Manufactured Home Construction and Safety Standards
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Final rule.
CFR Part: "24 CFR Part 3280"
RIN Number: "RIN 2502-AI71"
Citation: "78 FR 73966"
Document Number: "Docket No. FR-5221-F-02"
"Rules and Regulations"
SUMMARY: This final rule amends the
   DATES: Effective Date:
   FOR FURTHER INFORMATION CONTACT:
   SUPPLEMENTARY INFORMATION:
I. Background
   
   As amended, the purposes of the Act (enumerated at 42 U.S.C. 5401) are: "(1) to protect the quality, durability, safety, and affordability of manufactured homes; (2) to facilitate the availability of affordable manufactured homes and to increase homeownership for all Americans; (3) to provide for the establishment of practical, uniform, and, to the extent possible, performance-based Federal construction standards for manufactured homes; (4) to encourage innovative and cost-effective construction techniques for manufactured homes; (5) to protect residents of manufactured homes with respect to personal injuries and the amount of insurance costs and property damages in manufactured housing consistent with the other purposes of this section; (6) to establish a balanced consensus process for the development, revision, and interpretation of Federal construction and safety standards for manufactured homes and related regulations for the enforcement of such standards; (7) to ensure uniform and effective enforcement of Federal construction and safety standards for manufactured homes; and (8) to ensure that the public interest in, and need for, affordable manufactured housing is duly considered in all determinations relating to the Federal standards and their enforcement."
   In addition, the amended Act generally requires HUD to establish Construction and Safety Standards that are reasonable and practical, meet high standards of protection, are performance-based, and are objectively stated.
   The MHCC held its first meeting in
   Based upon HUD's review of this rulemaking, HUD has decided not to include in this final rule certain revisions contained in the proposed rule due to overlapping jurisdiction and potential conflicts with pending regulations for improving energy efficiency in manufactured homes being prepared by DOE under the
   FOOTNOTE 1 HUD is substituting a table for this section. END FOOTNOTE
   HUD has also decided not to include in this final rule proposals to create a separate formaldehyde emissions limit for particleboard flooring materials of 0.2 ppm and adding medium density fiberboard materials (MDF) as a formaldehyde-regulated material with an emissions limit of 0.3 ppm. HUD is taking this action in view of its statutory requirement to develop reduced formaldehyde emission standards for composite wood products used in manufactured homes that reflect the national standards for formaldehyde emissions from those products that is currently being developed by the
   Finally, in consideration of the public comments and HUD's experience implementing the program, HUD has also made certain editorial revisions to other sections in the proposed rule. In general, the revisions adopt changes to the codified regulations that reflect code revisions adopted by private standard-setting organizations. HUD declined to adopt some standards in selected instances based on such considerations as cost and public safety. In addition, HUD has decided at this time not to adopt the some code revisions because they have been implemented for only a short period of time and their effect is uncertain.
II. Analysis of Public Comments
The Commenters
   The public comment period on the proposed rule closed on
   The commenters were generally supportive of the proposed rule but offered specific recommendations to particular sections of the construction and safety standards. For instance, they supported the proposal's recognition of model codes and other standards and the potential benefit of uniform and effective enforcement of Federal construction and safety standards for manufactured homes. One commenter, for example, stated that the regulation's safety driven requirements will prevent, mitigate, or reduce the number of injuries to people living in HUD-constructed homes and promote honesty among contractors who are inclined to take short cuts that frequently create safety hazards and/or substandard conditions for the people who reside in the homes. Nevertheless, the commenters raised a number of technical cost and safety issues that are discussed in the following section. The following is a summary of the comments received on the proposed rule:
   Comment: Requirements for code references for similar building materials should be consistent with the International Residential Code. One commenter noted that it would be preferable for requirements for manufactured housing that are consistent with code references and with requirements for similar materials and building elements regulated by the International Residential Code (IRC), for consistency of enforcement by various compliance authorities. It was noted that standards contained in the proposed rule for areas such as glazing and water conservation were consistent with the IRC. However, the commenter noted there were inconsistencies between the proposed rule and the IRC, including, for example, alternate test methods in the IRC for determining flame spread ratings of thermal insulating materials.
   Response: This recommendation was not accepted by HUD. HUD did not include certain IRC standards since those reference standards were not included in the proposed rule and no technical comparisons or cost data was provided between IRC references and HUD reference standards in support of the recommendation.
   Comment: Exit Facilities: Exterior Doors Width. A commenter suggested that IRC Section R311, Means of Egress, requires doors to provide a minimum clear width of 32 inches and a minimum height of 78 inches, which are 4 inches larger for both dimensions than HUD's requirements under
   Response: HUD did not accept this recommendation, as the issue of exterior passage door width for egress is currently being reviewed by the MHCC. In addition, there are two exterior doors required in manufactured homes for egress by the HUD Standards while only one exterior passage door is required for egress by the IRC.
   Comment: Toilet Compartment Width. A commenter noted that while the proposed rule is generally consistent with IRC Section R308, Toilet, Bath and Shower Spaces, the proposed rule permits a minimum dimension of 12 inches from a tub edge, while the IRC requires a minimum of 15 inches from the tub edge. The commenter suggests that cost may be a factor. (See SEC 3280.111.)
   Response: HUD did not accept this proposal to increase the minimum dimension of 12 inches to 15 inches from the toilet to a bathtub edge due to room geometry constraints and the generally smaller room sizes in manufactured homes. In addition, it would be burdensome and costly for the industry to redesign toilet compartment spaces for a practice that has been ergonomically acceptable since the inception of the HUD Standards.
   Comment: Adopt the Performance Requirement for Individual Thermostatic Pressure Balancing and Combination Control for Bathing Facilities. A commenter recommended that HUD update the ASSE 1016 standard, Automatic Compensating Values for Individual Shower and Tub/Shower Combinations, from the 1996 edition to the 2005 edition. (See SEC 3280.607 Plumbing Fixtures.)
   Response: HUD accepted this comment, and the ASSE 1016 standard, 2005 edition, has been included in the final rule. (See SEC 3280.607 Plumbing Fixtures.)
   Comment: Require sprinkler systems in manufactured housing. A commenter recommended that HUD may want to consider whether sprinkler systems should be required in manufactured housing. The commenter stated that retrofitting manufactured housing units with this type of system might be expensive, but despite the incremental cost impact, using sprinklers to extinguish fires rapidly has proven to save lives and dramatically reduce property damages.
   Response: HUD declined to adopt the commenter's recommendation, as adoption of standards in this area would be premature. This issue is currently being considered by the MHCC. Recent fire data analysis prepared by the
   Comment: Include anti-scald valves in the standards. Another commenter expressed support for the proposal to include anti-scald valves in the standards to prevent accidental burn injuries to children and others. (See SEC 3280.607 Plumbing Fixtures.)
   Response: HUD adopted the commenter's recommendation and included it in the final rule. (See SEC 3280.607 Plumbing Fixtures.)
   Comment: Revise the Reference Standards for Polyethylene (PEX) tubing and hot and cold water distribution systems. A commenter suggested updates for the new reference standards for polyethelene tubing and hot and cold water distribution systems.
   Response: HUD accepted the commenter's recommendations and incorporated these standards in the final rule (See SEC 3280.604(b)(2)). However, suggestions to add a number of other plumbing reference standards were not accepted, since they were not included in the proposed rule. There was also no information provided as to the potential impact of including costs and benefits associated with those proposed revisions to the current plumbing requirements.
   Comment: Update Glazing and Reference Standards. A commenter recommended further updates to glazing and skylight reference standards contained in the proposed rule. The commenter stated that AAMA/WDMA 100/I.S 7_00. Voluntary Specifications for Skylights is no longer maintained as an industry standard, and had been replaced by the applicable provisions of AAMA/WDMA/CSA 101/1.S.2/A440-08: North American Fenestration Standard Specification for Windows, Doors, and Skylights, which is the appropriate reference standard for the 3280 requirements. (See SUBSEC 3280.403(b)(2), 3280.403(e)(3).)
   Response: HUD accepted the commenters' recommendations to upgrade the standards beyond those in the proposed rule as the prior voluntary standard for skylights is no longer available and has been replaced in SUBSEC 3280.403(b)(2) and (e)(3) of the HUD Standards by the AAMA/WDMA/CSA 101/1.S.2/A440-08, North American Fenestration Standard for Windows, Doors, and Skylights.
   Comment: Safety Glazing: One commenter noted that glass and glazed openings requirements under the proposed rule are generally consistent with IRC section R308, Glazing. Another commenter suggested updating the requirements for safety glazing to the 2004 standard.
   Response: HUD agreed with the commenters and has updated the ANSI Z97.1 reference Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test in the final rule to the 2004 edition (See SEC 3280.113(c).)
   Comment: Allow a microwave to serve as the cabinet protection for fire safety. A commenter supported the proposed revision to allow a microwave to serve as the cabinet protection for fire safety without the current requirement for a metal hood. The commenter stated that such proposed requirement would provide an alternative means of complying with current kitchen cabinet protection requirements and reduce materials and labor costs while providing the necessary fire protection. The commenter recommended that the provision be clarified to specify an "Over-the-range" microwave oven. (See SEC 3280.204, Kitchen cabinet protection.)
   Response: HUD generally agrees with the commenter. HUD, therefore, allows use of a microwave oven is as an alternative compliance method to protect combustible kitchen cabinets in those situations where the oven is certified to comply with the requirements of Microwave Cooking Appliances in UL 923-2002, is installed between the cabinet and range, and is equivalent in fire protection to the metal range hood otherwise required by this section.
   Comment: Requirements for thermal insulating materials. A commenter noted that the requirements for thermal insulating materials in the proposed rule are generally consistent with IRC standard 225-96. The commenter noted that the test method referenced in
   The commenter suggested that HUD consider allowing these two alternate/additional test methods for determining the flames spread index, to permit additional flexibility to manufacturers. The commenter noted that the referenced (NFPA) standard was issued in 1996 and that the ASTM E 84 standard is available in an up-to-date 2010 version. The UL standard was also issued more recently than 1996. The addition of the two alternate test methods would have no incremental cost effect, and may reduce testing costs for manufacturers. (See SEC 3280.207.)
   Response: HUD did not include the additional reference standards for flame spread testing in the final rule that were suggested by the commenter, as there was no technical information provided as to the comparability of the results that would be achieved by use of the alternate testing standards recommended.
   Comment: The standards should provide for the sizing of heating equipment to reflect the anticipated location. The commenter explained that the current requirements result, in some instances, in the sizing of equipment indicating the most extreme temperatures rather than the actual heating design temperature. The commenter submitted that the wide variance in temperature creates over-compensation in the design and provision of heating equipment and results in energy inefficiency, as well as in operating economy losses and declines in consumer comfort. (See SEC 3280.510.)
   Response: HUD is not including in this final rule this proposed modification to
   Comment: HUD should count the window sash toward the opening size requirement for egress. A commenter noted the cost impacts associated with the proposed change to prohibit removal of the window sash for determining the opening size for egress windows, and suggested maintaining the current standard. (See SEC 3280.404(c)(2).)
   Response: HUD declined to adopt the commenter's recommendation to maintain the current standard, which allows the sash to be removed to meet the egress window size. HUD reconsidered the original standard in the proposed rule to permit the sash to be removed to meet the egress window size. HUD believes that safety considerations outweigh the cost impact. Accordingly, HUD adopted a change in the final rule to set the standard window size at a level that includes the sash. The sash cannot be removed to meet the egress window size requirements.
   Comment: Adopt the Alternative Language in the proposed rule for Comfort Cooling Certificate and Information. The proposed rule provides language that must be included in the comfort cooling certificate for homes in which a central air-conditioning system is provided by the home manufacturer. It also provides an alternative example certificate that contains language explaining the importance of orientation and exposure to the sun. (See SEC 3280.511.)
   Response: HUD is not including in this final rule this proposed modification to
   Comment: Materials Update. A commenter stated that the standards for Crosslinked Polyethylene (PEX) tubing in the proposed rule are out of date and considered it important that HUD use the updated standards. The updated standards identified by the commenter were Standard Specification for Crosslinked Polyethylene (PEX) Tubing--ASTM F876 2010, and Standard Specification for Crosslinked Polyethylene (PEX) Hot and Cold Water Distribution Systems ASTM F877 2007.
   Response: HUD accepted this comment and updated the ASTM F876 and ASTM F877 standards. (See SEC 3280.604(b)(2).)
   Comment: Plumbing Fixture Standard Update. A commenter suggested that the references to ASSE-1016 1996 may be out of date, and unusable by manufacturers. The commenter suggested an updated reference. (See SEC 3280.607.)
   Response: HUD accepted this comment, and the ASSE 1016 standard, 2005 edition, has been included in the final rule. (See SEC 3280.607 Plumbing Fixtures.)
   Comment: Eliminate the requirement to attach operating instructions to each appliance. A commenter also suggested that it is unnecessary to continue to require appliance operating instructions to be attached to each appliance if they are also required to be provided in the homeowners' manual. (See SEC 3280.711 Instructions.)
   Response: HUD declines to adopt the recommendation. HUD has found that the instructions attached to the appliance are often discarded after the appliance is initially operated by consumers. Additionally, HUD notes that the requirement to have the instructions also provided in the manual is needed for future appliance maintenance.
