1、F379S1-11Supplement No. 1 to CSA F379 Series-09, Packaged solar domestic hot water systems (liquid-to-liquid heat transfer)March 2011Note: General Instructions for CSA Standards are now called Updates. Please contact CSA Information Products Sales or visit www.ShopCSA.ca for information about the CS
2、A Standards Update Service.Title: Packaged solar domestic hot water systems (liquid-to-liquid heat transfer) originally publishedJanuary 2009The following revisions have been formally approved and are marked by the symbol delta () in the margin on the attached replacement pages:Revised F379 Series-0
3、9: PrefaceF379.1-09: Clauses 2, 3, 5.1.1, 5.4.5, 5.4.7, 5.7.1, 6.2.2, 6.6.1, 6.9, 6.10.7, 6.10.8, 7.3.1, 7.4.3.1, 8.2, 8.4.4, 8.5.3, 8.5.4, 8.7.4.2, and 9.2New F379 Series-09: Technical Committee (membership at the time of the formal approval of CSA F379S1-11) and Subcommittee on Packaged Solar Dome
4、stic Hot Water Systems (membership at the time of the formal approval of CSA F379S1-11)F379.1-09: Clauses 6.5.1A and 8.11 and Annexes A and BDeleted F379.1-09: Clause 6.8 and Table 1F379.2-09: Clause 6.8 Update your copy by inserting these revised pages. Keep the pages you remove for reference. Cana
5、dian Standards AssociationSupplement No. 1 to CSA F379 Series-09, Packaged solar domestic hot water systems (liquid-to-liquid heat transfer)March 2011Technical Committee on Renewables (CSA F379 Series-09)Note: This list reflects the Technical Committee membership when CSA F379 Series-09 was formally
6、 approved.R.K. Swartman Solcan Limited,London, Ontario ChairW. Eggertson Canadian Association for Renewable Energies,Ottawa, Ontario Vice-ChairA. Brunger Bodycote Materials Testing Canada,Mississauga, Ontario R.L.D. Cane Caneta Research,Mississauga, Ontario L. Dignard-Bailey Natural Resources Canada
7、,Varennes, QubecP. Drewes Sol Source Engineering,Newmarket, Ontario E. Grzesik Ontario Ministry of Energy,Toronto, Ontario AssociateS. Harrison Queens University,Kingston, Ontario G.D.A. Henriques Richmond, British ColumbiaConsumer RepresentativeAssociateJ. Hodge Toronto, Ontario Consumer Representa
8、tiveN. Hutchings Ontario Power Authority,Toronto, Ontario A. Jenkins Ontario Ministry of Energy,Toronto, Ontario AssociateD. Lorriman Namirrol Ltd.,Perkinsfield, Ontario AssociateA.J. McKegney SolarO,Oakville, Ontario AssociateE. Morofsky Public Works (b) provide an explanation of circumstances surr
9、ounding the actual field condition; and(c) be phrased where possible to permit a specific “yes” or “no” answer.Committee interpretations are processed in accordance with the CSA Directives and guidelines governingstandardization and are published in CSAs periodical Info Update, which is available on
10、 the CSA Web site atwww.csa.ca.xvi Canadian Standards AssociationSupplement No. 1 to CSA F379 Series-09, Packaged solar domestic hot water systems (liquid-to-liquid heat transfer)March 2011F379.1-09Packaged solar domestic hot water systems (liquid-to-liquid heat transfer) for all-season use1 Scope1.
