10 CFR 431.463 – Materials incorporated by reference
(a) Certain material is incorporated by reference into this subpart with the approval of the Director of the Federal Register in accordance with 5 U.S.C. § 552(a) and 1 CFR part 51. To enforce any edition other than that specified in this section, DOE must publish a document in the
(b) ASME. American Society of Mechanical Engineers, Two Park Avenue, New York, NY 10016-5990; (800) 843-2763; www.asme.org.
(1) ASME MFC-3M-2004 (Reaffirmed 2017) (“ASME MFC-3M-2004”), Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi, Issued January 1, 2004; IBR approved for appendix A to this subpart.
(2) ANSI/ASME MFC-5M-1985 (Reaffirmed 2006) (“ASME MFC-5M-1985”), Measurement of Liquid Flow in Closed Conduits Using Transit-Time Ultrasonic Flowmeters, Issued July 15, 1985; IBR approved for appendix A to this subpart.
(3) ASME MFC-8M-2001 (Reaffirmed 2011) (“ASME MFC-8M-2001”), Fluid Flow in Closed Conduits: Connections for Pressure Signal Transmissions Between Primary and Secondary Devices, Issued September 1, 2001; IBR approved for appendix A to this subpart.
(4) ASME MFC-12M-2006 (Reaffirmed 2014) (“ASME MFC-12M-2006”), Measurement of Fluid Flow in Closed Conduits Using Multiport Averaging Pitot Primary Elements, Issued October 9, 2006; IBR approved for appendix A to this subpart.
(5) ASME MFC-16-2014, Measurement of Liquid Flow in Closed Conduits with Electromagnetic Flowmeters, Issued March 14, 2014; IBR approved for appendix A to this subpart.
(6) ASME MFC-22-2007 (Reaffirmed 2014) (“ASME MFC-22-2007”), Measurement of Liquid by Turbine Flowmeters, Issued April 14, 2008; IBR approved for appendix A to this subpart.
(c) AWWA. American Water Works Association, Headquarters, 6666 W Quincy Ave, Denver, CO 80235; (303) 794-7711; www.awwa.org.
(1) ANSI/AWWA E103-2015 (“AWWA E103-2015”), Horizontal and Vertical Line-Shaft Pumps, approved 7, 2015; IBR approved for appendix A to this subpart.
(2) [Reserved]
(d) CSA. Canadian Standards Association, 5060 Spectrum Way, Suite 100, Mississauga, Ontario, L4W 5N6, Canada; (800) 463-6727; www.csagroup.org.
(1) CSA C390-10 Test methods, marking requirements, and energy efficiency levels for three-phase induction motors, Updated March 2010; IBR approved for appendix A to this subpart.
(2) CSA C747-2009 (Reaffirmed 2014) (“CSA C747-2009 (RA 2014)”), Energy efficiency test methods for small motors, CSA reaffirmed 2014; IBR approved for appendices B and C to this subpart, as follows:
(i) Section 1, “Scope”;
(ii) Section 3, “Definitions”;
(iii) Section 5, “General Test Requirements”; and
(iv) Section 6, “Test Method.”
(e) FM. FM Global, 1151 Boston-Providence Turnpike, P.O. Box 9102, Norwood, MA 02062; (781) 762-4300; www.fmglobal.com.
(1) FM Class Number 1319, Approval Standard for Centrifugal Fire Pumps (Horizontal, End Suction Type), January 2015; IBR approved for § 431.462.
(2) [Reserved]
(f) HI. Hydraulic Institute, 300 Interpace Parkway, 3rd Floor, Parsippany, NJ 07054-4406; 973-267-9700; www.Pumps.org.
(1) ANSI/HI 9.6.1-2017 (“HI 9.6.1-2017”) “Rotodynamic Pumps—Guideline for NPSH Margin, ANSI-approved January 6, 2017; IBR approved for appendix A to this subpart.