   Comment: Circulating Systems. A commenter noted that the proposed rule requires Class 1 air ducts fiberglass to be no closer than 3 feet from the furnace bonnet or plenum and requires furnace supply plenums to be constructed of Class 0 air duct (metal), extending at least 3 feet from a heat exchanger along the centerline of the airflow. The commenter stated that this proposed revision is contrary to a number of the instructions provided by furnace manufacturers and is not required by the IRC for single-family site-built housing. (See SEC 3280.715.)
   Response: HUD did not accept this comment, as no technical data was provided by the commenter in support of eliminating this fire safety requirement.
   Comment: Modify requirements for placement of electrical distribution panels. A commenter suggested that HUD continue to allow the electrical distribution panel to be located in a clothes closet and be "grandfathered in" for existing designs. (See SEC 3280.804.)
   Response: HUD declined to adopt the commenter's suggestion to grandfather in existing designs, because doing so would conflict with fire safety considerations and requirements in the National Electrical Code. (See SEC 3280.804(f).) These considerations outweigh any design requirements associated with relocating the electrical panel outside of the closet area.
   Comment: Coordination with Appendix E. A commenter discussed IRC Appendix E, which describes the means and scope of inspections of manufactured housing installed on privately owned lots within a jurisdiction that adopts the Appendix. A commenter stated that because appendices are not mandatory unless adopted by the authority having jurisdiction, there may be issues that HUD may wish to coordinate with the requirements of Appendix E.
   Response: HUD declined to adopt the commenter's recommendations because Appendix E deals with siting, which is not a construction standard, and is addressed under another proposed rule.
III. This Final Rule
   The final rule will revise certain sections of the Construction and Safety Standards and will also revise the incorporated reference standards, where indicated. Most of the changes will codify existing building practices or conform HUD standards to previously issued HUD interpretive bulletins or existing building codes.
A. Incorporation by Reference
   The final rule revises
B. Planning Considerations
   The final rule revises
   The final rule also revises the provisions for exit facilities/exit doors in
   The final rule also revises and makes editorial revisions to provisions for toilet requirements in
   The final rule revises
   The final rule adds an alternative means of complying with the kitchen cabinet protection requirements in
   The final rule adds fire safety and performance requirements for all types of thermal insulating materials under new section
   The final rule revises
   The final rule makes editorial revisions and also clarifies existing provisions in
   As noted earlier in this preamble, HUD has decided not to include in this final rule its proposed modifications to lower the existing requirements for control of formaldehyde emissions for particleboard materials, or to add new requirements to limit formaldehyde emissions from medium-density fiberboard materials in
E. Testing
   The final rule contains a conforming amendment to
   Section 3280.404(c)(2) of the final rule will now prohibit any window that requires the removal of a sash to meet the egress size provisions of the
F. Subpart F
   The final rule revises
   Section 3280.509(c) is revised by replacing the graph for determining the effective R values of compressed insulation with a table that allows for more precisely determining the effects on R values of nonuniform and uniform insulation compression for batt and blown insulation. This will provide a more accurate method for determining effective R value requirements when insulation is compressed or used in sloping roof cavities and will result in more accurate projections of heat loss and heat gain for manufactured homes than determined by the current graphical method.
   As noted earlier in this preamble, HUD has decided not to forward with its proposed modifications to SUBSEC 3280.503, 3280.505, 3280.506, 3280.509, 3280.510, and 3280.511, because of standards for energy efficiency being developed by DOE under the
G. Plumbing Systems
   The final rule makes a conforming amendment to
   The final rule revises
   The final rule revises the table in 3280.604(b)(2), by incorporating standards for the installation of cross-linked polyethylene (PEX) plastic cold and hot water systems. This will permit the use of PEX plastic piping as an alternate piping material to other materials that may currently be used to supply hot and cold water systems.
   The final rule revises
   The final rule adds a new requirement in
   FOOTNOTE 2
   The final rule revises
   The final rule revises
   The final rule revises the requirements for anti-siphon trap vent devices in
H. Heating, Cooling, and Fuel Burning Systems
   The final rule revises
   Sections 3280.707(a) and (d) and 3280.714(a) revise the energy efficiency and energy conservation requirements for comfort heating systems, water heaters, and cooling appliances so that they comply with the provisions of 10 CFR part 430,
   Section 3280.715 is revised by eliminating the use of Class 2 ducts and by deleting their definition from
   As noted in this preamble, HUD has decided not to forward with its proposed modifications to SUBSEC 3280.715(a)(4) and (a)(6).
I. Electrical Systems
   The final rule revises
   Section 3280.804(f) is amended by requiring the distribution panelboard to be located in an accessible location and not located in a bathroom or clothes closet. This revision is consistent with requirements for acceptable locations for electrical distribution panels in residential model codes and with the NEC.
   The final rule amends
   Section 3280.806(d) is revised by not including receptacle outlets in the floor that are 18 inches or more from the wall as part of the required receptacle outlets for the room; by permitting the heat tape or pipe heating cable outlet to be on the bathroom circuit, provided that all bathroom outlets are on the load side of the ground fault circuit interrupter; and by requiring receptacles in any countertop to not be in a face-up position. These changes are consistent with the requirements in residential model codes and the NEC.
J. Revisions to
   The following is a list of the standards incorporated by reference by this final rule. Each reference standard is preceded with an indicator to identify the type of change being made. A new reference standard being added is indicated by the designation "N," while a reference standard being updated is indicated by the designation "U." The sections of the Construction and Safety Standards that are being amended by each modification are also shown on the right of each reference standard being added or updated.
N--AAMA/WDMA/CSA North American Fenestration Standard 3280.403(b), 101/I.S.2/A440- Specification for Windows, Doors and 3280.403(e). 08 Skylights U--ANSI Z21.23 1993 Gas Appliance Thermostats 3280.703. N--ANSI A208.2 2002 Medium Density Fiberboard (MDF) for 3280.304(b). Interior Applications N--ANSI/IAS LC-1 1997 Fuel Gas Piping Systems Using 3280.705(b). Corrugated Stainless Steel Tubing U--ANSI Z97.1 2004 Standard for Safety Glazing 3280.113(c). 2004 Materials used in Buildings--Safety Performance Specifications and Methods of Test U--APA S 812R 1998 Design and Fabrication of Glued 3280.304(b). Plywood Lumber Beams Plywood Design Supplement #2 U--APA U 814H 1993 Design and Fabrication of Plywood 3280.304(b). Sandwiched Panels Plywood Design Supplement #4 U--APA U 813L 1996 Design and Fabrication of Plywood 3280.304(b). Stressed Skin Panels, Plywood Design Supplement #3 N--APA E30R 2001 Engineered Wood Construction Guide 3280.304(b). N--ASSE 1016 2005 Performance Requirements for 3280.607(b). Automatic Compensating Values for Individual Showers and Tub/Shower Combinations U--ASTM C564 1997 Standard Specification for Rubber 3280.604(b)(2), Gaskets for Cast Iron Soil Pipe and 3280.611(d). Fittings U--ASTM C920 2002 Standard Specification for 3280.611(d). Elastomeric Joint Sealants U--ASTM D3953 1997 Standard Specification for 3280.306(b), Strapping, Flat Steel, and Seals 3280.306(g). U--ASTM D4635 2001 Standard Specification for 3280.611(d). Polyethylene Films Made from Low- density Polyethylene for General Use and Packaging Applications N--ASTM F876 2010 Standard Specification for 3280.604(b)(2). Crosslinked Polyethylene (PEX) Tubing N--ASTM F877 2007 Standard Specification for 3280.604(b)(2). Crosslinked Polyethylene (PEX) Plastic Hot- and Cold-Water Distribution Systems U--NFPA 31 2001 Standard for the Installation of Oil 3280.703, Burning Equipment 3280.707(f). N--NFPA 255 1996 Standard Method of Surface Burning 3280.207(a). Characteristics of Building Materials N--NFPA 253 2000 Standard Method of Test for Critical 3280.207(c). Radiant Flux of Floor Covering Systems Using a Radiant Heat Source U--NIST PS 2-04 2004 Voluntary Product Standard 3280.304(b). Performance Standard for Wood-Based Structural-Use Panels N--RADCO DS-010 1991 Decorative Gas Appliances for 3280.703. Installation in Solid Fuel Burning Appliances N--UL 923 2002 Microwave Cooking Appliances 3280.204(c). N--CAN/ULC 1988 Standard Method of Test for Surface 3280.207(b). S102.2-M88 Burning Characteristics of Flooring, Floor Covering, and Miscellaneous Materials and Assemblies U--UL 181 2003 Factory Made Air Ducts and Air 3280.702, Connectors 3280.703, 3280.715(a).
K. Accessibility Requirements for Persons With Disabilities
   In some situations, manufactured housing units subject to
IV. Findings and Certifications
Regulatory Review--Executive Orders 12866 and 13563
   Under Executive Order 12866 (Regulatory Planning and Review), a determination must be made whether a regulatory action is significant and therefore, subject to review by the
   This rule is not a "significant regulatory action," as defined in section 3(f) of the Order, and it was not reviewed by OMB. As the preamble highlights, this rule amends several construction and safety standards under the
   Only two standards included in this rule have an impact on the production cost of manufactured homes: the requirement that shower and bath valves use anti-scald mixing valves, and the increase in minimum insulation levels for cross-under ducts. HUD's review of this final rule determined that it will impose costs equaling
   Currently, producers of manufactured housing may use non-pressure balanced mixing valves in bathtubs and showers. The cost of non-pressure balanced mixing value generally totals
   The number of annual manufactured home placements since 1999 has decreased considerably. The annual rate of placements in 2009 was estimated at 58,100. Of these, 20,900 were estimated to be single-section homes, 36,000 were estimated to be double-section homes, and 1,200 were estimated to have more than two sections. Although this trend in annual placements has continued to decrease, this analysis assumes an annual placement of 58,100 manufactured homes. In addition, this analysis assumes that the cost of requiring the use of an anti-scald valve at the point of production of the home is less than installation at some later time. This assumption is based on the fact that replacing a mixing valve with an anti-scald valve at some later date would require the use of a licensed plumber for several hours to make the change and a higher cost to purchase the anti-scald valve(s) due to the volume purchasing power of manufacturers as compared to individual purchasers.
   Accordingly, based on this annual placement rate, the total cost of the anti-scald valve requirement is
   The second cost comes from the increase in the minimum insulation levels for cross-under ducts. These ducts are used in multisection homes to carry heat from one section to another. Thus, there is no cost increase for single-section homes. The cost per square foot of insulation for multisection homes would increase from
   In estimating the benefits of these two requirements, HUD has considered that requiring anti-scald valves would reduce the number of injuries and deaths resulting from tap water scald burns. Although statistics specific to scald burns in manufactured homes are unavailable, according to Safe Kids, a nonprofit organization dedicated to preventing accidental childhood injury, hot tap water accounts for nearly 25 percent of all scald burns among children and is associated with more deaths and hospitalizations than any other hot liquid burns. Statistics reported by the CDC indicate that almost 3,000 people are hospitalized annually due to scald burns from tap water in the home. /3/ The Safe Kids organization, however, reports that in 2002, 22,600 children received emergency room treatments for scald burns, /4/ approximately 25 percent (5,560) coming from hot tap water. This analysis uses the CDC estimate of 3,000, which is a conservative estimate that represents the lower bound of scald injuries prevented.
   FOOTNOTE 3
   FOOTNOTE 4 Safe Kids Web site: http://www.usa.safekids.org/tier3_cd.cfm?folder_id=540&content_item_id=1011. END FOOTNOTE
   The Safe Kids organization estimates that hospital costs for admitted scald burn patients average
   FOOTNOTE 5 National SAFE KIDS Campaign (NSKC). Burn Injury Fact Sheet.
   FOOTNOTE 6 See 2007 AHS, Table 2-1. END FOOTNOTE
   FOOTNOTE 7 If state and local codes that regulate traditional "stick-built" housing predominantly require anti-scald valves, then this distribution may not be even across housing types. For this reason, manufactured homes may account for a larger than proportionate share of scald burns. END FOOTNOTE
   FOOTNOTE 8 Anti-scald valves decrease the maximum water temperature to 120 degrees. At this temperature, it would take 8 minutes of exposure to receive second-degree burns and 10 minutes for third-degree burns. While this does not completely eliminate the risk of scald burns, this risk does not need to be completely eliminated for benefits to be realized. END FOOTNOTE
   In addition to prevented injuries and hospitalizations, the anti-scald valve requirement will also reduce the number of deaths resulting from scald burns. Aside from the 3,000 to 5,560 scald burns occurring each year, the
   The insulation requirement will increase the energy efficiency of manufactured homes, which will decrease annual energy costs for homeowners. Based on estimates from the DOE's Energy Gauge model, owners of multisection homes, to which this requirement applies, would save approximately
   A summary of HUD's calculation of benefits from the anti-scald valve and insulation requirements follows:
Benefits of Final Rule Benefits of Anti-Scald Valve Requirement Value of Injuries Prevented Annual hospitalizations due to scald burns from tap water 3,000 New manufactured housing share of total occupied housing units 0.05% Average Cost of Scald Burn Victim 22,700 Annual Value of Benefits$35,744 Discounted Present Value (3% Discount Rate)$1,227,178 Discounted Present Value (7% Discount Rate)$546,358 Value of Deaths Prevented Annual deaths due to scald burns from tap water 100 New manufactured housing share of total occupied housing units 0.05% Value of life 5,000,000 Value of Benefits$262,438 Discounted Present Value (3% Discount Rate)$9,010,323 Discounted Present Value (7% Discount Rate)$4,011,532 Benefits of Insulation Requirement Single Multi Total Number of Homes 20,900 37,200 58,100 Annual Savings per Home 0.00 3.00 Annual Value of Benefits$0 $111,600 $111,600 Discounted Present Value (3% Discount Rate)$3,831,566 Discounted Present Value (7% Discount Rate)$1,705,872 Discounted Present Value of Benefits of Rule Discount rate 3% 7% Anti-Scald Valve Requirement$10,237,502 $4,557,890 Injuries Prevented 1,227,178 546,358 Deaths Prevented 9,010,323 4,011,532 Insulation Requirement 3,831,566 1,705,872 Discounted Present Value of Benefits$14,069,068 $6,263,762 Sources: *1American Burn Association . *2American Housing Survey (AHS),U.S. Department of Housing and Urban Development . *3 National Safe Kids Campaign.