11、1 This Standard applies to the performance, durability, and safety of packaged solar domestic hot water (SDHW) systems that use liquid-to-liquid heat transfer and liquid heat storage media suitable for year-round use.1.2 This Standard specifies requirements for both factory-packaged and add-on packa
12、ged systems.1.3 This Standard applies to the components and materials supplied by the manufacturer, the assembly and installation instructions, and the operation of the system after it has been assembled according to these instructions. It does not apply to site preparation or installation procedure
13、s.Note: The installation of systems that meet the requirements of this Standard is covered by CSA F383.1.4 This Standard is not intended as a design specification or as an instruction manual for untrained persons.1.5 In CSA Standards, “shall” is used to express a requirement, i.e., a provision that
14、the user is obliged to satisfy in order to comply with the standard; “should” is used to express a recommendation or that which is advised but not required; “may” is used to express an option or that which is permissible within the limits of the standard; and “can” is used to express possibility or
15、capability. Notes accompanying clauses do not include requirements or alternative requirements; the purpose of a note accompanying a clause is to separate from the text explanatory or informative material. Notes to tables and figures are considered part of the table or figure and may be written as r
16、equirements. Annexes are designated normative (mandatory) or informative (non-mandatory) to define their application.1.6 The values given in SI (metric) units are the standard. Any values given in parentheses are for information purposes only.2 Reference publicationsThis Standard refers to the follo
17、wing publications, and where such reference is made, it shall be to the edition listed below, including all amendments published thereto.Note: In cases where the editions listed below are amended, replaced by new editions, or superseded by another standard during the life of this referencing Standar
18、d, it is the responsibility of the users of this Standard to investigate the possibility of applying those amendments, new editions, or superseding standards.3(Replaces p. 3, January 2009)F379S1-11 Canadian Standards AssociationMarch 2011CSA (Canadian Standards Association)ANSI Z21.10.1-2009/CSA 4.1
19、-2009Gas water heaters Volume I, Storage water heaters with input ratings of 75,000 Btu per hour or lessANSI Z21.22-1999/CSA 4.4-M99 (R2008)Relief valves for hot water supply systemsCAN/CSA-B64 Series-07Backflow preventers and vacuum breakersASME A112.18.1-2005/CAN/CSA-B125.1-05Plumbing supply fitti
20、ngsCAN/CSA-B125.3-05Plumbing fittingsB140.12-03Oil-burning equipment: Service water heaters for domestic hot water, space heating, and swimming poolsC22.1-09Canadian Electrical Code, Part IC22.2 No. 24-93 (R2008)Temperature-indicating and -regulating equipmentCAN/CSA-C22.2 No. 108-01 (R2006)Liquid p
21、umpsCAN/CSA-C22.2 No. 110-94 (R2009)Construction and test of electric storage-tank water heatersC22.2 No. 139-10Electrically operated valvesCAN/CSA-C309-M90 (R2003)Performance requirements for glass-lined storage tanks for household hot water serviceCAN/CSA-E60730-1:02 (R2007)Automatic electrical co
22、ntrols for household and similar use Part 1: General requirementsCAN/CSA-F378-87 (R2009)Solar collectorsF383-08Installation of packaged solar domestic hot water systemsW47.1-03Certification of companies for fusion welding of steelASHRAE (American Society of Heating, Refrigerating and Air-Conditionin
23、g Engineers)ANSI/ASHRAE 93Methods of Testing to Determine the Thermal Performance of Solar Collectors95-1987Methods of Testing to Determine the Thermal Performance of Solar Domestic Water Heating Systems(Replaces p. 4, January 2009)4 Canadian Standards AssociationSupplement No. 1 to CSA F379 Series-
24、09, Packaged solar domestic hot water systems (liquid-to-liquid heat transfer)March 2011ASSE (American Society of Sanitary Engineers)ANSI/ASSE 1010-2004Performance Requirements for Water Hammer ArrestersANSI/ASSE 1051-2009Performance Requirements for Individual and Branch Type Air Admittance Valves
25、for Sanitary Drainage SystemsBNQ (Bureau de Normalisation du Qubec)3660-950 (2003)Safety of Products and Materials in Contact with Drinking WaterCGSB (Canadian General Standards Board)19-GP Series of Standards19-GP-5M-1976Sealing Compound, One Component, Acrylic Base, Solvent Curing19-GP-14M-1976Sea
26、ling Compound, One Component, Butyl-Polyisobutylene Polymer Base, Solvent CuringNational Research Council CanadaNational Building Code of Canada, 2005ULC (Underwriters Laboratories of Canada)CAN/ULC-S102-07Standard Method of Test for Surface Burning Characteristics of Building Materials and Assembli
27、esCAN/ULC-S114-05Standard Method of Test for Determination of Non-Combustibility in Building MaterialsOther publicationHarrison, S.J., and C.A. Cruickshank. 2007. Annual Performance Prediction of a SDHW System Based on CSA Test Results and Computer Simulation. Proceedings of the Joint Conference of
28、the Canadian Solar Buildings Research Network and Solar Energy Society of Canada Inc. (SESCI). Calgary.5(Replaces p. 5, January 2009)F379S1-11 Canadian Standards AssociationMarch 20113 DefinitionsThe following definitions apply in this Standard:Notes: (1) The definitions in this Clause also apply to
29、 CSA F379.2.(2) Wherever possible, the meaning in common use in the residential construction field has been used.Accessible (as applied to equipment) able to be approached by persons and not blocked by locked doors, walls, or other effective means. See also Readily accessible.Add-on packaged system
30、a unit intended to be used with or attached to an approved thermal storage device at the location of the final installation. Air gap (in a potable water distribution system) the unobstructed vertic al distance through air between the lowest of the water supply outlet and the flood level rim of the f