(2) ANSI/HI 9.6.6-2016 (“HI 9.6.6-2016”) “Rotodynamic Pumps for Pump Piping, ANSI-approved March 23, 2016; IBR approved for appendix A to this subpart.
(3) ANSI/HI 9.8-2018 (“HI 9.8-2018”) “Rotodynamic Pumps for Pump Intake Design, ANSI-approved January 8, 2018; IBR approved for appendix A to this subpart.
(4) ANSI/HI 14.1-14.2-2019 (“HI 14.1-14.2-2019”) “Rotodynamic Pumps for Nomenclature and Definitions, ANSI-approved April 9, 2019; IBR approved for appendix A to this subpart.
(5) HI 40.6-2014 (“HI 40.6-2014-B”), Methods for Rotodynamic Pump Efficiency Testing, copyright 2014, IBR approved for appendices B and C to this subpart, excluding the following:
(i) Section 40.6.4.1 “Vertically suspended pumps”;
(ii) Section 40.6.4.2 “Submersible pumps”;
(iii) Section 40.6.5.3 “Test report”;
(iv) Section 40.6.5.5 “Test conditions”;
(v) Section 40.6.5.5.2 “Speed of rotation during test”;
(vi) Section 40.6.6.1 “Translation of test results to rated speed of rotation”;
(vii) Appendix A “Test arrangements (normative)”: A.7 “Testing at temperatures exceeding 30 °C (86 °F)”; and
(viii) Appendix B, “Reporting of test results (normative)”).
(6) HI 40.6-2021, Hydraulic Institute Standard for Methods for Rotodynamic Pump Efficiency Testing, approved February 17, 2021; IBR approved for appendices A and D to this subpart.
(7) HI 41.5-2022, Hydraulic Institute Program Guideline for Circulator Pump Energy Rating Program, approved June 16, 2022; IBR approved for appendix D to this subpart.
(8) HI Engineering Data Book, Second Edition copyright 1990; IBR approved for appendix A to this subpart.
(g) IEEE. Institute of Electrical and Electronics Engineers, Inc., 45 Hoes Lane, P.O. Box 1331, Piscataway, NJ 08855-1331; (732) 981-0060; www.ieee.org.
(1) IEEE 112-2017, IEEE Standard Test Procedure for Polyphase Induction Motors and Generators, published February 14, 2018; IBR approved for appendix A to this subpart.
(2) IEEE 113-1985, IEEE Guide: Test Procedures for Direct-Current Machines,” copyright 1985, IBR approved for appendices B and C to this subpart, as follows:
(i) Section 3, Electrical Measurements and Power Sources for all Test Procedures:
(A) Section 3.1, “Instrument Selection Factors”;
(B) Section 3.4 “Power Measurement”; and
(C) Section 3.5 “Power Sources”;
(ii) Section 4, Preliminary Tests:
(A) Section 4.1, Reference Conditions, Section 4.1.2, “Ambient Air”; and
(B) Section 4.1, Reference Conditions, Section 4.1.4 “Direction of Rotation”; and
(iii) Section 5, Performance Determination:
(A) Section 5.4, Efficiency, Section 5.4.1, “Reference Conditions”; and
(B) Section 5.4.3, Direct Measurements of Input and Output, Section 5.4.3.2 “Dynomometer or Torquemeter Method.”
(3) IEEE 114-2010 (“IEEE 114-2010-A”), IEEE Standard Test Procedure for Single-Phase Induction Motors, published December 23, 2010; IBR approved for appendix A to this subpart.
(4) IEEE 114-2010 (“IEEE 114-2010”), “IEEE Standard Test Procedure for Single-Phase Induction Motors,” approved September 30, 2010, IBR approved for appendices B and C to this subpart, as follows:
(i) Section 3, “General tests”, Section 3.2, “Tests with load”;
(ii) Section 4 “Testing facilities”; and
(iii) Section 5, “Measurements”:
(A) Section 5.2 “Mechanical measurements”;
(B) Section 5.3 “Temperature measurements”; and
(iv) Section 6 “Tests.”
