirakh, P.E.; and Martha Brook, P.E. served as the project managers and senior engineers. Bill Pennington, Deputy Division Chief of the Efficiency and Renewable Energy Division, provided overall guidance to the staff and consultants. Eurlyne Geiszler served as the Office Manager for the High Performance Buildings Office. Pippin Brehler and Kristen Driskell provided legal counsel to the staff. This document was created with the technical assistance from Martha Brook, PE, Sabaratnam Thamilseran, PE, David Ware; Nelson Pena, Rob Hudler; and Owen Howlett. Other key technical staff contributors included, Gary Flamm; Patrick Saxton P.E.; Jeff Miller, P.E.; Payam Bozorgchami, P.E.; Tav Commins; and Mark Alatorre. Additional staff input and assistance came from Ron Yasny; the Energy Hotline staff; and the Energy Commission’s Web Team. Critical support for the staff in conceptualizing, evaluating, and reviewing this document came from Architectural Energy Corporation, L’Monte Information Services, Gard Analytics, National Renewable Energy Laboratory, Hitchcock consulting, 360 Analytics, Wrightsoft Corporation, Taylor Engineering, McHugh Energy, Gabel Associates, Energy Solutions, E3, PECI, and the Heschong Mahone Group. The authors are grateful to the many people and organizations that contributed to the development and production of the Standards and the supporting documents. The documents reflect, to a large extent, the comments made by the many people who took time to carefully review earlier versions. Reviewers who significantly contributed to the content include members of CABEC and CALBO. Special thanks go to Panama Bartholomy, the former Deputy Director Efficiency and Renewable Energy Division for his vision and support of the 2013 Standards. The authors are grateful to the many people and organizations that contributed to the development and production of the Standards and the supporting documents. The documents reflect, to a large extent, the comments made by the many people who took time to carefully review earlier versions. Reviewers who significantly contributed to the content include members of CABEC and CALBO. Special thanks go to Panama Bartholomy, the former Deputy Director Efficiency and Renewable Energy Division for his vision and support of the 2013 Standards. The Energy Commission dedicates the adoption of the 2013 Building Energy Efficiency Standards to Valerie T. Hall, (November 28, 1952 - December 21, 2010), Deputy Director of the Efficiency and Renewable Energy Division for her more than 32 years of dedication to excellence in the development and implementation of energy efficiency programs in California with the most aggressive energy efficient building standards in the country and for being a model for others to follow. ABSTRACT   Public Resources Code Sections 25402 and 25402.1 were enacted in 1975 as part of the enabling  legislation establishing the California Energy Commission and its basic mandates.  These  sections require the Energy Commission to adopt, implement, and periodically update energy  efficiency standards for both residential and nonresidential buildings.      The Standards must be cost effective based on the life cycle of the building, must include  performance and prescriptive compliance approaches, and must be periodically updated to  account for technological improvements in efficiency technology.  Accordingly, the California  Energy Commission has adopted and periodically updated the Standards (codified in Title 24,  Part 6 of the California Code of Regulations) to ensure that building construction, system design  and installation achieve energy efficiency and preserve outdoor and indoor environmental  quality.  The Standards establish a minimum level of building energy efficiency.  A building can  be designed to a higher efficiency level, resulting in additional energy savings.    The 2013 Building Energy Efficiency Standards focus on several key areas to improve the  energy efficiency of newly constructed buildings and additions and alterations to existing  buildings, and include requirements that will enable both demand reductions during critical  peak periods and future solar electric and thermal system installations.  The most significant  efficiency improvements to the residential Standards are proposed for windows, envelope  insulation and HVAC system testing.  The most significant efficiency improvements to the  nonresidential Standards are proposed for lighting controls, windows, unitary HVAC  equipment and building commissioning.  New efficiency requirements for process loads such as  commercial refrigeration, data centers, kitchen exhaust systems and compressed air systems are  included in the nonresidential Standards.  The 2013 Standards include expanded criteria for  acceptance testing of mechanical and lighting systems, as well as new requirements for code  compliance data to be collected in a California Energy Commission‐managed repository.    The 2013 Standards also include updates to the energy efficiency divisions of the California  Green Building Code Standards (Title 24, Part 11).  A set of prerequisites has been established  for both the residential and nonresidential Reach Standards, which include efficiency measures  that should be installed in any building project striving to meet advanced levels of energy  efficiency.  The residential Reach Standards have also been updated to require additional  energy efficiency or on‐site renewable electricity generation to meet a specific threshold of  expected electricity use.  Both the residential and nonresidential Reach Standards include  requirements for additions and alterations to existing buildings.    Energy Commission staff estimates that the implementation of the 2013 Building Energy  Efficiency Standards may reduce statewide annual electricity consumption by approximately  613 gigawatt‐hours per year, electrical peak demand by 195 megawatts, and natural gas  consumption by 10 million therms per year.  The potential effect of these energy savings to air  quality may be a net reduction in the emission of nitric oxide by approximately 59 tons per year, sulfur oxides by 2.4 tons per year, carbon monoxide by 41 tons per year and particulate matter  less than 2.5 microns in diameter by 10 tons per year.  Additionally, Energy Commission staff  estimates that the implementation of the 2013 Standards may reduce statewide carbon dioxide  equivalent emissions by 215 thousand metric tons per year.       Energy Commission staff have completed an analysis of the environmental impacts of the  proposed 2013 Building Energy Efficiency Standards for residential and nonresidential  buildings.  In addition to air emissions, issues of on‐site water use, indoor air pollution and  changes in materials use including:  Mercury, Lead, Cooper, Steel, Plastic Silicon, Gold,  Aluminum, Fiber Glass, Titanium, Glass and Wood were considered.  It is the opinion of Energy  Commission staff that the potential environmental impacts that may be associated with the  implementation of the 2013 Building Energy Efficiency Standards are less than significant.   Therefore, Energy Commission staff recommends the adoption of a Negative Declaration for the  2013 Building Energy Efficiency Standards.      