Pregunta 1
Pregunta
How does the heating-cycle charge compensator aid the heating cycle?
Respuesta
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It makes the gas line cold.
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It raises the temperature of the refrigerant.
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It stores the unneeded refrigerant.
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It fills with hot air.
Pregunta 2
Pregunta
How is the COP rating different from the HSPF?
Respuesta
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HSPF takes data from multiple weather conditions.
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Only the HSPF measures heating and cooling units.
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Only the COP measures defrost.
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COP takes data from multiple weather conditions.
Pregunta 3
Pregunta
Because air source heat pumps circulate less refrigerant at low ambient temperatures, the refrigerant not being used is stored
Pregunta 4
Pregunta
How is heat pump Coefficient of Performance, COP, calculated?
Respuesta
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COP is the ratio of heat output divided by heat input measured at one particular condition
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COP is a measure of heating BTUs per watt averaged for the entire heating season
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COP is a measure of heating BTUs per watt measured at one particular condition
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COP is the ratio of heat output divided by heat input averaged for the entire heating season
Pregunta 5
Pregunta
How is heat pump Heating Seasonal Performance Factor, HSPF, calculated?
Respuesta
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HSPF is the ratio of heat output divided by heat input measured at one particular condition.
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HSPF is a measure of heating BTUs per watt measured at one particular condition
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HSPF is the ratio of heat output divided by heat input averaged for the entire heating season
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HSPF is a measure of heating BTUs per watt averaged for the entire heating season
Pregunta 6
Pregunta
What prevents the refrigerant from flowing through the indoor metering device during the heating cycle?
Pregunta 7
Pregunta
Heat pump A has a SEER rating of 16 and an HSPF rating of 7. Heat pump B has a SEER rating of 14 and an HSPF rating of 9. Which heat pump cools more efficiently?
Pregunta 8
Pregunta
What is the main difference between a heat pump and a fossil fuel furnace?
Respuesta
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Fossil fuel furnaces have been around longer.
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Fossil fuel furnaces are hotter.
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Heat pumps are easier to install.
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Heat pumps move heat instead of creating it.
Pregunta 9
Pregunta
How can an air source heat pump heat when the outdoor temperature is cold?
Respuesta
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The friction of the air passing over the outdoor coil raises the temperature
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All molecules contain some heat until they reach absolute 0 (-460ºF)
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Air source heat pumps only use the outdoor air in the cooling season
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All heating is accomplished with electrical resistance heaters, so the air temperature is irrelevant
Pregunta 10
Pregunta
How can you lower the temperature at which evaporation takes place?
Respuesta
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Reduce the pressure on the low side of the system
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Raise the pressure on the low side of the pump
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Decrease the pressure on the high side of the pump
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Add more refrigerant into the pump
Pregunta 11
Pregunta
Which of the following is the correct order of the flow in the heating cycle of an air source heat pump?
Respuesta
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compressor, reversing valve, indoor coil, outdoor TEV, outdoor coil, reversing valve
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reversing valve, indoor coil, outdoor coil, outdoor TEV, compressor
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Indoor TEV, indoor coil, reversing valve, compressor, reversing valve, outdoor coil
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compressor, reversing valve, outdoor coil, indoor TEV, indoor coil, reversing valve
Pregunta 12
Pregunta
When are most heat pump reversing valves energized?
Pregunta 13
Pregunta
What makes the main valve in the reversing valve shift from one side to the other?
Respuesta
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A small gear motor that is operated on 24 volts engages gears on the back of the valve core
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An electronic stepper motor mounted on one end of the reversing valve
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Pressure difference from one side of the valve to the other
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A solenoid coil creates a magnetic field that pulls the valve to one end and repels it to the other
Pregunta 14
Pregunta
Which of the following is responsible for shifting the position of the sliding cylinder?
Respuesta
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condensation
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pressure
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refrigerant
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gravity
Pregunta 15
Pregunta
The heat source for an air source heat pump is
Pregunta 16
Pregunta
How are heat pumps classified?
Respuesta
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by their cooling source and cooling sink
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by their air intake pump
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by their heat source and heat sink
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by their refrigerant type
Pregunta 17
Pregunta
How can a heat pump filter drier be differentiated from a standard filter drier?
Respuesta
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By the shiny, polished appearance of the stainless steel core
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By the two copper lines on each end of the drier
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By the 600 psig pressure rating
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By the directional arrows pointing towards both ends of the drier
Pregunta 18
Pregunta
When is the outdoor metering device bypassed?
Pregunta 19
Pregunta
When is the indoor metering device bypassed?
Pregunta 20
Pregunta
A bi-flow thermostatic expansion valve
Respuesta
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can be used with two different refrigerants by selecting the correct flow
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can be used for creating two stages of heating or cooling
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allows refrigerant flow in both directions
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can be used with two different capacity units by selecting the correct flow
Pregunta 21
Pregunta
Liquid floodback commonly occurs on air source heat pumps
Respuesta
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when the defrost cycle is terminated and the cycle reverses
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when the heat pump is operated in cooling with a low charge
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when the liquid filter drier is stopped up
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when the heat pump is operated in heating on a warm day
Pregunta 22
Pregunta
Heat pump A has a SEER rating of 16 and an HSPF rating of 7. Heat pump B has a SEER rating of 14 and an HSPF rating of 9. Which heat pump heats more efficiently?