(h) ISO. International Organization for Standardization, Chemin de Blandonnet 8, CP 401, 1214 Vernier, Geneva, Switzerland, +41 22 749 01 11. www.iso.org.
(1) ISO 1438:2017(E) (“ISO 1438:2017”), Hydrometry—Open channel flow measurement using thin-plate weirs, Third edition, April 2017; IBR approved for appendix A to this subpart.
(2) ISO 2186:2007(E) (“ISO 2186:2007”), Fluid flow in closed conduits—Connections for pressure signal transmissions between primary and secondary elements, Second edition, March 1, 2007; IBR approved for appendix A to this subpart.
(3) ISO 2715:2017(E) (“ISO 2715:2017”), Liquid hydrocarbons—Volumetric measurement by turbine flowmeter, Second edition, November 1, 2017; IBR approved for appendix A to this subpart.
(4) ISO 3354:2008(E) (“ISO 3354:2008”), Measurement of clean water flow in closed conduits—Velocity-area method using current-meters in full conduits and under regular flow conditions, Third edition, July 15, 2008; IBR approved for appendix A to this subpart.
(5) ISO 3966:2020(E) (“ISO 3966:2020”), Measurement of fluid flow in closed conduits—Velocity area method using Pitot static tubes, Third edition, July 27, 2020; IBR approved for appendix A to this subpart.
(6) ISO 5167-1:2003(E) (“ISO 5167-1:2003”), Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full—Part 1: General principles and requirements, Second edition, March 1, 2003; IBR approved for appendix A to this subpart.
(7) ISO 5198:1987(E) (“ISO 5198:1987”), Centrifugal, mixed flow and axial pumps—Code for hydraulic performance tests—Precision class, First edition, July 1, 1987; IBR approved for appendix A to this subpart.
(8) ISO 6416:2017(E) (“ISO 6416:2017”), Hydrometry—Measurement of discharge by the ultrasonic transit time (time of flight) method, Fourth edition, October 2017; IBR approved for appendix A to this subpart.
(9) ISO 20456:2017(E) (“ISO 20456:2017”), Measurement of fluid flow in closed conduits—Guidance for the use of electromagnetic flowmeters for conductive liquids, First edition, September 2017; IBR approved for appendix A to this subpart.
(i) NFPA. National Fire Protection Association, 1 Batterymarch Park, Quincy, MA 02169-7471; (617) 770-3000; www.nfpa.org.
(1) NFPA 20 (“NFPA 20-2016”), Standard for the Installation of Stationary Pumps for Fire Protection, 2016 Edition, approved June 15, 2015, IBR approved for § 431.462.
(2) [Reserved]
(j) NSF. NSF International, 789 N. Dixboro Road, Ann Arbor, MI 48105; (743) 769-8010; www.nsf.org.
(1) NSF/ANSI 50-2015, Equipment for Swimming Pools, Spas, Hot Tubs and Other Recreational Water Facilities, Annex C, normative Test methods for the evaluation of centrifugal pumps, Section C.3, Self-priming capability, ANSI-approved January 26, 2015; IBR approved for § 431.462 and appendices B and C to this subpart.
(2) [Reserved]
(k) UL. UL, 333 Pfingsten Road, Northbrook, IL 60062; (847) 272-8800; www.ul.com.
(1) UL 448 (“ANSI/UL 448-2013”), Standard for Safety Centrifugal Stationary Pumps for Fire-Protection Service, 10th Edition, June 8, 2007, including revisions through July 12, 2013; IBR approved for § 431.462.
(2) UL 1081 (“ANSI/UL 1081-2016”), Standard for Swimming Pool Pumps, Filters, and Chlorinators, 7th Edition, ANSI-approved October 21, 2016; IBR approved for § 431.462.