American Water Heater HPE10280H045DV Benutzerhandbuch
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Terms, Defi nitions and Formulas
First Hour Rating (FHR) is a volume of hot water delivered by a water heater during a 1-hour, Department
Of Energy mandate test procedure. The FHR is given in gallons or liters.
Of Energy mandate test procedure. The FHR is given in gallons or liters.
Energy Factor (EF) is an indicator of the combined thermal effi ciency and standby effi ciency of a water
heater. The higher the Energy Factor, the more effi cient the water heater will be.
heater. The higher the Energy Factor, the more effi cient the water heater will be.
Recovery rate is the amount of water, expressed in gallons per hour (GPH),heated to a given temperature
rise. Residential water heaters are typically rated at approximately 90°F temperature rise. IE: A standard
electric water heater with one 4.5 kW (kilowatt) electric heating element can produce 20 GPH at an
approximate 90°F rise.
rise. Residential water heaters are typically rated at approximately 90°F temperature rise. IE: A standard
electric water heater with one 4.5 kW (kilowatt) electric heating element can produce 20 GPH at an
approximate 90°F rise.
Temperature rise is the increase in the temperature from its coldest “inlet” water temperature to the desired
hot “outlet” setting.
hot “outlet” setting.
Standby effi ciency relates to the ability of the product to retain the stored heat (Btu) while the heating
source is not on. Insulation and other services are used to increase this effi ciency.
source is not on. Insulation and other services are used to increase this effi ciency.
Water (for all practical purposes) cannot be compressed.
Water expands when it is heated. The volume and pressure of water increases when it is heated in a closed
system. IE: Water heated from 90°F to 140°F in a 40 gallon water heater will expand by approximately one-
half gallon.
system. IE: Water heated from 90°F to 140°F in a 40 gallon water heater will expand by approximately one-
half gallon.
Minerals and gases will separate from water as temperature increases.
Amperage (Amps) (1 phase) = Watts divided by Volts (Ohm’s Law)
KW Required = (GPH X 8.25 X Temp. Rise X 1.0) divided by (3413)
Ohms = Volts divided by Amperes (Ohm’s Law)
One killowatt is equal to 1000 watts
One kilowatt is equal to 3,413 BTU
Recovery Rate =(KW X 3413) divided by (Temp. Rise X 8.25)
Rise (°F) = (KW X 3413) divided by (GPH X 8.25)
Supply electrical fusing and wiring or breakers should be sized at least 125% of expected heater
amperage, per NEC and local codes.
amperage, per NEC and local codes.
Water weighs 8.25 pounds per gallon at 120°F
% of Hot water = (Mixed temp. - Cold) divided by (Hot temp. - Cold). This formula gives the number of
gallons drawn from the water heater for each gallon delivered at a shower head or faucet. If the shower head
fl ow rate (gallons per minute) is known, the draw effi ciency and gallon capacity of the water heater may be
used to calculate the length of the showering period in minutes.
gallons drawn from the water heater for each gallon delivered at a shower head or faucet. If the shower head
fl ow rate (gallons per minute) is known, the draw effi ciency and gallon capacity of the water heater may be
used to calculate the length of the showering period in minutes.
Watt Density = the density of the wattage output of the element compared to the surface area of the
element (i.e. “High Watt Density Element” will have the most wattage per square inch of element surface.
element (i.e. “High Watt Density Element” will have the most wattage per square inch of element surface.