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Refrigeration Test 4 with accurate detailed answers

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Refrigeration Test 4 with accurate detailed answers

Institution
INDUSTRIAL REFRIGERATION
Course
INDUSTRIAL REFRIGERATION

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2



Refrigeration Test 4 with accurate detailed answers || || || || || ||




17-1) What happens to the refrigerant as it passes through the metering device? - ✔✔The
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refrigerant drops in pressure and temperature as it passes through the metering device. A
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small portion of the refrigerant flashes to a vapor, cooling the remaining liquid.
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17-2) Explain the difference between a fixed metering device and a modulating metering
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device. - ✔✔A fixed metering device cannot change to respond to system changes, a
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modulating metering device can. || || ||




17-3) What are the two types of fixed metering devices? - ✔✔Capillary tubes and orifices
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17-4) List the advantages of the capillary tube. - ✔✔The cap tube is simple, inexpensive,
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and cap tube systems can be used with low starting torque compressors
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17-5) Explain the basic operation of the automatic expansion valve - ✔✔The automatic
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expansion valve is a refrigerant pressure regulator. It is controlled by a diaphragm which
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balances the evaporator pressure against an adjustable spring pressure.
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17-6) Why is the automatic expansion valve not suited for systems with varying loads? -
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✔✔The response of the automatic expansion valve to load changes causes it to feed more
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refrigerant when the load decreases and less refrigerant when the load increases.
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17-7) Which way would the adjustment on top of an automatic expansion valve be turned
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to increase the evaporator pressure? - ✔✔Clockwise
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17-8) What does a thermostatic expansion valve try to regulate and keep stable? -
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✔✔Superheat

,2


17-9) What is the difference between internally and externally equalized thermostatic
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expansion valves? - ✔✔Internally equalized valves obtain the evaporator pressure through a
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passageway inside the valve. Externally equalized valves obtain evaporator pressure through
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a separate line which runs from the valve to the suction line.
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17-10) How does a TEV with MOP work? - ✔✔MOP valves have a gas charge. Gas charged
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bulbs have only a small amount of liquid in the bulb. When the valves reaches the MOP,
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maximum operating pressure, there is no more liquid in the bulb. This greatly limits the
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bulb opening pressure.
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17-11) What is the difference between a traditional TEV and a balanced port TEV? - ✔✔A
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traditional TEV is affected by the pressure drop across the valve. Increased pressure
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difference tends to open the valve more. A balanced port valve is designed to counteract
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the effect of pressure difference across the valve, so the valve can retain good control at a
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much wider range of operating conditions.
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17-12) What is the difference between a traditional liquid charged TEV bulb and a liquid
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cross-charged TEV bulb? - ✔✔A traditional charge uses the same refrigerant as is in the
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system. A cross charged bulb contains a different refrigerant than the system, so the
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pressure response of the bulb crosses the pressure response of the system at some point.
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17-13) What is the purpose of a liquid distributor? - ✔✔A liquid distributor is used to
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evenly distribute the mixture of liquid and vapor refrigerant leaving
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17-14) Which way would the adjusting stem on an expansion valve be turned to increase
|| || || || || || || || || || || || || || ||




the superheat? - ✔✔Clockwise
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17-15) Which way would the adjusting stem on an expansion valve be turned to decrease
|| || || || || || || || || || || || || || ||




superheat? - ✔✔Counter clockwise || || ||

,2


17-16) What types of problems could cause a TEV system to operate at too high a
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superheat? - ✔✔System undercharge, liquid line refrigerant restriction, dead TEV power
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element, TEV plugged with debris from brazing
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17-17) Why must technicians be careful when brazing lines to evaporator coils which have
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thermostatic expansion valves? - ✔✔The heat from brazing the lines can conduct through
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the lines to the TEV bulb and destroy the bulb by building up very high pressure in the
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power head. ||




17-18) How can a capillary tube that is restricted with debris be differentiated from a
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capillary tube that is restricted with ice? - ✔✔A capillary tube that is plugged with debris
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will immediately pull into a very low suction pressure or vacuum. Ice normally only forms
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after the system has operated some and the evaporator starts getting cold.
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17-19) What is a bi-flow expansion valve? - ✔✔A bi-flow expansion valve is designed to
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allow refrigerant flow in both directions. Some bi-flow valves meter the refrigerant in both
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directions while others allow unrestricted flow in the reverse direction.
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17-20) What system operating characteristics would you expect from a system which has a
|| || || || || || || || || || || || || ||




TEV with a dead power element? - ✔✔The suction pressure would be very low, possibly in
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a vacuum. The superheat and subcooling would both be high. The system would not cool.
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17-21) What system operating characteristics would you expect from a system which has a
|| || || || || || || || || || || || || ||




TEV with a loose sensing bulb? - ✔✔The suction pressure would be high. The superheat
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and subcooling would be low. The system would cool some, but not well.
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17-22) What system operating characteristics would you expect from a system which has a
|| || || || || || || || || || || || || ||




restricted orifice type metering device? - ✔✔The suction pressure would be very low,
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possibly in a vacuum. The superheat and subcooling would both be high. The system would
|| || || || || || || || || || || || || || ||




not cool.
||

, 2


17-23) What system operating characteristics would you expect from a system which has an
|| || || || || || || || || || || || || ||




oversized orifice type metering device? - ✔✔The suction pressure would be high. The head
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pressure would be low. The superheat and subcooling would both be low.
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For most multi-box refrigeration systems, the liquid line sight glass would be located ______.
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a) before the compressor suction line
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b) after the compressor discharge
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c) upstream of the condenser
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d) downstream of the receiver - ✔✔D
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The function of a heat interchanger used in a refrigeration system is to ______.
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a) lower the temperature of liquid refrigerant before entering the expansion valve
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b) reduce the possibility of liquid refrigerant from flooding back to the compressor
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c) minimize sweating of the suction line
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d) All of the above. - ✔✔D
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An economizer, or heat interchanger, is installed in a refrigeration system to ______.
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a) reduce the possibility of sweating of the suction line
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b) reduce the temperature of liquid refrigerant prior to entering the expansion valve
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c) reduce the possibility of liquid refrigerant flooding back to the compressor
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d) all of the above - ✔✔D
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A liquid line economizer or heat exchanger in a refrigeration system, using a reciprocating
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compressor, functions to ______. || || ||




a) reduce the possibility of liquid refrigerant slugging the compressor
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b) raise the temperature of liquid refrigerant
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c) cool the suction vapor returning to the compressor
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Institution
INDUSTRIAL REFRIGERATION
Course
INDUSTRIAL REFRIGERATION

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