   In summary, this final rule will impose costs equaling
   The docket file is available for public inspection in the Regulations Division,
Paperwork Reduction Act
   The modified information collection requirements contained in this final rule, at SUBSEC 3280.510, 3280.511, 3280.804, and 3280.813, have been submitted to the
   The public reporting burden for this modified collection of information is estimated to include the time for reviewing the instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. These modifications to the existing two labels would result in no additional burden hours for completing the information collection currently accepted under control number 2502-0253.
Unfunded Mandates Reform Act
   Title II of the Unfunded Mandates Reform Act of 1995 establishes requirements for Federal agencies to assess the effects of their regulatory actions on state, local, and tribal governments and the private sector. This rule will not impose any Federal mandates on any state, local, or tribal government or the private sector within the meaning of the Unfunded Mandates Reform Act of 1995.
Environmental Review
   A Finding of No Significant Impact with respect to the environment was made at the proposed rule stage in accordance with HUD regulations at 24 CFR part 50, which implement section 102(2)(C) of the National Environmental Policy Act of 1969 (42 U.S.C. 4332(2)(C)). The Finding of No Significant Impact remains applicable to this final rule and is available for public inspection
Regulatory Flexibility Act
   The Regulatory Flexibility Act (RFA) (5 U.S.C.
   Based on an analysis of the costs and the fact that a small manufacturer would just as likely produce homes at the higher end of the cost spectrum as would a major producer, evaluating the effect of the increase is not discernible based on the size of the manufacturing operation. For the reasons stated below, HUD knows of no instance of a manufacturer with fewer than 500 employees that would be economically affected significantly by this rule. As the preamble discusses, the overwhelming majority of the revisions to the Construction and Safety Standards proposed by this rule are directed to relieving burden on all manufacturers by having the Standards be consistent with current design and construction standards or state and local codes. Reducing the differences between the Federal standards for design and construction of manufactured homes with current industry standards reduces burden for all manufacturers.
   As discussed under the "Regulatory Planning and Review" section of this preamble, the annual economic impact of this rule is not significant, since the changes made by this rule are largely changes conforming to current industry practices and current building codes. This assessment shows that this does not represent a significant economic effect on either an industry-wide or per-unit basis.
   The relatively small increase in cost for the manufacturer associated with this proposed rule would not impose a significant burden on a small business for manufacturing homes that can cost the purchaser between
Executive Order 13132, Federalism
   Executive Order 13132 (entitled "Federalism") prohibits an agency from publishing any rule that has federalism implications if the rule either: (i) Imposes substantial direct compliance costs on state and local governments and is not required by statute, or (2) preempts state law, unless the agency meets the consultation and funding requirements of section 6 of the Order. This final rule does not have federalism implications, within the meaning of the Executive Orders, and would not impose substantial direct compliance costs on state and local governments nor preempt state law within the meaning of the Order.
V. Incorporation by Reference
   These incorporated standards are approved by the Director of the
   AAMA --
   ANSI --
   APA --
   ASSE --
   ASTM --
   CSA (IAS) --
   NFPA --
   PS --
   RADCO --Resources, Applications, Designs, &
   UL --
   WDMA --
List of Subjects in 24 CFR Part 3280
   Housing standards, Incorporation by reference, Manufactured homes.
Catalog of Federal Domestic Assistance
   The Catalog of Federal Domestic Assistance number for
   Accordingly, for the reasons stated in the preamble, HUD is amending 24 CFR part 3280 as follows:
PART 3280--MANUFACTURED HOME CONSTRUCTION AND SAFETY STANDARDS
   1. The authority citation for part 3280 continues to read as follows:
   Authority: 42 U.S.C. 3535(d), 5403, and 5424.
   2. Revise
   (a) The specifications, standards, and codes of the following organizations are incorporated by reference in 24 CFR part 3280 (this Standard) pursuant to 5 U.S.C. 552(a) and 1 CFR part 51 as though set forth in full. The incorporation by reference of these standards has been approved by the Director of the
   (b)
   (1) ANSI/ARI Standard 210/240-89, Unitary Air-Conditioning and Air-Source Heat Pump Equipment, IBR approved for SUBSEC 3280.511(b), 3280.703, and 3280.714(a),
   (2) [Reserved].
   (c)
   (1) Aluminum Design Manual, Specifications and Guidelines for Aluminum Structures, Part 1-A, Sixth Edition,
   (2) Aluminum Design Manual, Specifications and Guidelines for Aluminum Structures, Part 1-B, First Edition,
   (d)
   (1) AAMA 1503.1-88, Voluntary Test Method for Thermal Transmittance and Condensation Resistance of Windows, Doors, and Glazed Wall Sections, IBR approved for
   (2) AAMA 1600/I.S.7-00, Voluntary Specification for Skylights, 2003 IBR approved for
   (3) AAMA 1701.2-95, Voluntary Standard Primary Window and Sliding Glass Door for Utilization in
   (4) AAMA 1702.2-95, Voluntary Standard Swinging Exterior Passage Door for Utilization in
   (5) AAMA Standard 1704-1985, Voluntary Standard Egress Window Systems for Utilization in
   (6) AAMA/WDMA/CSA/101/I.S.2/A440-08 North American Fenestration Standard/Specification for Windows, Doors and Skylights,
   (7) ANSI/AAMA/NWWDA 101/I.S.2-97,Voluntary Specifications for Aluminum, Vinyl (PVC) and
American Forest and
   (1) AFPA, Design Values for Joists and Rafters 1992, IBR approved for
   (2) AFPA PS-20-70, Span Tables for Joists and Rafters, 1993, IBR approved for
   (3) ANSI/AFPA NDS-2001, National Design Specifications for
   (4) AFPA, Wood Structural Design Data, 1986 Edition with 1992 Revisions, IBR approved for
   (f)
   (1) AGA No. 3-87, Requirements for Gas Connectors for Connection of Fixed Appliances for Outdoor Installation, Park Trailers, and
   (2) [Reserved].
   (g)
   (1) ANSI/AHA A135.4-1995, Basic Hardboard, IBR approved for
   (2) ANSI/AHA A135.5-1995, Prefinished Hardboard Paneling, IBR approved for
   (3) ANSI/AHA A135.6-1998, Hardboard Siding, IBR approved for
   (h)
   (1) AISC-S335, 1989. Specification for Structural Steel Buildings--Allowable Stress Design and Plastic Design (except for the following parts of this standard which are not incorporated by reference: 1.3.3, 1.3.4, 1.3.5, 1.3.6, 1.4.6, 1.5.1.5, 1.5.5, 1.6, 1.7, 1.8, 1.9, 1.10.4 through 1.10.7, 1.10.9, 1.11, 1.13, 1.14.5, 1.17.7 through 1.17.9, 1.19.1, 1.19.3, 1.20, 1.21, 1.23.7, 1.24, 1.25.1 through 1.25.5, 1.26.4, 2.3, 2.4, 2.8 through 2.10),
   (2) [Reserved].
   (i)
   (1) AISI, Specification for the Design of Cold-Formed Steel Structural Members, 1996, IBR approved for SUBSEC 3280.304(b) and 3280.305(j).
   (2) [Reserved].
   (j)
   (1) ANSI A112.14.1-1975, Backflow Valves, IBR approved for
   (2) ANSI A112.19.5-1979, Trim for Water Closet, Bowls, Tanks, and Urinals, IBR approved for
   (3) ANSI/AITC A190.1-1992, For wood products--Structural Glued Laminated Timber, IBR approved for
   (4) ANSI A208.1-1999, Particleboard, IBR approved for
   (5) ANSI A208.2-2002, Medium Density Fiberboard (MDF) For Interior Applications, approved
   (6) ANSI B16.18-1984, Cast Copper Alloy Solder-Joint Pressure Fittings, IBR approved for
   (7) ANSI C72.1-1972, section 4.3.1, Household Automatic Electric Storage Type Water Heaters, IBR approved for
   (8) ANSI/IAS LC 1-1997, Fuel Gas Piping Systems Using Corrugated Stainless Steel Tubing (CSST), approved
   (9) ANSI Z21.1-2000, Household Cooking Gas Appliances, IBR approved for
   (10) ANSI Z21.5.1-1999, Gas Clothes Dryers Volume 1, Type 1 Clothes Dryers, with Addendum Z21.5.1a-1999, IBR approved for
   (11) ANSI Z21.10.1-1998, Gas Water Heaters--Volume 1, Storage Water Heaters with Input Ratings of 75,000 BTU per hour or Less, with Addendum Z21.10.1a-2000, IBR approved for SUBSEC 3280.703 and 3280.707(d).
   (12) ANSI Z21.15-1997, Manually Operated Gas Valves for Appliances, Appliance Connector Valves and Hose End Valves, IBR approved for SUBSEC 3280.703 and 3280.705(c).
   (13) ANSI Z21.19-1990, with Addendum ANSI Z21.19a-1992 and Z21.19b-1995, Refrigerators Using Gas Fuel, IBR approved for
   (14) ANSI Z21.20 with Addendum Z21.20a-2000, Automatic Gas Ignition Systems and Components, IBR approved for
   (15) ANSI Z21.21-2000, Automatic Valves for Gas Appliances, IBR approved for
   (16) ANSI Z21.22-1999, Relief Valves for Hot Water Supply Systems, IBR approved for SUBSEC 3280.604(b) and 3280.703.
   (17) ANSI Z21.23-1993, Gas Appliance Thermostats, approved
   (18) ANSI Z21.24-1997/CGA 6.10-M97, Connectors for Gas Appliances, IBR approved for
   (19) ANSI Z21.40.1-1996/CGA 2.91-M96, Gas-Fired,
   (20) ANSI Z21.47-1990 with Addendum Z21.47a-1990 and Z21.47b-1992, Gas-Fired Central Furnaces (Except Direct Vent System Central Furnaces), IBR approved for
   (21) ANSI Z34.1-1993, Third-Party Certification Programs for Products, Processes, and Services, IBR approved for SUBSEC 3280.403(e) and 3280.405(e).
   (22) ANSI Z97.1-2004, Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test, copyright 2004, IBR approved for SUBSEC 3280.113(c), 3280.304(b), 3280.403(d)(1), 3280.604(b), and 3280.607(b).
   (23) ANSI Z124.1-1987, Plastic Bathtub Units with Addendum Z124.1a-1990 and Z124.1b-1991, IBR approved for
   (24) ANSI Z124.2-1987, Plastic Shower Receptors and Shower Stalls with Addendum Z124.2a-1990, IBR approved for
   (25) ANSI Z124.3-1986, Plastic Lavatories with Addendum Z124.3a-1990, IBR approved for
   (26) ANSI Z124.4-1986, Plastic Water Closets, Bowls, and Tanks with Addenda Z124.4a-1990, IBR approved for
   (27) ANSI Z124.5-1997, Plastic Toilet (Water Closets) Seats, IBR approved for
   (28) ANSI Z124.7-1997, Prefabricated Plastic Spa Shells, IBR approved for
   (29) ANSI Z-124.9-1994, Plastic Urinal Fixtures, IBR approved for
   (k)
   (1) APA D410A-2004, Panel Design Specification, IBR approved for
   (2) APA E30P-1996, APA Design/Construction Guide, Residential and Commercial Structures, IBR approved for
   (3) APA E30R, Engineered Wood Construction Guide, revised
   (4) APA H815E-1995 (PDS Supplement #5), Design and Fabrication of All-Plywood Beams, IBR approved for
   (5) APA S 811M-1990 (PDS Supplement 1), Design and Fabrication of Plywood Curved Panels, IBR approved for
   (6) APA S 812R, Design and Fabrication of Glued Plywood-Lumber Beams, revised
   (7) APA U 813L, Design and Fabrication of Plywood Stressed-Skin Panels, revised
   (8) APA U 814H, Design and Fabrication of Plywood, Sandwiched Panels, revised
   (l)
   (1) ANSI/ASCE 7-88, Minimum Design Loads for Buildings and Other Structures, IBR approved for SUBSEC 3280.5(f), 3280.304(b), and 3280.305(c).
   (2) SEI/ASCE 8-02, Specification for the Design of Cold-Formed Stainless Steel Structural Members, 2002, IBR approved for SUBSEC 3280.304(b) and 3280.305(j).
   (3) ASCE 19-96, Structural Applications of Steel Cables for Buildings, IBR approved for
   (m)
   (1) 1997 ASHRAE Handbook of Fundamentals, Inch-Pound Edition (1997), chapters 22 through 27, (except for the following parts of this standard that are not incorporated by reference: 23.1
   (2) [Reserved].