31、ixture or device into which the outlet discharges.All-season system a system that incorporates freeze protection and is designed for all-season use.Ambient air air in the space surrounding the thermal energy storage device or solar collectors, as applicable.Antifreeze system a system that uses a liq
32、uid that will not freeze during winter temperatures to transfer heat from collectors to storage.Approved thermal storage device a thermal storage unit or tank that has been evaluated and approved by the manufacturer for use as the storage component with a specific add-on packaged system.Note: Approv
33、ed thermal storage devices function only as thermal storage for solar energy and, unless otherwise noted in this Standard, any other energy input sources (i.e., electrical, natural gas, propane, or oil) are not connected.Authority having jurisdiction the body responsible for the enfo rcement of spec
34、ific regulations or codes, or the official or agency designated by that body to exercise such a function.Auxiliary energy source a source of thermal energy, other than solar energy, used to provide service water heating. Note: The auxiliary energy source is usually electrical resistance heat or ther
35、mal energy derived from combustion of fossil fuels.Back siphonage backflow caused by pre ssure that is below atmospheric in the supply system.Backflow a flowing back or reversal of the normal direction of flow.Note: Back siphonage is one type of backflow.Backflow preventer a device that prevents bac
36、kflow.Closed-loop system an SDHW system that incorporates a piping arrangement isolated from atmospheric pressure and the potable water supply systems.Combustible material material that fails to meet the acceptance criteria of CAN/ULC-S114.Note: This definition is in accordance with the National Bui
37、lding Code of Canada.Component a part of the packaged SDHW system.Note: Components include collectors, storage tanks, and pumps.Control a manual or automatic device for the regulation of th e SDHW system or components in normal operation.Controller or control subsystem the assembly of devices, inclu
38、d ing their electrical, pneumatic, or hydraulic auxiliaries, that regulate the flow of energy used to operate the system by responding to sensed environment conditions, internal conditions of the system, and requirements of the load.(Replaces p. 6, January 2009)6 Canadian Standards AssociationSupple
39、ment No. 1 to CSA F379 Series-09, Packaged solar domestic hot water systems (liquid-to-liquid heat transfer)March 2011Cross connection the physical connection or arrangement between two otherwise separate piping systems, one containing potable water and the other containing water of unknown or quest
40、ionable safety or containing steam, gas, chemicals, or other substances, whereby there can be a flow from one system to the other, the direction of flow depending on the pressure differential between the two systems.Delivery performance rating (maximum delivery performance) the maximum daily load of
41、 hot water delivered by the system, in litres per day.Design life the period of time specifie d by the manufacturer during which a device or system is expected to perform its intended function without requiring major maintenance or replacement.Design limits the allowable range in a design specificat
42、ion.Domestic hot water (DHW) heated potable water (service hot water).Drainage slope the intentional slope of installed piping or other components downward toward drain points to facilitate draining.Drainback system a system in which the liquid in the solar collectors is allowed to drain back into a
43、 storage tank within the system under prescribed circumstances.Draindown system a system in which the liquid in the so lar collectors is drained from the system under prescribed circumstances.Draw rate the rate at which hot water is drawn from the system.Factory-packaged system a complete (combined)
44、 solar domestic hot water system, including solar collectors, solar thermal storage, and associated components.Flashpoint the temperature at which a liquid or volatile solid gives off a vapour sufficient to form an ignitable mixture with the air near the surface of the liquid or within the test vess
45、el.Flow condition the condition where heat-transfer fluid is flowing through the system under normal operating conditions.Freezing temperature rating the ambient temperature above which the system can be operated without the danger of damage from freezing.Heat exchanger a device or assemb ly specifi
46、cally designed to transfer heat between two physically separated fluids.Heat-transfer fluid fluid within the SDHW system that transfers thermal energy.Hodge and Sterner scale a toxicity scale recognized by the Canadi an Centre for Occupational Health and Safety that provides ratings from 1 (extremel
47、y toxic) to 6 (relatively harmless) based on the LD50 approach for oral administration. Note: LD50 is the lethal dose, which if given all at once, causes the death of 50% of a group of test animals. LD50 information is published in the material safety data sheets supplied with all heat-transfer flui
48、d shipments, as required by Canadian law.Hot-water storage capacity the capacity of the preheater and the auxiliary tank.In-service conditions the conditions to which a DHW system and its components are exposed during their operational lifetimes.Manufacturer the manufacturer of the packaged SDHW sys
49、tem, unless otherwise indicated.Maximum service temperature the maximum temperature to wh ich a component is exposed in actual service, with or without the flow of heat-transfer fluid.7(Replaces p. 7, January 2009)F379S1-11 Canadian Standards AssociationMarch 2011Minimum service temperature the minimum temperature to wh ich a component is exposed in actual service, with or without the flow of heat-transfer fluid.No-flow condition the condition where heat-transfer fluid is not
