Standing Standard Project Committee 90.2 Informative Bibliography

Standing Standard Project Committee 90.2 informative bibliography.

The intent of developing and maintaining this listing of bibliographical references is for the benefit of the Standing Standard Project Committee 90.2 and other interested parties. The listing represents known published documents that were used in whole or part as supporting information for specific addenda. This listing is a live document and will be modified on an as-needed basis.

This bibliography is merely informative and does not contain requirements necessary for conformance to the standard. It has not been processed according to the ANSI requirements for a standard and may contain material that has not been subject to public review or a consensus process.

Standard 90.2-1993 Edition

Bibliography for Initial Document:
McBride, M.F., "Background, Development and Status of ASHRAE Standard 90.2P", Making Housing More Affordable Through Energy Efficiency, A Policy Forum and Conference, Organized by The Alliance to Save Energy, October, 4-6, 1989, Washington, DC.
McBride, M.F. and Powell, F.J., "Overview of the ASHRAE Standard 90.2 Development Process and Criteria", Energy, Moisture and Climate in Buildings, International CIB W67 Symposium, September, 3-6, 1990, Rotterdam The Netherlands.
McBride, M.F., "ASHRAE Standard 90.2 Envelope Criteria Optimization Technique", ASHRAE Transactions, No. 3479, Vol. 97, Part 1, 1991, pp. 337-344.
McBride, M.F., Wilcox, B.A., and Christian, J.E., "ASHRAE Standard 90.2 Envelope Load Factors and Trade-off Procedures", ASHRAE Transactions, Vol. 97, Part 2, 1991, pp. 928-940.
McBride, M.F., "The Use of Economic Analysis in Developing an Energy Standard: Lessons Learned", Insulation Materials: Testing and Applications, Volume 2, ASTM STP 116, R.S. Graves and D.C. Wysocki, Eds, American Society for Testing and Materials, Philadelphia, 1991, pp. 73-91.
Taylor, Z.T., Conner, C.C., Conover, D.R., and McBride, M.F., "Residential Energy Standards - A Crowded Market", American Council for an EnergyEfficient Economy, 1992 Summer Study on Energy Efficiency in Buildings, Asilomar Conference Center, Pacific Grove, CA, August 30 - September 5, 1992.
Howard, B.D. and McBride, M.F., "Better Building Codes for Energy Efficiency", ASHRAE Special Publication, Thermal Performance of the Exterior Envelopes of Buildings V, ASHRAE/DOE/BTECC Conference, Clearwater Beach, FL, December 7-10, 1992.
McBride, M.F., "ASHRAE Standard 90.2P Building Envelope Requirements", ASHRAE Special Publication, Thermal Performance of the Exterior Envelopes of Buildings V, ASHRAE/DOE/BTECC Conference, Clearwater Beach, FL, December 7-10, 1992.
Addenda to 90.2-1993 / Sections Affected / Description of Changes
90.2a / Table 5-1 and Section 10 (including references in the body of document) / Updated the referenced in Section 10 and the metal stud correction factors in Table 5-1.
Bibliography:
McBride, M.F., "Development of Cooling Degree Hour Weather Data for ASHRAE Standard 90.2-1993", Thermal Performance of the Exterior Envelopes of Buildings VI, ASHRAE, DOE, ORNL, and BETEC Conference, Clearwater Beach, FL, December 4-8, 1995.
Addenda to 90.2-1993 / Sections Affected / Description of Changes
90.2b / Section 5.9.2.3, Fenestration Load Change / Change to the fenestration trade-off equation.
Addenda to 90.2-1993 / Sections Affected / Description of Changes
90.2c / Sections 3.3, 5.2.1.2, 5.9, 6.3.1.2, 6.3.4.3, 6.4.1, 6.4.2.1, 6.5.1, 6.5.4.1, 7.4.1, 7.8, 8.8.2, 8.8.3, and 8.8.5.4. / Clarifies and enhances certain provisions related to the thermal envelope criteria, heat traps, and heating and air-conditioning equipment efficiencies, and revises certain requirements related to the calculation of thermal properties of building envelope components.
Addenda to 90.2-1993 / Sections Affected / Description of Changes
90.2d / Sections 1 and 2 / Changes the title, purpose, and scope of the standard to include alterations and additions.