   (n) ASME (formally the
   (1) ASME A112.1.2-1991, Air Gaps in Plumbing Systems, IBR approved for
   (2) ANSI/ASME A112.4.1-1993, Water Heater Relief Valve Drain Tubes, IBR approved for
   (3) ANSI/ASME A112.4.3-1999, Plastic Fittings for Connecting Water Closets to the Sanitary Drainage System, IBR approved for
   (4) ASME/ANSI A112.18.1M-1989, Plumbing Fixture Fittings, IBR approved for
   (5) ASME A112.18.3M-1996, Performance Requirements for Backflow Protection Devices and Systems in Plumbing Fixture Fittings, IBR approved for
   (6) ASME A112.18.6-1999, Flexible Water Connectors, IBR approved for
   (7) ASME A112.18.7-1999, Deck Mounted Bath/Shower Transfer Valves with Integral Backflow Protection, IBR approved for
   (8) ANSI/ASME A112.19.1M-1987, Enameled Cast Iron Plumbing Fixtures, IBR approved for
   (9) ANSI/ASME A112.19.2(M)-1990, Vitreous China Plumbing Fixtures, IBR approved for
   (10) ANSI/ASME A112.19.3M-1987, Stainless Steel Plumbing Fixtures (Designed for Residential Use), IBR approved for
   (11) ANSI/ASME A112.19.4(M)-1984, Porcelain Enameled Formed Steel Plumbing Fixtures, IBR approved for
   (12) ASME A112.19.6-1995, Hydraulic Performance Requirements for Water Closets and Urinals, IBR approved for
   (13) ASME/ANSI A112.19.7M-1987, Whirlpool Bathtub Appliances, IBR approved for
   (14) ASME/ANSI A112.19.8M-1989, Suction Fittings for Use in Swimming Pools, Wading Pools, Spas, Hot Tubs, and Whirlpool Bathtub Appliances, IBR approved for
   (15) ASME A112.19.9M-1991, Non-Vitreous Ceramic Plumbing Fixtures, IBR approved for
   (16) ASME A112.19.10-1994, Dual Flush Devices for Water Closets, IBR approved for
   (17) ANSI/ASME A112.21.3M-1985, Hydrants for Utility and Maintenance Use, IBR approved for
   (18) ANSI/ASME B1.20.1-1983, Pipe Threads, General Purpose (Inch), IBR approved for SUBSEC 3280.604(b), 3280.703, 3280.705(e), and 3280.706(d).
   (19) ANSI/ASME B16.3-1992, Malleable Iron Threaded Fittings, IBR approved for
   (20) ANSI/ASME B16.4-1992, Gray Iron Threaded Fittings, IBR approved for
   (21) ANSI/ASME B16.15-1985, Cast Bronze Threaded Fittings, Classes 125 and 250, IBR approved for
   (22) ASME/ANSI B16.22-1989, Wrought-Copper and Copper Alloy Solder-Joint Pressure Fitting, IBR approved for
   (23) ASME B16.23-1992, Cast Copper Alloy Solder-Joint Drainage Fittings-DWV, IBR approved for
   (24) ASME/ANSI B16.26-1988, Cast Copper Alloy Fittings for Flared Copper Tubes, IBR approved for
   (25) ASME/ANSI B16.29-1986, Wrought Copper and Wrought Copper Alloy Solder-Joint Drainage Fittings-DWV, IBR approved for
   (26) ANSI/ASME B36.10-1979, Welding and Seamless Wrought Steel Pipe, IBR approved for SUBSEC 3280.604(b), 3280.703, 3280.705(b), and 3280.706(b).
   (o)
   (1) ASSE 1001 (ANSI Approved 1990), Performance Requirements for Pipe Applied Atmospheric Type Vacuum Breakers, IBR approved for
   (2) ASSE 1002 Revision 5-1986 (ANSI/ASSE-1979), Performance Requirements for Water Closet Flush Tank Fill Valves (Ballcocks), IBR approved for
   (3) ASSE 1006 (ASSE/ANSI-1986), Plumbing Requirements for Residential Use (Household) Dishwashers, IBR approved for
   (4) ASSE 1007-1986, Performance Requirements for Home Laundry Equipment, IBR approved for
   (5) ASSE 1008-1986, Performance Requirements for Household Food Waste Disposer Units, IBR approved for
   (6) ASSE 1011-1981 (ANSI-1982), Performance Requirements for Hose Connection Vacuum Breakers, IBR approved for
   (7) ASSE 1014-1989 (ANSI-1990), Performance Requirements for Hand-held Showers, IBR approved for
   (8) ASSE 1016-2005, Performance Requirements for Automatic Compensating Values for Individual Shower and Tub/Shower Combinations, approved
   (9) ASSE 1017-1986, Performance Requirements for Temperature Activated Mixing Valves for Primary Domestic Use, IBR approved for
   (10) ANSI/ASSE 1019-1978, Performance Requirements for Wall Hydrants, Frost Proof Automatic Draining, Anti-Backflow Types, IBR approved for
   (11) ASSE 1023 (ANSI/ASSE-1979), Performance Requirements for Hot Water Dispensers, Household Storage Type Electrical, IBR approved for
   (12) ASSE 1025 (ANSI/ASSE-1978), Performance Requirements for Diverters for Plumbing Faucets with Hose Spray, Anti-Siphon Type, Residential Applications, IBR approved for
   (13) ASSE 1037-1990 (ANSI-1990), Performance Requirements for Pressurized Flushing Devices (Flushometers) for Plumbing Fixtures, IBR approved for
   (14) ASSE 1051 Revised 1996 (ANSI 1998), Performance Requirements for Air Admittance Valves for Plumbing Drainage Systems--Fixture and Branch Devices, IBR approved for
   (p)
   (1) ASTM A53-93. Standard Specification for Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and Seamless, IBR approved for SUBSEC 3280.604(b) and 3280.703.
   (2) ASTM A74-92, Standard Specification for Cast Iron Soil Pipe and Fittings, IBR approved for
   (3) ASTM A539-99, Standard Specification for Electric-Resistance-Welded Coiled Steel Tubing for Gas and Fuel Oil Lines, IBR approved for SUBSEC 3280.703, 3280.705(b), and
   (4) ASTM B42-93, Standard Specification for Seamless Copper Pipe, Standard Sizes, IBR approved for SUBSEC 3280.604 and 3280.703.
   (5) ASTM B43-91, Standard Specification for Seamless Red Brass Pipe, Standard Sizes, IBR approved for SUBSEC 3280.604(b) and 3280.705(b).
   (6) ASTM B88-93, Standard Specification for Seamless Copper Water Tube, IBR approved for SUBSEC 3280.604, 3280.703, 3280.705(b), and 3280.706(b).
   (7) ASTM B251-93, Standard Specification for General Requirements for Wrought Seamless Copper and Copper-Alloy Tube, IBR approved for SUBSEC 3280.604 and 3280.703.
   (8) ASTM B280-95a, Standard Specification for Seamless Copper Tube for Air Conditioning and Refrigeration Field Service, IBR approved for SUBSEC 3280.703, 3280.705(b), and 3280.706(b).
   (9) ASTM B306-92, Standard Specification for Copper Drainage Tube (DWV), IBR approved for
   (10) ASTM C 36/C 36M-99, Standard Specification for Gypsum Wallboard, 1999, IBR approved for
   (11) ASTM C564-97, Standard Specification for Rubber Gaskets for Case Iron Soil Pipe and Fittings, approved
   (12) ASTM C920-02, Standard Specification for Elastomeric Joint Sealants, approved
   (13) ASTM D781-68 (Reapproved 1973), Standard Test Methods for Puncture and Stiffness of Paperboard, and Corrugated and Solid Fiberboard, IBR approved for SUBSEC 3280.304(b), and 3280.305(g).
   (14) ASTM D2235-88, Standard Specification for
   (15) ASTM D2564-91a, Standard Specification for Solvent Cements for Poly (Vinyl Chloride) (PVC) Plastic Piping Systems, IBR approved for
   (16) ASTM D2661-91, Standard Specification for Acrylonitrile-Butadiene-Styrene (ABS) Schedule 40 Plastic Drain, Waste, and Vent Pipe and Fittings, IBR approved for
   (17) ASTM D2665-91b, Standard Specification for Poly (Vinyl Chloride) (PVC) Plastic Drain, Waste, and Vent Pipe and Fittings, IBR approved for
   (18) ASTM D2846-92, Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Hot- and Cold-Water Distribution Systems, IBR approved for
   (19) ASTM D3309-92a, Standard Specification for Polybutylene (PB) Plastic Hot- and Cold-Water Distribution Systems, IBR approved for
   (20) ASTM D3311-92, Standard Specification for Drain, Waste, and Vent (DWV) Plastic Fittings Patterns, IBR approved for
   (21) ASTM D3953-97, Standard Specification for Strapping, Flat Steel, and Seals, approved
   (22) ASTM D4442-92 (Reapproved 1997), Standard Test Methods for Direct Moisture Content Measurement of Wood and Wood-Base Materials, IBR approved for
   (23) ASTM D4444-92, Standard Test Methods for Use and Calibration of Hand-Held Moisture Meters, IBR approved for
   (24) ASTM D4635-01, Standard Specification for Polyethylene Films Made from Low-Density Polyethylene for General Use and Packaging Applications, approved
   (25) ASTM E84-01, Standard Test Method for Surface Burning Characteristics of
   (26) ASTM E 96-95 Standard Test Methods for Water Vapor Transmission of Materials, IBR approved for
   (27) ASTM E 162-94, Standard Test Method for Surface Flammability of Materials Using a Radiant Heat Energy Source, IBR approved for
   (28) ASTM E 773-97, Standard Test Methods for Accelerated Weathering of Sealed Insulating Glass Units, IBR approved for
   (29) ASTM E 774-97, Standard Specification for the Classification of the Durability of Sealed Insulating Glass Units, IBR approved for
   (30) ASTM E 1333-96, Standard Test Method for Determining Formaldehyde Concentrations in Air and Emission Rates from Wood Products Using a Large Chamber, approved
   (31) ASTM F628-91, Standard Specification for Acrylonitrile-Butadiene-Styrene (ABS) Schedule 40, Plastic Drain, Waste, and Vent Pipe with a Cellular Core, IBR approved for
   (32) ASTM F876-10, Standard Specification for Crosslinked Polyethylene (PEX) Tubing, approved
   (33) ASTM F877-07, Standard Specification for Crosslinked Polyethylene (PEX) Plastic Hot- and Cold-Water Distribution Systems, approved
   (q)
   (1) CISPI-301-90, Standard Specification for Hubless Cast Iron Soil Pipe and Fittings for Sanitary and
   (2) CISPI-HSN-85, Specification for Neoprene Rubber Gaskets for HUB and Spigot Cast Iron Soil Pipe and Fittings, IBR approved for SUBSEC 3280.604, 3280.611(d).
   (r) FS--Federal Specifications,
   (1) FS WW-P-541E/GEN-1980, Plumbing Fixtures (General Specifications), IBR approved for
   (2) FS ZZ-R-765B-1970, Silicone Rubber, (with 1971 Amendment), IBR approved for
   (s) HPVA (previously HPMA)--
   (1) ANSI/HPVA HP-1-1994 (Approved 1995), American National Standard for Hardwood and Decorative Plywood, IBR approved for
   (2) HP-SG-96, Structural Design Guide for Hardwood Plywood Wall Panels, revised 1996, IBR approved for
   (t) HUD User,
   (1) HUD User No. 0005945, Overall U-values and Heating/Cooling Loads--
   (2) [Reserved].
   (u)
   (1) IITRI Fire and Safety Research Project J-6461 "Development of Mobile Home Fire Test Methods to Judge the Fire-Safe Performance of Foam Plastic Sheathing and Cavity Insulation", 1979, IBR approved for
   (2) [Reserved].
   (v)
   (1) IAPMO PS 2-89, Material and Property Standard for Cast Brass and Tubing P-Traps, IBR approved for
   (2) IAPMO PS 4-90, Material and Property Standard for Drains for Prefabricated and Precast Showers, IBR approved for
   (3) IAPMO PS 5-84, Material and Property Standard for Special Cast Iron Fittings, IBR approved for
   (4) IAPMO PS 9-84, Material and Property Standard for Diversion Tees and Twin Waste Elbow, IBR approved for
   (5) IAPMO PS 14-89, Material and Property Standard for Flexible Metallic Water Connectors, IBR approved for
   (6) IAPMO PS 23-89, Material and Property Standard for Dishwasher Drain Airgaps, IBR approved for
   (7) IAPMO PS 31-91, Material and Property Standards for Backflow Prevention Assemblies, IBR approved for
   (8) IAPMO TSC 9-97, Standard for Gas Supply Connectors for
   (9) IAPMO TSC 22-85, Standard for Porcelain Enameled Formed Steel Plumbing Fixtures, IBR approved for
   (w) Military Specifications and Standards,
   (1) MIL-L-10547E-1975, Liners, Case, and Sheet, Overwrap; Water-Vapor Proof or Waterproof, Flexible, IBR approved for
   (2) [Reserved].
   (x)
   (1) ANSI/NEMA WD-6-1997 Wiring Devices-Dimensional Specifications, IBR approved for
   (2) [Reserved].
   (y) International Code Council Evaluation Service (NER), (previously known as National Evaluation Service),
   (1) NER-272, National Evaluation Report, Power Driven Staples, Nails, and Allied Fasteners for Use in All Types of
   (2) [Reserved].
   (z)
   (1) NFRC 100, Procedure for Determining Fenestration Product U-factors, 1997 Edition, IBR approved for
   (2) [Reserved].