Key Words:  California Energy Commission,  California Building Energy Efficiency Standards  Title 24, Part 6  2013 Building Energy Efficiency Standards  California Green Building Code Standards  Title 24, Part 11  Negative Declaration  Residential  Nonresidential  Newly Constructed  Additions and Alterations to Existing Buildings  Mandatory  Prescriptive  Performance  Windows  Envelope Insulation  HVAC  Building Commissioning  Process Load  Commercial Refrigeration  Data Center  Kitchen Exhaust  Compressed Air  Acceptance Testing  Data Collection  Cool Roof Reach Standards  On‐site Renewable Electricity Generation  Giga‐watt hours  Mega‐Watt  Therms per year  Nitric Oxides  Sulfur Oxides  Carbon Monoxide  Carbone Dioxide Equivalent  NOx  SOx  CO  PM2.5  CO2e  Mercury  Lead  Cooper  Steel  Plastic   Silicon  Gold  Aluminum  Fiber Glass  Titanium  Glass  Wood  Time Dependent Valuation  TDV 2013 REFERENCE APPENDICES TABLE OF CONTENTS Joint Appendices JA1 – Glossary JA2 – Reference Weather/Climate Data JA3 – Time Dependent Valuation (TDV) JA4 – U-factor, C-factor, and Thermal Mass Data JA5 – Technical Specifications For Occupant Controlled Smart Thermostats JA6 – HVAC System Fault Detection and Diagnostic Technology JA7 – Data Registry Requirements JA8 – Qualification Requirements for Residential Luminaires Using LED Light Source JA9 – Qualification Requirements for Low Leakage Air-Handling Units .... Residential Appendices RA1 – Special Case Residential Field Verification and Diagnostic Test Protocols . RA2 – Residential HERS Verification, Testing, and Documentation Procedures RA3 – Residential Field Verification and Diagnostic Test Protocols RA4 – Eligibility Criteria for Energy Efficiency Measures Nonresidential Appendices NA1 – Nonresidential HERS Verification, Testing, and Documentation Procedures NA2 – Nonresidential Field Verification and Diagnostic Test Procedures NA3 – Fan Motor Efficiencies NA4 – Compliance Procedures for Relocatable Public School Buildings NA5 – RESERVED NA6 – Alternate Default Fenestration Procedure to Calculate Thermal Performance NA7 – Installation and Acceptance Requirements for Nonresidential Buildings and Covered Procssses NA8 –Luminaire Power JoINT APPENDICES 2013 Joint Appendices Appendix JA1-2 Joint Appendix JA Table of Contents  Appendix JA1 – Glossary ................................................................................................................................... 5  Appendix JA2 – Reference Weather/Climate Data ........................................................................................... 1  JA2.1  Weather Data - General ...................................................................................................................... 2  JA2.1.1 Counties and Cities with Climate Zone Designations ....................................................................... 3  JA2.2  California Design Location Data ........................................................................................................ 31  Appendix JA3 – Time Dependent Valuation (TDV) .......................................................................................... 1  JA3.1  Scope and Purpose ............................................................................................................................. 1  JA3.2  Summary of Data ................................................................................................................................. 1  Appendix JA4 – U-factor, C-factor, and Thermal Mass Data .......................................................................... 1  4.1 Scope and Purpose ..................................................................................................................................... 2  JA4.1.1 Introduction ....................................................................................................................................... 2  JA4.1.2 California Energy Commission Approved Software .......................................................................... 3  JA4.1.3 Tapered Insulation ............................................................................................................................ 7  JA4.1.4 Insulating Layers on Mass and Other Walls ..................................................................................... 7  JA4.1.5 Wood Based Sheathing R-values ..................................................................................................... 7  JA4.1.6 Framing Percentages for Calculating U-factors ................................................................................ 8  JA4.1.7 R-values and U-factors for Medium-Density Closed Cell and Low-Density Open Cell Spray Polyurethane Foam (SPF) Insulation: ............................................................................................................ 9  JA4.2  Roofs and Ceilings ............................................................................................................................ 11  JA4.3  Walls .................................................................................................................................................. 31  4.4 Floors and Slabs ........................................................................................................................................ 60  JA4.5  Miscellaneous Construction .............................................................................................................. 73  JA4.6 ................................................................................................................................................................ 74  Appendix JA5 - Technical Specifications For Occupant Controlled Smart Thermostats ........................... 1  JA5.1  Introduction .......................................................................................................................................... 2  JA5.2  Required Functional Resources .......................................................................................................... 2  JA5.2.1  Setback Capabilities ..................................................................................................................... 2  JA5.2.2  Communication Capabilities ......................................................................................................... 2  JA5.2.3  OCST Messages and Attributes ................................................................................................... 3  JA5.2.4  Event Response ........................................................................................................................... 3  JA5.2.5  Other Required Capabilities ......................................................................................................... 4  JA5.3  Functional Descriptions ....................................................................................................................... 4  JA5.3.1  Communications Interface ........................................................................................................... 4  Appendix JA1– Glossary