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DS/EN 16480 - PUMPS – MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: DS
Date: 2016-06-27
Description: This European Standard specifies performance requirements (methods and procedures for testing and calculating) for determining the Minimum Efficiency Index (MEI) of rotodynamic glanded water pumps for pumping clean water, including where integrated in other products.
CEN - EN 16480 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: CEN
Date: 2016-05-01
Description: This European Standard specifies performance requirements (methods and procedures for testing and calculating) for determining the Minimum Efficiency Index (MEI) of rotodynamic glanded water pumps for pumping clean water, including where integrated in other products.
DIN EN 16480 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: DIN
Date: 2017-07-01
Description: This European Standard specifies performance requirements (methods and procedures for testing and calculating) for determining the Minimum Efficiency Index (MEI) of rotodynamic glanded water pumps for pumping clean water, including where integrated in other products.
TSE - TS EN 16480 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: TSE
Date: 2016-07-11
Description: This European Standard specifies performance requirements(methods and procedures for testing and calculating) fordetermining the Minimum Efficiency Index (MEI) of rotodynamicglanded water pumps for pumping clean water, including whereintegrated in other products.
CEN - PREN 16480 - PUMPS - ROTODYNAMIC PUMPS - MINIMUM REQUIRED EFFICIENCY OF WATER PUMPS AND METHODS OF QUALIFICATION AND VERIFICATION Organization: CEN
Date: 2017-12-01
Description: This document specifies performance requirements (methods and procedures for testing and calculating) for determining the Minimum Efficiency Index (MEI) of rotodynamic glanded water pumps for pumping clean water, including where integrated in other products.
BSI - BS EN 16480 - PUMPS — MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: BSI
Date: 2016-05-31
AFNOR - NF EN 16480 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: AFNOR
Date: 2016-07-22
SN - NS-EN 16480:2016 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: SN
Date: 2016-08-01
AENOR UNE-EN 16480 - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: AENOR
Date: 2016-11-30
AENOR UNE-EN 16480 ENG - PUMPS - MINIMUM REQUIRED EFFICIENCY OF ROTODYNAMIC WATER PUMPS Organization: AENOR
Date: 2016-11-30
CSA C745 - ENERGY EFFICIENCY OF ELECTRIC STORAGE TANK WATER HEATERS AND HEAT PUMP WATER HEATERS - THIRD EDITION; UPDATE NO.1: MARCH 2005 Organization: CSA
Date: 2003-01-01
Description: This Standard establishes minimum energy efficiency levels for electric storage tank water heaters and heat pump water heaters. This Standard applies to a) electric storage tank water heaters i) with volumes of 76 to 454 L (20 to 120 US gal); ii) having electric heater elements with power inputs up to 12 kW; and iii) designed to heat and store water at a thermostatically controlled temperature equal to or less than 82 ºC (180ºF); and b) heat pump water heaters that have i) a maximum current rating of 24 A; ii) a single-phase maximum voltage of 250 V; and iii) ancillary equipment necessary for the device to function.