   (aa)
   (1)
   (2)
   (3)
   (4) NFPA No. 70-2005, National Electrical Code, IBR approved as follows:
   (i) Article 110.22, IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (ii) Article 210.12(A) and (B), IBR approved for
   (iii)Article 220.61, IBR approved for
   (iv) Article 230, IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (v) Article 250.24, IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (vi) Article 250.26, IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (vii) Article 250.28, IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (viii) Article 312.2(A), IBR approved for SUBSEC 3280.803(k) and 3280.804(k).
   (x) Table 314.16(A), IBR approved for SUBSEC 3280.808(m) and 3280.808(q).
   (ix) Article 314.23(B), IBR approved for SUBSEC 3280.808(m) and 3280.808(q).
   (xi)Article 406.3, IBR approved for
   (xii)Article 410.4(D), IBR approved for
   (xiii)Article 440, IBR approved for
   (xiv) Article 440.65, IBR approved for
   (xv) Part II of Article 550, IBR approved for SUBSEC 3280.801(a) and 3280.801(b).
   (xvi) Article 550.25(a), IBR approved for
   (xvii) Article 680.70, IBR approved for SUBSEC 3280.607(c) and 3280.801(a).
   (xviii)Article 680.71, IBR approved for SUBSEC 3280.607(c) and 3280.801(a).
   (xix)Articles 680.72, IBR approved for SUBSEC 3280.607(c) and 3280.801(a).
   (5)
   (6)
   (7)
   (8)
   (bb)
   (1) PS 1-95, Construction and Industrial Plywood (With Typical APA Trademarks), IBR approved for
   (2) Voluntary Product Standard PS 2-04, Performance Standard for Wood-Based Structural-Use Panels,
   (cc)
   (1) ANSI/NSF 14-1990, Plastic Piping Components and Related Materials, IBR approved for
   (2) ANSI/NSF 24-1988, Plumbing System Components for
   (3) ANSI/NSF 61-2001, Drinking Water System Components-Health Effects, IBR approved for
   (dd) Resources, Applications, Designs, & Controls (RADCO),
   (1) RADCO DS-010-91, Decorative Gas Appliances for Installation in Solid Fuel Burning Fireplaces,
   (2) [Reserved].
   (ee)
   (1) SAE-J533b-1992, Flares for Tubing, IBR approved for SUBSEC 3280.703 and 3280.705(f).
   (2) [Reserved].
   (ff)
   (1) Standard Specifications Load Tables and Weight Tables for Steel Joists and Joist Girders, SJI 1994, Fortieth Edition, IBR approved for
   (2) [Reserved].
   (gg)
   (1) TPI-85, Design Specifications for Metal Plate and Wood Connected Trusses, IBR approved for
   (2) [Reserved].
   (hh)
   (1) UL 94-1996, with 2001 revisions, Test for Flammability of Plastic Materials for Parts in Devices and Appliances, Fifth Edition, IBR approved for
   (2) UL 103-1995, with 1999 revisions, Factory-Built Chimneys for Residential Type and
   (3) UL 109-1997, with 2001 revisions, Tube Fittings for Flammable and Combustible Fluids, Refrigeration Service, and Marine Use, Sixth Edition, IBR approved for
   (4) UL 127-1996, with 1999 revisions, Factory-Built Fireplaces, Seventh Edition, IBR approved for
   (5) UL 174-1996, with 1997 revisions, Household Electric Storage Tank Water Heaters, Tenth Edition, IBR approved for
   (6) UL 181 Factory-Made Air Ducts and Air Connectors, Ninth Edition,
   (7) UL 181A, 1994, with 1998 revisions, Standard for Safety Closure Systems for use with Rigid Air Ducts and Air Connectors, Second Edition, IBR approved for SUBSEC 3280.703 and 3280.715(c).
   (8) UL 181B, 1995, with 1998 revisions, Standard for Safety Closure Systems for use with Flexible Air Ducts and Air Connectors, First Edition, IBR approved for SUBSEC 3280.703 and 3280.715(c).
   (9) UL 217, Single and Multiple Station Smoke Alarms, Fifth Edition, dated
   (10) UL 268, Smoke Detectors for Fire Protective Signaling Systems, Fourth Edition, dated
   (11) UL 307A-1995, Liquid Fuel-Burning Heating Appliances for
   (12) UL 307B-1995, Gas Burning Heating Appliances for
   (14) UL 441, 1996 with 1999 revisions, Gas Vents, Ninth Edition, IBR approved for
   (15) UL 569, 1995 with 2001 revisions, Pigtails and Flexible Hose Connectors for LP-Gas, Seventh Edition, IBR approved for SUBSEC 3280.703 and 3280.705(k).
   (16) UL 737, 1996, Fireplace Stoves, Eight Edition, with 2000 revisions, IBR approved for
   (17) UL 923 Microwave Cooking Appliances, Fifth Edition,
   (18) UL 1042-1994, Electric Baseboard Heating Equipment, Fourth Edition, with 1998 revisions, IBR approved for
   (19) UL 1096, 1986, Electric Central Air Heating Equipment, Fourth Edition with revisions
   (20) UL 1482, 1996, with 2000 revisions, Solid-Fuel Type Room Heaters, Fifth Edition, IBR approved for
    UL 1995, 1995, Heating and Cooling Equipment, Second Edition, with 1999 revisions, IBR approved for
   (22) UL 2021-1997. Fixed and Location-Dedicated Electric Room Heaters, Second Edition, with 1998 revisions, IBR approved for
   (ii) Underwriters' Laboratories of
   (1) CAN/ULC S102.2-M88, Standard Method of Test for Surface Burning Characteristics of Floor Coverings and Miscellaneous Materials and Assemblies, Fourth Edition,
   (2) [Reserved].
   (jj)
   (1) NWWDA I.S.4-81, Water Repellent Preservative Non-Pressure Treatment for Millwork, IBR approved for
   (2) [Reserved].
   3. In
   (a) * * *
   (2) * * *
   (iv) One of the required exit doors must be accessible from the doorway of each bedroom without traveling more than 35 feet. The travel distance to the exit door must be measured on the floor or other walking surface along the center-line of the natural and unobstructed path of travel starting at the center of the bedroom door, curving around any corners or permanent obstructions with a one-foot clearance from, and ending at, the center of the exit door.
   (b) * * *
   (2) All exterior swinging doors must provide a minimum 28-inch wide x 74-inch high clear opening. Door seals are permitted to reduce the opening, either vertically or horizontally, a maximum of one inch. All exterior sliding glass doors must provide a minimum 28-inch wide x 72-inch high clear opening.
* * * * *
   4. Revise
   Each toilet compartment must have a minimum width of 30 inches, with a minimum clear space of 21 inches in front of each toilet. A toilet located adjacent to a wall must have the center-line of the toilet located a minimum of 15 inches from the wall. A toilet located adjacent to a tub must have the center-line of the toilet located a minimum of 12 inches from the outside edge of the tub.
   5. Amend
* * * * *
   (b) Hazardous locations requiring safety glazing. Except as provided in paragraph (d) of this section, the following locations and areas require the use of safety glazing conforming to the requirements of paragraph (c) of this section:
   (1) Glazing in all entrance or exit doors;
   (2) Glazing in fixed and sliding panels of sliding glass doors;
   (3) Glazing in storm-type doors;
   (4) Glazing in unframed side-hinged swinging doors;
   (5) Glazing in doors and fixed panels less than 60 inches above the room floor level that enclose bathtubs, showers, hydromassage tubs, hot tubs, whirlpools, saunas;
   (6) Glazing within 12 inches horizontally, as measured from the edge of the door in the closed position, and 60 inches vertically as measured from the room floor level, adjacent to and in the same plane of a door;
   (7) Glazing within 36 inches of an interior room walking surface when the glazing meets all of the following:
   (i) Individual glazed panels exceed 9 square feet in area in an exposed surface area;
   (ii) The bottom edge of the exposed glazing is less than 19 inches above the room floor level; and
   (iii) The top edge of the exposed glazing is greater than 36 inches above the room floor level.
   (8) Glazing in rails and guardrails; and
   (9) Glazing in unbacked mirrored wardrobe doors (i.e., mirrors that are not secured to a backing that is capable of being the door itself).
   (c) Safety glazing material is considered to be any glazing material capable of meeting the requirements of
   (d) Glazing in the following locations is not required to meet the requirements in paragraph (b) of this section:
   (1) Openings in doors through which a 3-inch sphere is unable to pass;
   (2) Leaded and decorative glazed panels;
   (3) Glazing in jalousie-type doors;
   (4) Glazing as described in paragraph (b)(6) of this section when an intervening wall or other permanent barrier exists between the door and the glazing;
   (5) Glazing as described in paragraph (b)(7) of this section when a protective bar or member is installed horizontally between 34 inches and 38 inches above the room floor level, as long as the bar or member is a minimum of 11/2 inches in height and capable of resisting a horizontal load of 50 pounds per lineal foot; and
   (6) Mirrors mounted on a flush door surface or solid wall surface.
   6. In
* * * * *
   (c) Alternative compliance. When all exposed surfaces along the bottoms and sides of combustible kitchen cabinets are protected as described in paragraph (a) of this section, the metal hood, the 5/16-inch thick gypsum board or equivalent material, and the 3/8-inch airspace required by paragraph (a) of this section can be omitted, provided that:
   (1) A microwave oven is installed between the cabinet and the range; and
   (2) The microwave oven is equivalent in fire protection to the metal range hood required by paragraph (a) of this section; and
   (3) The microwave oven is certified to be in conformance with Microwave Cooking Appliances, UL 923-2002 (incorporated by reference, see
* * * * *
SUBSEC 3280.207 through 3280.209 [Redesignated as SUBSEC 3280.208 through 3280.210]
   7. Redesignate SUBSEC 3280.207 through 3280.209 as SUBSEC 3280.208 through 3280.210, respectively.
   8. Add a new
   (a) General. Except for foam plastic materials and as provided in this section, exposed and concealed thermal insulating materials, including any facings, must be tested in accordance with
   (1) Coverings and facings of insulation batts or blankets installed in concealed spaces when the facings are in substantial contact with the unexposed surface of wall, floor, or ceiling finish; or
   (2) Cellulose loose-fill insulation that complies with paragraph (b) of this section.
   (b) Loose-fill insulation. (1) Cellulose loose-fill insulation that is not spray-applied or self-supporting must comply with, and each package must be labeled in accordance with the
   (2) Other loose-fill insulation that cannot be mounted in the
   (c) Attic locations. Exposed insulation installed on the floor or ceiling forming the lower boundary of the attic must be tested in accordance with
   9. Revise
   This subpart covers the minimum requirements for materials, products, equipment, and workmanship needed to assure that the manufactured home will provide the following:
   (a) Structural strength and rigidity;
   (b) Protection against corrosion, decay, insects, rodents, and other similar destructive forces;
   (c) Protection against wind hazards;
   (d) Resistance to the elements; and
   (e) Durability and economy of maintenance.
   10. Amend
   a. In the list under the undesignated heading "Wood and Wood Products," revise the references to "Design and Fabrication of Glued Plywood-Lumber Beams," "Design and Fabrication of Plywood Sandwich Panels," "Design and Fabrication of Plywood Stressed Skin Panels," and "Wood Structural Design Data;"
   b. In the list under the undesignated heading "Wood and Wood Products," remove the reference to "Voluntary Product Standards, Performance Standard for Wood-Based Structural Use Panels," and add in its place a reference to "Performance Standards for Wood-Based Structural Use Panels;"
   c. In the list under the undesignated heading "Wood and Wood Products," add new reference standards for "Engineered Wood Construction Guide" and for "Medium Density Fiberboard (MDF)," immediately preceding the undesignated heading "Other"; and
   d. In the list under the undesignated heading "Unclassified," remove the reference to "Safety Performance Specifications and Methods of Test for Safety Glazing Materials Used in Buildings--ANSI/Z-97.1-1984," and add in its place a reference to "Standard for Safety Glazing Materials used in Buildings --Safety Performance Specifications and Methods of Test, ANSI Z97.1-2004 (incorporated by reference, see
   The revisions and additions to read as follows:
* * * * *
   (b)(1) * * *
Wood and Wood Products
* * * * *
   Design and Fabrication of Glued Plywood-Lumber Beams, Supplement # 2--APA S 812R, 1992 (incorporated by reference, see
* * * * *
   Design and Fabrication of Plywood Sandwich Panels, Supplement #4--APA U 814H, 1990 (incorporated by reference, see
   Performance Standard for Wood-Based Structural Use Panels--NIST PS 2-04, 2004 (incorporated by reference, see
   Design and Fabrication of Plywood Stressed-Skin Panels, Supplement 3--APA-U 813L, 1992 (incorporated by reference, see
* * * * *
   Wood Structural Design Data, 1986 Edition with 1992 Revisions, AFPA.
* * * * *
   Engineered Wood Construction Guide--APA E30R 2001 (incorporated by reference, see
   Medium Density Fiberboard (MDF) For Interior Applications--ANSI A208.2-2002 (incorporated by reference, see
* * * * *
Unclassified
* * * * *
   Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test, ANSI Z97.1-2004 (incorporated by reference, see
* * * * *
   11. In
* * * * *
   (c) * * *
   (1) * * *
   (i) Standard wind loads (Zone I). When a manufactured home is not designed to resist the wind loads for high-wind areas (Zone II or Zone III) specified in paragraph (c)(1)(ii) of this section, the manufactured home and each of its wind-resisting parts and portions must be designed for horizontal wind loads of not less than 15 psf and a net uplift roof load of not less than 9 psf. The net uplift roof load must not be reduced by the dead load of the roof structure for the purposes of engineering design or structural load testing.