Standard 90.2-2001 Edition

Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2a / Sections 5.3.9.1, 5.3.9.2, 5.3.9.3, 5.3.9.4, 5.3.10, 5.5.9.1, and 5.5.9.1 / This addendum adds a set of prescriptive requirements to assist the user in determining compliance for buildings with greater fenestration (glass area exceeding 125 ft2).
Addenda to 90.2-2001 / Sections Affected / Description of Changesa
90.2b / Section 5.2.2.1.4 and Table 5-1 / Changes to Section 5.2.2.1.4 and Table 5-1 reflect modification to the text to accurately depict the material under consideration in Table 5-1. Accomplished in part by substituting the word “Steel” for “Metal” and “Size of Members” to “Nominal Stud Size” to be more consistent with the steel industry terminology and dimensional designations as well as coordination with national model building codes and standards.
Addenda to 90.2-2001 / Sections Affected / Description of Changesa
90.2c / Sections 8.7.1, Ducts and 8.7.6, Doors / In Section 8.7.1, the ducts assumed for the reference building must be completely within the conditioned space. In much of the country where ducts are commonly located in unconditioned spaces, this requirement represents a disincentive to use the performance path of Section 8. The prescriptive requirements for buildings with ducts in unconditioned spaces are more stringent than those for buildings with ducts in the interior. Given the current understanding of the issue, the prescriptive requirements cannot be assumed to reflect the real impact of duct losses. To provide an incentive to move ducts indoors, the performance path must acknowledge the reality that ducts are commonly located in unconditioned spaces. The change will benefit builders who typically locate ducts in conditioned spaces and increase the benefits of the performance path. For those who typically locate ducts in unconditioned spaces, the proposed change will provide a strong incentive to move ducts inside. The change in Section 8.7.6 to the assumption of wood doors for the reference case removes a penalty for using the performance path, while recognizing the common practice of using wood entry doors.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2d / Sections 5.3.6 and 5.5.6 / This addendum pertains to slab-on-grade floor insulation. Structural damage has resulted in areas of heavy termite infestation traveling through or behind slab edge insulation and this addenda addresses this issue. Adds new Figure 5-17, Termite Map from CABO 1&2 Family Dwelling Code.
Bibliography:
CABO, One and Two Family Dwelling Code, Council of American Building Officials, Falls Church, VA, 1995.
ICC, International One and Two Family Dwelling Code, International Code Council, Falls Church, VA, 1998.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2e / Sections 7.1.3 and 8.9 / This addendum revises the calculation for domestic water heating and adds Section 7.1.3, Central Water Heating Equipment.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2f / Sections 5.3.1.1, 5.3.1.2, 5.5.1.1, 5.5.1.2, and 8.8.3.1 / This addendum pertains to reflective roofs. It allows a residential structure to consider the use of high-albedo roofs in hot and humid climates in order to reduce air-conditioning energy use.
Bibliography:
ASHRAE. 1998. “Energy Savings of Reflective Roofs, ASHRAE Technical Data Bulletin, Volume 14, Number 2, January.” American Society of Heating, Refrigerating and Air-conditioning Engineers, Atlanta, GA.
Akbari, H., and S. Konopacki. 1999. “Calculations for Reflective Roofs in support of Standard 90.2. A Technical Note Prepared for the Reflective Roof Task Group, June.”
Akbari, H., and S. Konopacki. 1999. “Reflective Roofs Task Group-ASHRAE SSPC90.2, Progress Report-June, 1999 ASHRAE Annual Meeting, Seattle, WA. A Report Prepared to the Reflective Roof Task Group, June.”
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2g / Sections 2.1, 3.3, 4.4.1.1.2, 5.2.2.2, 5.4, 5.6.2, 10, and Figure 4-1 / This addendum deletes all provisions, tables, figures and references that are solely associated with manufactured housing.
Bibliography:
HUD, “Overall U-Values and Heating/Cooling Loads – Manufactured Homes,” U.S. Department of Housing and Urban Development, Washington, DC, Document DOC-0005945, February, 1992.
ICC, “ICC ANSI 2.0-1998 Manufactured Housing Construction and Safety Standards (MHCSS),” International Code Council, Falls Church, VA, 1998.
NFPA, “NFPA 501 Standard on Manufactured Housing,” National Fire Protection Association, Quincy, MA, 2000 edition.
PNL, “Revision of the Energy Conservation Requirements in the Manufactured Home Construction and Safety Standards,” Pacific Northwest Laboratory, Contract DE-AC06-76RLO-1830, February, 1992.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2h / Sections 5.3.1.1, 5.3.1.2, 5.5.1.1, 5.5.1.2, 10 / This addendum applies to the changes published in Addendum f to ANSI/ ASHRAE Standard 90.2-2001. The Cool Roof Rating Council is a not-for-profit organization that was established for a number of purposes, one of which is to implement and communicate fair, accurate, and credible radiative energy performance rating systems for roof surfaces.
In 2002 the Cool Roof Rating Council completed its task of initiation a roofing product-rating program. The intent by the CRRC was to develop a roof product-rating program that was uniform for determining radiative properties of roofing products. The program allows manufactures and seller to have the opportunity to label their roofing products. The radiative properties (e.g. Solar reflectance and thermal emittance) are determined and verified through both laboratory testing and a process of random testing.
The addendum recommends recognition of this program in order to establish a common and uniform evaluation to determine compliance with the Standard.
Bibliography:
CRRC, “Cool Roof Rating Council – Product Rating Program, CRRC-1,” Cool Roof Rating Council, Oakland, CA, 2002.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2i / Chapters 1 through 10 and Normative Appendix A / The intent of this addendum is to develop a standard that contains only the essential information necessary to design and enforce energy conservation requirements for single-family houses and multi-family structures. This addendum, for example, replaces over 45 figures and tables regarding thermal envelope provisions with two tables. It eliminates commentary style and permissive language by substituting with mandatory language. It removes outdated infor mation and HVAC tables that are already covered by federal regulations.
Bibliography:
McBride, M.F., “Development of Revised Intercept Equations to Update ASHRAE Standard 90.2-2001 Envelope Criteria”, Performance of the Exterior Envelopes of Whole Buildings IX International Conference, ASHRAE, DOE, ORNL, and BETEC Conference, Clearwater Beach, FL, December 5-10, 2004.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2j / Section 6.4.1.2, Non-rated
Combinations / This addendum revises the requirements for verifying and documenting certified and uncertified equipment efficiencies.
Addenda to 90.2-2001 / Sections Affected / Description of Changes
90.2k / Section 6.3.2.1.1 and Tables 6-4a and 6-4b / This addendum deletes the current Section 6.3.2.1.1 and Tables 604a and 6-4b and establishes new requirements for pipe insulation.

Standing Standard Project Committee 90.2 – Bibliographical Listing

Last Updated: 15 MAY 2006

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