BSI - PREN 16480 - DRAFT BS EN 16480 PUMPS - ROTODYNAMIC PUMPS - MINIMUM REQUIRED EFFICIENCY OF WATER PUMPS AND METHODS OF QUALIFICATION AND VERIFICATION. Organization: BSI
Date: 2017-12-18
DIN - VDI 4650 BLATT 2 - SIMPLIFIED METHOD FOR THE CALCULATION OF THE ANNUAL HEATING ENERGY RATIO AND THE ANNUAL GAS UTILISATION EFFICIENCY OF SORPTION HEAT PUMPS - GAS HEAT PUMPS FOR SPACE HEATING AND DOMESTIC HOT WATER Organization: DIN
Date: 2013-01-01
BSI - PREN 15316-4-2 - HEATING SYSTEMS AND WATER BASED COOLING SYSTEMS IN BUILDINGS - METHOD FOR CALCULATION OF SYSTEM ENERGY REQUIREMENTS AND SYSTEM EFFICIENCIES - PART 4-2: SPACE HEATING GENERATION SYSTEMS, HEAT PUMP SYSTEMS Organization: BSI
CSA C820 - ENERGY EFFICIENCY TEST METHODS FOR SMALL PUMPS - FIRST EDITION; UPDATE NO. 1: FEBRUARY 2003 Organization: CSA
Date: 2002-04-01
Description: This Standard specifies the method for testing centrifugal pumps to determine the following characteristics: (a) the total head produced by the pump versus the pump rate of flow; (b) input power versus pump rate of flow; and (c) efficiency versus pump rate of flow. This Standard does not apply to centrifugal pumps for the following services: (a) decorative fountain pumps; (b) fire pumps as defined in NFPA Standard 20; (c) hydromassage pumps as defined and installed in accordance with CSA Standard C22.2 No. 218.2; (d) jet pumps; (e) multi-stage pumps; (f) recreational vehicle pumps; (g) seal-less pumps; (h) solids-handling pumps; (i) sprinkler pumps for residential lawn watering applications; (j) deep well submersible pumps; (k) submersible-type effluent pumps up to and including 1.49 kW (2 hp); (l) submersible- and column-type sump pumps for residential applications; and (m) utility or contractor pumps.
VA 23 81 46 - WATER-SOURCE UNITARY HEAT PUMPS Organization: VA
Date: 2011-04-01
Description: Energy-Star Ratings: Energy-Star is a government-backed labeling program that helps people and organizations save money and reduce greenhouse gas emissions by identifying factories, office equipment, home appliances and electronics that have superior energy efficiency. 7. Unitary Water-Cooled Heat Pump: One or more factory made assemblies that normally include an indoor conditioning coil, compressor(s) and an outdoor refrigerant-to-water heat exchanger.
CEN - PREN 17038-3 - PUMPS - ROTODYNAMIC PUMPS - ENERGY EFFICIENCY INDEX - METHODS OF QUALIFICATION AND VERIFICATION - PART 3: TESTING AND CALCULATION OF ENER-GY EFFICIENCY INDEX (EEI) OF BOOSTER SETS Organization: CEN
Date: 2017-12-01
Description: This documents specifies methods and procedures for testing, calculating and determining the Energy Efficiency Index (EEI) of booster sets. A booster set is either a single pump unit or an assembly of pump units connected in parallel with a maximum hydraulic power of 150 kW, a minimum rated flow of 6 m3/h (0,001667 m3/s), to be operated with backflow prevention and additional components influencing hydraulic performance and with components necessary to control pressure or provide flow in open loops inside buildings and which is placed on the market and/or put into service as one single product and its intended use is to pump clean water and does not have a self-priming functionality.
ASME PTC 7.1 - DISPLACEMENT PUMPS Organization: ASME
Date: 1962-01-01
Description: The liquids to be used for test under this code shall be as follows: (a) General purpose pumps which may be operated with water shall be tested with clean water at some temperature between 60 and 130 F.
ASHRAE OR-16-C057 - GETTING HEAT PUMP WATER HEATERS INTO CALIFORNIA Organization: ASHRAE
Date: 2016-01-01
Description: California's single-family residential building stock is dominated by gas-fired storage water heaters. This is a result of the building energy efficiency code. For decades the water heater energy consumption calculated in the budget compliance tools has made it hard to justify using an electric resistance water heater.
CEN - PREN 17038-2 - PUMPS - METHODS OF QUALIFICATION AND VERIFICATION OF THE ENERGY EFFICIENCY INDEX FOR ROTODYNAMIC PUMPS UNITS - PART 2: TESTING AND CALCULATION OF ENERGY EFFICIENCY INDEX (EEI) OF SINGLE PUMP UNITS Organization: CEN
Date: 2016-10-01
Description: This European standard specifies methods and procedures for testing, calculating and determining the Energy Efficiency Index (EEI) of rotodynamic glanded single pump units for pumping clean water, including where integrated in other products.

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