* * * * *
   (2) * * *
   (iv) Consideration of local requirements. For areas where wind mapping data or records or the requirements of the State or local authority indicate wind speeds in excess of those identified in this section, the Department may establish, through rulemaking, more stringent requirements for manufactured homes to be installed in such areas.
   (3) * * *
   (ii) Consideration of local requirements. For exposures in areas (mountainous or other) where recognized snow records, wind records, or the requirements of the State or local authority indicate significant differences from the loads stated in this paragraph (c)(3), the Department may establish, through rulemaking, more stringent requirements for manufactured homes to be installed in such areas. For snow loads, such requirements must be based on a roof snow load of 0.6 of the ground snow load for areas exposed to wind and a roof snow load of 0.8 of the ground snow load for sheltered areas.
* * * * *
   12. In
* * * * *
   (b) * * *
   (2) * * *
   (v) That anchoring equipment should be certified by a registered professional engineer or architect to resist these specified forces in accordance with testing procedures in ASTM D3953-97, Standard Specification for Strapping, Flat Steel and Seals (incorporated by reference, see
* * * * *
   (g) * * *
   (2) Type 1, Finish B, Grade 1 steel strapping, 11/4 inches wide and 0.035 inches in thickness, certified by a registered professional engineer or architect as conforming with ASTM D3953-97, Standard Specification for Strapping, Flat Steel and Seals (incorporated by reference, see
   13. In
   (a) Scope. This section establishes the requirements for prime windows and sliding glass doors, except that windows used in an entry door are components of the door and are excluded from these requirements.
   (b) * * *
   (2) All skylights must comply with AAMA/WDMA/CSA/101/I.S.2/A440-08: North American Fenestration Standard/Specifications for Windows, Doors and Skylights (incorporated by reference, see
   (i) For Wind Zone I, the wind loads specified in
   (ii) For Wind Zones II and III, the wind loads specified for exterior roof coverings, sheathing, and fastenings in
   (c) Installation. All primary windows, sliding glass doors, and skylights must be installed in a manner that allows proper operation and provides protection against the elements, as required by
   (d) * * *
   (1) Safety glazing materials, where used shall meet Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test, ANSI Z97.1-2004 (incorporated by reference, see
* * * * *
   (e) * * *
   (3) All skylights installed in manufactured homes must be certified as complying with AAMA/WDMA/CSA 101/I.S.2/A440-08: North American Fenestration Standard/Specifications for Windows, Doors, and Skylights (incorporated by reference, see
* * * * *
   14. In
* * * * *
   (c) * * *
   (2) An operational check of each installed egress window or device must be made at the manufactured home factory. All egress windows and devices must be capable of being opened to the minimum required dimensions by normal operation of the window without binding or requiring the use of tools. Any window or device failing this check must be repaired or replaced. A repaired window must conform to its certification. Any repaired or replaced window or device must pass the operational check.
   (3) Windows that require the removal of the sash to meet egress size requirements are prohibited.
* * * * *
   15. Amend
   a. Add "(incorporated by reference, see
   b. Redesignate paragraph (c) as paragraph (d) and add new paragraph (c).
   The addition reads as follows:
* * * * *
   (c) Liquid applied vapor retarders. Each liquid applied vapor retarder must be tested by a nationally recognized testing agency for use on the specific substrate to which it is applied. The test report must include the perm rating, as measured by ASTM E 96-95, Standard Test Methods for Water Vapor Transmission of Materials, and associated application rate for each specific substrate.
* * * * *
   16. In
   (c) Insulation compression. Insulation compressed to less than nominal thickness and loose-fill insulation in sloping cavities must have its nominal R-values reduced in compressed areas in accordance with the following table:
Table to Paragraph (c)--Effect of Insulation Compression and Restriction on R-Values Non-uniform (a) restriction Original thickness Batt Blown Uniform (b) (%) (%) (%) compression batt (%) 0 20 15 0 1 26 21 1 2 32 25 2 3 36 28 4 4 38 30 5 5 41 32 7 6 43 33 8 7 45 35 10 8 46 36 11 9 48 38 13 10 49 39 14 11 51 40 15 12 52 42 17 13 53 43 18 14 54 44 20 15 55 45 21 16 57 46 22 17 58 47 24 18 59 48 25 19 59 49 26 20 60 50 28 21 61 51 29 22 62 52 30 23 63 52 31 24 64 53 33 25 65 54 34 26 65 55 35 27 66 56 36 28 67 57 37 29 68 57 39 30 68 58 40 31 69 59 41 32 70 60 42 33 70 60 43 34 71 61 44 35 72 62 45 36 72 63 47 37 73 63 48 38 74 64 49 39 74 65 50 40 75 65 51 41 75 66 52 42 76 67 53 43 76 68 54 44 77 68 55 45 78 69 56 46 78 70 57 47 79 70 58 48 79 71 59 49 80 71 60 50 80 72 61 51 81 73 62 52 81 73 63 53 82 74 64 54 82 75 65 55 83 75 65 56 83 76 66 57 84 76 67 58 84 77 68 59 84 78 69 60 85 78 70 61 85 79 71 62 86 79 72 63 86 80 73 64 87 81 74 65 87 81 74 66 88 82 75 67 88 82 76 68 88 83 77 69 89 84 78 70 89 84 78 71 90 85 79 72 90 85 80 73 90 86 81 74 91 86 82 75 91 87 82 76 92 87 83 77 92 88 84 78 92 89 85 79 93 89 85 80 93 90 86 81 93 90 87 82 94 91 88 83 94 91 88 84 95 92 89 85 95 92 90 86 95 93 91 87 96 93 91 88 96 94 92 89 96 94 93 90 97 95 93 91 97 95 94 92 97 96 95 93 98 96 95 94 98 97 96 95 98 97 97 96 99 98 97 97 99 98 98 98 99 99 99 99 100 99 99 100 100 100 100 Note: To use this table, first compute the restricted insulation thickness as a fraction of the uncompressed (full) insulation thickness. Then look up the R-value remaining from the appropriate column (Non-uniform Restriction, Batt Non-uniform Restriction, Blown or Uniform Compression, Batt). Example: Assume a section of loose-fill ceiling insulation went from R-25 insulation at a height of 10 inches to a minimum height of 2 inches at the edge of the ceiling. The ratio of minimum to full thickness is 0.20 (2 divided by 10). Look up 0.20 (20 percent), read across to column 3 (Non-uniform Restriction, Blown), and read 50 percent. Therefore, the R-value of the loose-fill insulation over the restricted area would be R-12.5 (50 percent of 25). (a) Non-uniform restriction is that which occurs between non-parallel planes, such as in the ceiling near the eaves. (b) Uniform compression is compression between parallel planes, such as that which occurs in a wall.
* * * * *
   17. In
* * * * *
   Mechanical trap vent device means a device that automatically opens to admit air to a fixture drain above the connection of the trap arm so as to prevent siphonage, and closes tightly when the pressure within the drainage system is equal to or greater than atmospheric pressure, so as to prevent the escape of gases from the drainage system into the manufactured home.
* * * * *
   18. In   (a) * * *
   (2) Conservation. Each water closet must not use more than 1.6 gallons of water per flush.
* * * * *
   (b) * * *
   (4) * * *
   (ii) A statement in the installation instructions required by
   (iii) A receptacle outlet complying with
* * * * *
   19. Amend
   a. In the list under the undesignated heading "Plastic Pipe and Fittings", add reference standards for "Standard Specification for Crosslinked Polyethylene (PEX) Tubing" and "Standard Specification for Crosslinked Polyethylene (PEX) Plastic Hot- and Cold-Water Distribution Systems," immediately before the undesignated heading "Miscellaneous";
   b. In the list under the undesignated heading "Miscellaneous", revise the reference standard for "Standard Specification for Rubber Gaskets for Cast Iron Soil Pipe and Fittings" and "Relief Valves and Automatic Gas Shutoff Devices for Hot Water Supply Systems";
   c. In the undesignated heading "Plumbing Fixtures", revise the reference standard for "Safety Performance Specifications and Methods of Test for Safety Glazing Materials Used in Buildings"; and
   d. In the undesignated heading "Plumbing Fixtures", add a reference standard for "Performance Requirements for Automatic Compensating Values for Individual Shower and Tub/Shower Combinations" at the end of the list.
   The revisions and additions to read as follows:
* * * * *
   (b) * * *
   (2) * * *
Plastic Pipe and Fittings
* * * * *
   Standard Specification for Crosslinked Polyethylene (PEX) Tubing--ASTM F876-10 (incorporated by reference, see
   Standard Specification for Crosslinked Polyethylene (PEX) Plastic Hot- and Cold-Water Distribution Systems--ASTM F877-07 (incorporated by reference, see
Miscellaneous
* * * * *
   Standard Specification for Rubber Gaskets for Cast Iron Soil Pipe and Fittings, ASTM C564-97 (incorporated by reference, see
* * * * *
   Relief Valves for Hot Water Supply Systems, ANSI Z21.22-1999 (incorporated by reference, see
* * * * *
   Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test, ANSI Z97.1-2004 (incorporated by reference, see
* * * * *
Plumbing Fixtures
* * * * *
   Performance Requirements for Automatic Compensating Values for Individual Shower and Tub/Shower Combinations, approved
   20. Amend
   a. Redesignate paragraphs (a)(1) through (7) as paragraphs (b) through (h);
   b. Redesignate paragraphs (i) and (ii) of newly redesignated paragraph (h) as paragraphs (h)(1) and (2); and
   c. Revise newly redesignated paragraph (h)(1) to read as follows:
* * * * *
   (h) * * *
   (1) Approved or listed hub-less pipe and fittings must be permitted to be joined with listed couplings or adapters, per the manufacturer's recommendations.
* * * * *
   21. In
   (a) * * *
   (2) Combination Fixtures. For the purposes of drainage and ventilation requirements, a two- or three-compartment sink, up to three single sinks, or up to three lavatories may be connected to one "P" trap and considered as a single fixture, so long as the sinks and lavatories are in the same room, have waste outlets not more than 30 inches apart, and have flood level rims at the same level. The "P" trap must be installed at the center fixture when three such fixtures are installed.
* * * * *
   22. In
   (a) * * *
   (3) Fixture Connections. Fixture tailpieces and continuous wastes in exposed or accessible locations must be of not less than No. 20 Brown and
   (i) 11/2 inches, for sinks of two or more compartments, dishwashers, clothes washing machines, laundry tubs, bathtubs, and showers; and
   (ii) Not less than 11/4 inches for lavatories or single compartment sinks having a 2-inch maximum drain opening.
* * * * *
   (b) * * *
   (2) * * *
   (v) Floor Connection. Water closets must be securely bolted to an approved flange or other approved fitting that is secured to the floor by means of corrosion-resistant screws. The bolts must be of solid brass or other corrosion-resistant material and must not be less than 1/4 inch in diameter. A watertight seal must be made between the water closet and flange or other approved fitting by use of a gasket, sealing compound, or listed connector device.
   (3) * * *
   (iii) Shower doors and tub and shower enclosures shall be constructed so as to be waterproof and, if glazed, glazing shall comply with the Standard for Safety Glazing Materials used in Buildings--Safety Performance Specifications and Methods of Test, ANSI Z97.1-2004 (incorporated by reference, see
* * * * *
   (v) Shower, bathtub, and tub-shower combination valves must be balanced pressure, thermostatic, or combination mixing valves that conform to the requirements of ASSE 1016-2005, Performance Requirements for Automatic Compensating Values for Individual Shower and Tub/Shower Combinations (incorporated by reference, see
   (4) * * *
   (i) A dishwashing machine must discharge its waste through a fixed air gap installed above the machine, through a high loop as specified by the dishwashing machine manufacturer, or into an open standpipe receptor with a height greater than the washing compartment of the machine. When a standpipe is used, it must be at least 18 inches, but not more than 30 inches, above the trap weir. The drain connections from the air gap or high loop are permitted to connect to an individual trap to a directional fitting installed in the sink tailpiece or to an opening provided on the inlet side of a food waste disposal unit.
* * * * *
   (5) * * *
   (ii) Standpipes must be either 11/2 inch diameter minimum nominal iron pipe size, 11/2 inch diameter nominal brass tubing of not less than No. 20 Brown and Sharp gauge, or 11/2 inch diameter approved plastic materials. Receptors must discharge into a vented trap or must be connected to a laundry tub appliance by means of an approved or listed directional fitting. Each standpipe must extend not less than 18 inches or more than 42 inches above its trap and must terminate in an accessible location no lower than the top of the clothes washing machine. A removable, tight-fitting cap or plug must be installed on the standpipe when the clothes washer is not provided.
* * * * *
   (c) * * *
   (6) Hydromassage bathtub --(i) Access panel. A door or panel of sufficient size must be installed to provide access to the pump for repair or replacement.
   (ii) Piping drainage. The circulation pump must be accessibly located above the crown weir of the trap. The pump drain line must be properly sloped to drain the volute after fixture use.
   (iii) Piping. Hydromassage bathtub circulation piping must be installed to be self-draining.
* * * * *
   23. In
* * * * *
   (b) * * *
   (7) Hose bibbs. When provided, all exterior hose bibbs and laundry sink hose connections must be protected by a listed nonremovable backflow prevention device. This requirement is not applicable to hose connections provided for automatic washing machines with built-in backflow prevention or water heater drain valves.
   (8) Flushometer tanks. Flushometer tanks must be equipped with an approved air gap or vacuum breaker assembly that is located above the flood-level rim above the fixture.
* * * * *
   24. In
* * * * *
   (b) * * *
   (1) Pipe. Drainage piping must be standard weight galvanized steel, brass, copper tube DWV, listed Scheduled 40 ABS plastic, listed Scheduled 40 PVC plastic, cast iron, or other listed or approved materials.
* * * * *
   (e) Size of drainage piping. Fixture drains must be sized as follows:
   (1) Fixture drains serving a single lavatory must be a minimum of 11/4 inches in diameter.
   (2) Fixture drains serving two or three fixtures must be a minimum of 11/2 inches in diameter.
   (3) Fixture drains serving four or more fixtures that are individually vented must be a minimum of 2 inches in diameter.
   (4) Fixture drains for water closets must be a minimum of 3 inches in diameter.
* * * * *
   25. In
* * * * *
   (b) * * *
   (1) Pipe. Vent piping must be standard weight galvanized steel, brass, copper tube DWV, listed Scheduled 40 ABS plastic, listed Scheduled 40 PVC plastic, cast iron, or other listed or approved materials.
* * * * *
   (d) Mechanical Vents. Where mechanical vents are used as a secondary vent system for plumbing fixtures that are protected by traps, the mechanical vents must comply with paragraphs (d)(1) or (2) of this section.
   (1) Spring-operated mechanical (anti-siphon) vents must comply with the following:
   (i) No more than two fixtures individually protected by the spring-operated mechanical vent may be drained by a common 11/2 inch diameter drain.
   (ii) The drain size for three or more fixtures individually protected by a spring-operated mechanical vent must be at least 2 inches in diameter.
   (iii) Spring-operated mechanical vents are restricted to venting fixtures with 11/2 inch traps.
   (iv) A spring-operated mechanical vent must be installed in a location that allows a free flow of air and is accessible for inspection, maintenance, and replacement. The sealing function must be at least 6 inches above the top of the trap arm.
   (v) Materials for the spring-operated mechanical vents must be as follows:
   (A) Cap and housing must be listed acrylonitrile-butadiene-styrene, DWV grade;
   (B) Stem must be DWV grade nylon or acetal;
   (C) Spring must be stainless steel wire, Type 302; and
   (D) Sealing disc must be either:
   ( 1) Neoprene, conforming to CISPI-HSN-85, Specification for Neoprene Rubber Gaskets for HUB and Spigot Cast Iron Soil Pipe and Fittings (incorporated by reference, see
   ( 2) Other material, conforming to ASTM C920-02, Standard Specification for Elastomeric Joint Sealants (incorporated by reference, see
   (2) Gravity-operated mechanical (air admittance valves) vents must comply with the following:
   (i) Where installed to vent any fixture, the drain system must have a minimum 11/2 inch diameter vent that terminates outside the manufactured home.
   (ii) Where gravity-operated mechanical vent devices terminate in the attic cavity, the following requirements must be met:
   (A) The attic cavity must be accessible;
   (B) The sealing device must be installed a minimum of 6 inches above the insulation materials; and
   (C) The attic must be vented in accordance with
   (3) Mechanical vents must be installed in accordance with the vent manufacturer's instructions.
* * * * *
   (f) Vent terminal. Vents must terminate through the roof or wall, or to a mechanical vent device in accordance with paragraph (d) of this section.
   (1) Roof extension. Each vent pipe must extend through its flashing and terminate vertically. Vents that extend through the roof must extend undiminished in size, not less than 2 inches above the roof. Vent openings must be at least 3 feet away from any motor-driven air intake that opens into any habitable area.
   (2) Wall extensions. Extensions through exterior walls must terminate downward, have a screen to prevent entrance of birds and rodents, and be located as follows:
   (i) Extensions must not be located beneath a door, window, or other opening;
   (ii) Extensions must be a minimum of 10 feet above the finished floor;
   (iii) Extensions must be located a minimum of 2 feet above any building opening that is within 10 feet horizontally of any extension; and
   (iv) Extensions must not terminate under an overhang with soffit vents.
   (3) Flashing. The opening around each vent pipe shall be made watertight by an adequate flashing or flashing material.
* * * * *
   26. In
   a. Revise the definitions of "Class 0 air ducts," and "Class 1 air ducts";
   b. Remove the definition of "Class 2 air ducts";
   c. Add in alphabetical order definitions of "Combination space heating and water heating appliance," "Direct-vent system," and "Direct-vent system appliance";
   d. Remove the definition of "Energy efficiency ratio (EER)"; and
   e. Revise the definitions of "Heating appliance" and "Water heater".
   The additions and revisions read as follows:
* * * * *
   Class 0 air ducts and air connectors means air ducts and air connectors having a fire hazard classification of zero when tested in accordance with UL 181-2003, Factory-Made Air Ducts and Air Connectors (incorporated by reference, see
SEC 3280.4).
* * * * *
   Combination space heating and water heating appliance means a listed unit that is designed to provide space heating and water heating from a single primary energy source.
* * * * *
   Direct-vent system means a system or method of construction where all air for combustion is derived directly from the outside atmosphere and all flue gases are discharged to the outside atmosphere.
   Direct-vent system appliance means an appliance that is installed with a direct vent system.
* * * * *
   Heating appliance means an appliance for comfort heating, domestic water heating, or a combination of comfort heating and domestic water heating.
* * * * *
   Water heater means an appliance for heating water for domestic purposes.
   27. In
   a. Under the undesignated heading "Appliances," add a reference standard for "Decorative Gas Appliances for Installation in Solid Fuel Burning Appliances" after the standard for "Gas-Fired Central Furnace";
   b. Under the undesignated heading "Nonferrous Pipe, Tubing, and Fittings," revise the reference standard for "Standard Specification for Seamless Copper Tube for Air Conditioning and Refrigeration Field Service"; and
   c. Under the undesignated heading "Miscellaneous," revise the reference standards for "Factory-Made Air Ducts and Connectors," "Relief Valves and Automatic Gas Shutoff Devices for Hot Water Supply System," "Gas Appliance Thermostats," and "Standard for the Installation of Oil-Burning Equipment."
   The revisions and additions to read as follows:
* * * * *
Appliances
* * * * *
   Decorative Gas Appliances for Installation in Solid Fuel Burning Fireplaces--RADCO DS-010-91 (incorporated by reference, see
* * * * *
Nonferrous Pipe, Tubing, and Fittings
* * * * *
   Standard Specification for Seamless Copper Tube for Air Conditioning and Refrigeration Field Service--ASTM B280-95a.
* * * * *
Miscellaneous
   Factory-Made Air Ducts and Air Connectors, UL 181, Ninth Edition,
* * * * *
   Relief Valves for Hot Water Supply Systems, ANSI Z21.22-1999, (incorporated by reference, see
* * * * *
   Gas Appliance Thermostats--ANSI Z21.23-93 (incorporated by reference, see
* * * * *
   Standard for the Installation of Oil-Burning Equipment,
* * * * *
   28. Remove and reserve
   29. Amend
   a. Add paragraph (b)(5);
   b. Add Table to paragraph (d);
   c. Revise paragraph (f)(1);
   d. Revise paragraph (h); and
   e. Remove the Table designated "Part I" and the reference to "Part II [Reserved]".
   The additions and revisions read as follows:
* * * * *
   (b) * * *
   (5) Corrugated stainless steel tubing (CSST) systems must be listed and installed in accordance with ANSI/IAS LC-1-1997, Fuel Gas Piping Systems Using Corrugated Stainless Steel Tubing (CSST) (incorporated by reference, see
* * * * *
   (d) * * *
Table to paragraph (d)--Maximum Capacity of Different Sizes of Pipe and Tubing in Thousands of Btu/hr of Natural Gas for Gas Pressures of 0.5 psig or Less, and a Maximum Pressure Drop of 1/2 in. Water Column ID (in.) 10 ft 20 ft 30 ft 40 ft 50 ft Iron Pipe Sizes--Length 1/4 43 29 24 20 18 3/8 95 65 52 45 40 1/2 175 120 97 82 73 3/4 360 250 200 170 151 1 680 465 375 320 285
Table to paragraph (d)--Maximum Capacity of Different Sizes of Pipe and Tubing in Thousands of Btu/hr of Natural Gas for Gas Pressures of 0.5 psig or Less, and a Maximum Pressure Drop of 1/2 in. Water Column ID (in.) 60 ft 70 ft 80 ft 90 ft 100 ft Iron Pipe Sizes--Length 1/4 16 15 14 13 12 3/8 36 33 31 29 27 1/2 66 61 57 53 50 3/4 138 125 118 110 103 1 260 240 220 215 195
EHD *2 ID (in.) 10 ft 20 ft 30 ft 40 ft 50 ft Corrugated Stainless Steel Tubing--Length *1 13 3/8 31 21 17 14 13 15 3/8 42 30 24 20 18 18 1/2 79 56 45 39 36 19 1/2 91 64 52 45 40 23 3/4 155 111 92 80 72 25 3/4 184 132 108 93 84 30 1 317 222 180 156 138 31 1 368 258 209 180 161 37 11/4 598 426 350 304 273
EHD *2 60 ft 70 ft 80 ft 90 ft 100 ft Corrugated Stainless Steel Tubing--Length *1 13 12 11 10 10 9 15 16 15 14 13 12 18 33 30 28 27 25 19 36 35 32 31 29 23 65 60 58 55 52 25 77 71 66 62 60 30 126 116 108 103 97 31 147 135 127 120 113 37 250 231 217 205 195
OD (in.) 10 ft 20 ft 30 ft 40 ft 50 ft Copper Tubing-- Length 1/4 27 18 15 13 11 3/8 56 38 31 26 23 1/2 113 78 62 53 47 3/4 197 136 109 93 83 1 280 193 155 132 117
OD (in.) 60 ft 70 ft 80 ft 90 ft 100 ft Copper Tubing-- Length 1/4 10 9 9 8 8 3/8 21 19 18 17 16 1/2 43 39 37 34 33 3/4 75 69 64 60 57 1 106 98 91 85 81 *1 Includes losses for four 90-degree bends and two end fittings. Tubing runs with larger numbers of bend and/or fittings shall be increased by an equivalent length of tubing according to the following equation: L = 1.3n, where L is actual length (ft) of tubing and n is the number of additional fittings and/or bends. *2 EHD (Equivalent Hydraulic Diameter)--A measure of the hydraulic efficiency between different tubing sizes.
* * * * *
   (f) * * *
   (1) Tubing joints shall be made with either a single or a double flare of 45 degrees in accordance with Flares For Tubing, SAE-J533b-1992 or with other listed vibration-resistant fittings, or joints may be brazed with material having a melting point exceeding 1,000 [degrees] F. Metallic ball sleeve compression-type tubing fittings shall not be used.
* * * * *
   (h) Concealed tubing. (1) Copper tubing must not be run inside walls, floors, partitions, or roofs. Corrugated stainless steel tubing (CSST) may be run inside walls, floors, partitions, and roofs under the following conditions:
   (i) The CSST is protected from accidental puncture by a steel strike barrier not less than 0.058 inch thick, or the barrier's equivalent, installed between the tubing and the finished wall and extending 4 inches beyond concealed penetrations of plates, firestops, and wall studs, or specified by the tubing manufacturer's instructions; and
   (ii) The CSST is installed in single runs and is not rigidly secured.
   (2) Where tubing passes through exterior walls, floors, partitions, or similar construction, the tubing must be protected by the use of weather-resistant grommets that snugly fit both the tubing and the hole through which the tubing passes, or protected as specified in the tubing manufacturer's instructions.
   (3) Concealed joints: Piping or tubing joints must not be located in any wall, floor, partition, or similar concealed construction space.
* * * * *
   30. In
* * * * *
   (j) Testing Tag. A tag must be affixed to each oil-fired appliance stating: "Before setting the system in operation, tank installations and piping must be checked for oil leaks with fuel oil of the same grade that will be burned in the appliance. No other material may be used for testing fuel oil tanks and piping. Tanks must be filled to maximum capacity for the final check for oil leakage."
   31. In
   (a) * * *
   (2) Each gas and oil burning comfort heating appliance must have an Annual Fuel Utilization Efficiency of not less than that specified in 10 CFR part 430,
* * * * *
   (d) Performance efficiency. Each automatic storage water heater must comply with the efficiency requirements of 10 CFR part 430,
* * * * *
   (2) All gas and oil-fired automatic storage water heaters shall have a recovery efficiency, E, and a standby loss, S, as described below. The method of test of E and S shall be as described in section 2.7 of Gas Water heaters, Vol. I, Storage Water Heaters with Input/Ratings of 75,000 BTU per hour or less, ANSI Z21.10.1-1998 with addendums Z21.10.1a-2000, and Z21.10.1b-1992, except that for oil-fired units. CF=1.0, Q=total gallons of oil consumed and H=total heating value of oil in BTU/gallon.
Storage capacity in Recovery efficiency Standby loss gallons Less than 25 At least 75 percent. Not more than 7.5 percent. 25 up to 35 00 Not more than 7 percent. 35 or more 00 Not more than 6 percent.
* * * * *
   (f) Oil-fired heating equipment. All oil-fired heating equipment must conform to Liquid Fuel-burning Heating Appliances for
* * * * *
   32. Revise
   Operating instructions must be provided with each appliance. The operating and installation instructions for each appliance must be provided with the homeowner's manual.
   33. Amend
   a. Add "(incorporated by reference, see
   b. Revise paragraphs (a)(1)(i) and (ii).
   The revisions read as follows:
   (a) * * *
   (1) * * *
   (i) Electric motor-driven unitary air-cooled air conditioners and heat pumps in the cooling mode with rated capacity less than 65,000 BTU/hour (19,045 watts), when rated at ARI standard rating conditions in ARI Standard 210/240-89, Unitary Air-Conditioning and Air-Source Heat Pump Equipment, must have seasonal energy efficiency (SEER) values not less than as specified in 10 CFR Part 430,
   (ii) Heat pumps must be certified to comply with all requirements of the ARI Standard 210/240-89,
* * * * *
   34. In
   (a) * * *
   (1) Supply air ducts, fittings, and any dampers contained therein must be made of galvanized steel, tin-plated steel, or aluminum, or must be listed as Class 0 or Class 1 air ducts and air connectors in accordance with UL 181-2003, Factory-Made Air Ducts and Air Connectors (incorporated by reference, see
* * * * *
   (5) * * *
   (ii) The manufacturer must provide installation instructions for supporting, mechanically fastening, sealing, and insulating each crossover duct. The instructions must indicate that no portion of the crossover duct is to be in contact with the ground, and must describe the means to support the duct without compressing the insulation and restricting airflow.
* * * * *
   (7) Unless installed in a basement, supply and return ducts, fittings, and crossover duct plenums exposed directly to outside air, such as those under-chassis crossover ducts or ducts connecting external heating, cooling, or combination heating/cooling appliances, must be insulated with material having a minimum thermal resistance of R-8 in all Thermal Zones. All such insulating materials must have a continuous vapor barrier retarder having a perm rating of not more than 1 perm. Where ducts are exposed underneath the manufactured home, they must comply with paragraph (a)(5)(ii) of this section, and shall be listed for exterior use.
* * * * *
   (d) Supports and protection. Ducts must be securely supported. Nails or other fasteners must not be driven or penetrate through duct walls. Where vertical ducts are installed within closets or rooms, they must be enclosed with materials equivalent to those used in the closet or room construction.
* * * * *
   36. In
   (a) * * *
   (37) Receptacle means a contact device installed at the outlet for the connection of an attachment plug. A single receptacle is a single contact device with no other contact device on the same yoke. A multiple receptacle is a device with two or more contact devices on the same yoke.
* * * * *
   (39) Utilization equipment means equipment that utilizes electric energy for electronic, electromechanical, chemical, heating, lighting, or similar purposes.
* * * * *
   37. In
* * * * *
   (d) A suitable clamp or the equivalent must be provided at the distribution panelboard knockout to afford strain relief for the cord to prevent strain from being transmitted to the terminals when the power supply cord is handled in its intended manner.
* * * * *
   (f) The attachment plug cap must be a 3-pole, 4-wire, grounding type, rated 50 amperes, 125/250 volts, intended for use with the 50-ampere, 125/250-volt receptacle configuration, as shown below. The cap must be listed, by itself or as part of a power-supply cord assembly, for the purpose, and must be molded to or installed on the flexible cord so that it is secured tightly to the cord at the point where the cord enters the attachment plug cap. If a right-angle cap is used, the configuration must be so oriented that the grounding member is farthest from the cord.
See Illustration in Original Document.
   (i) Where the cord passes through walls or floors, it must be protected by means of conduits and bushings or the equivalent. The cord is permitted to be installed within the manufactured home walls, provided that a continuous raceway having a maximum size of 11/4 inch is installed from the branch-circuit panelboard to the underside of the manufactured home floor.
* * * * *
   (k) * * *
   (2) A listed metal raceway or listed rigid nonmetallic conduit from the disconnecting means in the manufactured home to the underside of the manufactured home, with provisions for the attachment of a suitable junction box or fitting to the raceway on the underside of the manufactured home. The manufacturer must provide written installation instructions stating the proper feeder conductor sizes for the raceway and the size of the junction box to be used; or
   (3) Service equipment installed in or on the manufactured home, provided that all of the following conditions are met:
   (i) In its written installation instructions, the manufacturer must include information indicating that the home must be secured in place by an anchoring system or installed on and secured to a permanent foundation;
   (ii) The installation of the service equipment complies with Article 230 of the National Electrical Code,
   (iii) Means are provided for the connection of the grounding electrode conductor to the service equipment and routing it to the conductor outside the structure;
   (iv) Bonding and grounding of the service must be in accordance with Article 250,
   (v) The manufacturer must include in its installation instructions one method of grounding the service equipment at the installation site. The instructions must clearly state that other methods of grounding are found in Article 250 of
   (vi) The minimum size grounding electrode conductor must be specified in the instructions; and
   (vi) A red warning label must be mounted on or adjacent to the service equipment. The label must state the following: WARNING--DO NOT PROVIDE ELECTRICAL POWER UNTIL THE GROUNDING ELECTRODE(S) IS INSTALLED AND CONNECTED (SEE INSTALLATION INSTRUCTIONS).
   38. In
   (a) The branch-circuit equipment is permitted to be combined with the disconnecting means as a single assembly. Such a combination is permitted to be designated as a distribution panelboard. If a fused distribution panelboard is used, the maximum fuse size for the mains shall be plainly marked, with the lettering at least 1/4-inch high and visible when fuses are changed. See Article 110-22 of
* * * * *
   (c) Disconnecting means. A single disconnecting means must be provided in each manufactured home, consisting of a circuit breaker, or a switch and fuses and its accessories, installed in a readily accessible location near the point of entrance of the supply cord or conductors into the manufactured home. The main circuit breakers or fuses must be plainly marked "Main." This equipment must contain a solderless type of grounding connector or bar for the purposes of grounding, with sufficient terminals for all grounding conductors. The neutral bar termination of the grounded circuit conductors must be insulated in accordance with
* * * * *
   (e) A distribution panelboard employing a main circuit breaker must be rated not less than 50 amperes and employ a 2-pole circuit breaker rated 40 amperes for a 40-ampere supply cord, or 50 amperes for a 50-ampere supply cord. A distribution panelboard employing a disconnect switch and fuses must be rated not less than 60 amperes and must employ a single, 2-pole fuseholder rated not less than 60-amperes with 40- or 50-ampere main fuses for 40- or 50-ampere supply cords, respectively. The outside of the distribution panelboard must be plainly marked with the fuse size.
   (f) The distribution panelboard must be located in an accessible location, and must not be located in a bathroom or a clothes closet. A clear working space at least 30 inches wide and 30 inches in front of the distribution panelboard must be provided. This space must extend from the floor to the top of the distribution panelboard. Where used as switches, circuit breakers must be installed so that the center of the grip of the operating handle of the circuit breaker, when in its highest position, will not be more than 6 feet, 7 inches above the floor.
* * * * *
   39. In
   (a) * * *
   (1) * * * Lighting circuits are permitted to serve built-in gas ovens with electric service for lights, clocks, or timers, or for listed cord-connected garbage disposal units.
   (2) Small Appliances. For the small appliance load in kitchens, pantries, dining rooms, and breakfast rooms of manufactured homes, two or more 20-ampere appliance branch circuits, in addition to the branch circuit specified in paragraph (a)(1) of this section, must be provided for all receptacle outlets in these rooms, and such circuits must have no other outlets. Countertop receptacle outlets installed in the kitchen must be supplied by not less than two small appliance branch circuits. One or more of the small appliance branch circuits may also supply other receptacle outlets in the kitchen, pantry, dining room, and breakfast room. Receptacles installed solely for the electrical supply to an electric clock and receptacles installed to provide power for supplemental equipment and lighting on gas-fired ranges, ovens, or counter-mounted cooking units are not subject to the requirements of this paragraph (a)(2).
   (3) * * *
   (i) The ampere rating of fixed appliances must not exceed 50 percent of the circuit rating if lighting outlets are on the same circuit (receptacles in the kitchen, dining area, and laundry are not considered to be lighting outlets);
* * * * *
   (vi) Bathroom receptacle outlets must be supplied by at least one 20-ampere branch circuit. Such circuits must have no other outlets, except that it is permissible to place the receptacle outlet for a heat tape or pipe heating cable required by
* * * * *
   40. In
* * * * *
   (b) All 125-volt, single-phase, 15- and 20-ampere receptacle outlets installed outdoors, or in compartments accessible from outside the manufactured home, and in bathrooms, including receptacles in light fixtures, must have ground-fault circuit-interrupter protection for personnel. Ground-fault circuit-interrupter protection for personnel must be provided for receptacles serving countertops in kitchens and receptacle outlets located within 6 feet of a wet bar sink, except for receptacles installed for appliances in dedicated spaces, such as dishwashers, disposals, refrigerators, freezers, and laundry equipment.
* * * * *
   (d) Receptacle outlets required. Except in the bath, closet, and hall areas, receptacle outlets must be installed at wall spaces 2 feet or more wide, so that no point along the floor line is more than 6 feet, measured horizontally, from an outlet in that space. Receptacle outlets in floors shall not be counted as part of the required number of receptacle outlets, unless located within 18 inches of the wall. In addition, a receptacle outlet must be installed in the following locations:
* * * * *
   (10) On the underside of the home for the connection of pipe heating cable(s) or heat tape(s), and the outlet must:
   (i) Be located within 2 feet of the cold water inlet;
   (ii) Be connected to an interior branch circuit, other than a small appliance branch circuit;
   (iii) Be located on a circuit where all of the outlets are on the load side of the ground-fault circuit-interrupter protection for personnel; and
   (iv) Not be considered as the receptacle outlet required by paragraph (8) of this section.
* * * * *
   (g) Receptacles must not be in a face-up position in any countertop.
   41. In
* * * * *
   (c) Where a lighting fixture is installed over a bathtub or in a shower stall, it must be listed for wet locations. [See also Article 410.4(D) of the National Electrical Code NFPA No. 70-2005.]
* * * * *
   42. In
   a. Revise paragraphs (f), (h), (i) introductory text, (i)(1), and (k);
   b. Remove paragraph (l);
   c. Redesignate paragraphs (m) through (r) as paragraphs (l) through (q); and
   d. Revise newly redesignated paragraph (o)(2),
   The revisions read as follows:
* * * * *
   (f) Where metal faceplates are used, they must be effectively grounded.
* * * * *
   (h) Where rigid metal conduit or intermediate metal conduit is terminated at an enclosure with a locknut and bushing connection, two locknuts must be provided, one inside and one outside of the enclosure. Rigid nonmetallic conduit or electrical nonmetallic tubing is permitted. All cut ends of conduit and tubing must be reamed or otherwise finished to remove rough edges.
   (i) Switches must be rated as follows:
   (1) For lighting circuits, switches must be rated not less than 10 amperes, 120 to 125 volts, and in no case less than the connected load.
   * * *
   (k) When outdoor or under-chassis line-voltage (120 volts, nominal or higher) wiring is exposed to moisture or physical damage, it must be protected by rigid metal conduit or intermediate metal conduit. The conductors must be suitable for wet locations. Electrical metallic tubing or rigid nonmetallic conduit is permitted to be used when closely routed against frames and equipment enclosures.
* * * * *
   (o) * * *
   (2) Conductors having an insulation suitable for the temperature encountered may be run from the appliance terminal connections to a readily accessible outlet box placed at least one foot from the appliance. If provided, these conductors must be in a suitable raceway or Type AC or MC cable, of at least 18 inches but not more than 6 feet in length.
* * * * *
   43. In
* * * * *
   (b) A manufactured home provided with a branch circuit designed to energize outside heating equipment or air-conditioning equipment, other than room air conditioners, or both, located outside the manufactured home, other than room air conditioners, must have such branch-circuit conductors terminate in a listed outlet box, or disconnecting means, located on the outside of the manufactured home.
   (1) A label must be permanently affixed adjacent to the outlet box. The label must be not less than 0.020-inches thick etched brass, stainless steel, anodized or alclad aluminum, or equivalent, and must not be less than 3 inches x 13/4 inches in size.
   (2)(i) The label must include the correct voltage and ampere rating and the following information:
   THIS CONNECTION IS FOR HEATING AND/OR AIR-CONDITIONING EQUIPMENT. THE BRANCH CIRCUIT IS RATED AT NOT MORE THAN__AMPERES, AT__VOLTS, 60-HERTZ,__CONDUCTOR AMPACITY. A DISCONNECTING MEANS IS LOCATED WITHIN SIGHT OF THE EQUIPMENT.
   (ii) The correct voltage and ampere rating shall be given. The tag must be not less than 0.020-inches thick etched brass, stainless steel, anodized or alclad aluminum, or equivalent. The tag must have a minimum size of not less than 3 inches x 13/4 inches.
   44. In
   (a)(1) Except as provided in paragraph (a)(2) of this section, the white conductor must be employed for the grounded (neutral) circuit conductors only and must be connected to the white terminal or lead on receptacle outlets and fixtures. The grounded conductor must be the unswitched wire in switched circuits.
   (2) A cable containing an insulated conductor with a white or natural gray outer finish or a marking of three continuous white stripes may be used for single-pole, three-way, or four-way switch loops, where this conductor is used for the supply to the switch, but not as a return conductor from the switch to the switched outlet. In these applications, the conductor with white or natural gray insulation or with three continuous white stripes must be permanently re-identified to indicate its use by painting or other effective means at its terminations and at each location where the conductor is visible and accessible.
* * * * *
   Dated:
Acting Assistant Secretary for Housing--
[FR Doc. 2013-28775 Filed 12-6-13;
BILLING CODE 4210-67-P
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