Heat pump and refrigeration cycle

Heat pump cycles, refrigeration cycles or thermodynamic cycles are the fundamentals for heat pump, air conditioning and refrigeration systems and how they work. A heat pump is a mechanical system that allows for the transfer of heat from one location to another. They work under thermodynamic laws.^[1] ^[2]

Thermodynamic cycles[change | change source]

According to the second law of thermodynamics, heat cannot move from a colder location to a hotter area by itself. Work is required to achieve this.^[3] An air conditioner requires action to cool a living space by moving heat from the interior being cooled to the outdoors. A refrigerator moves heat from inside the cold interior area to the warm room temperature air of the kitchen. This idea of an ideal heat engine was explained using the Carnot cycle by Sadi Carnot in 1824. A refrigerator or heat pump is an example of a heat engine that is running in a reverse Carnot cycle.^[4]

Heat pump cycles and refrigeration cycles can be vapor compression, vapor absorption, gas cycle, or Stirling cycle types.

Vapor compression cycle[change | change source]

The vapor compression cycle is used by many refrigeration, air conditioning, and other cooling applications. It is also used within heat pumps for heating applications. The vapor compression cycle has two heat exchangers. One of them is the condenser, which is hot and releases heat. The other is the evaporator, which is cold and takes heat. For applications that need to operate in both heating and cooling modes, such as heat pumps, a reversing valve is used to switch the roles of the heat exchangers.

At the start of the cycle, the refrigerant enters the compressor as a low pressure and low temperature vapor. The pressure is then increased and the refrigerant leaves as a higher temperature and higher pressure gas. This hot pressurized gas then moves through the condenser coil, where it releases heat to the area as it cools and condenses completely. The cooler high-pressure liquid next passes through the expansion valve which lowers the pressure suddenly and causes the temperature to drop a lot.^[6] The cold low pressure mixture of liquid and vapor next travels through the evaporator coil where it vaporizes completely when accepts heat from the area around it before returning back to the compressor as a low pressure low-temperature gas to start the cycle again.^[7]

Simple systems with a normal temperature range, such as a refrigerator, may use a fixed speed compressor and fixed orifice expansion valve. Systems that need to operate in different conditions, such as air conditioning, where outside temperatures and heat demand change a lot through the seasons, will sometimes use a variable speed inverter compressor which can run slow or fast and an adjustable expansion valve to control the speed of the cycle better.

Vapor absorption cycle[change | change source]

During the 20th century, the vapor absorption cycle using water and ammonia systems was popular and widely used but after work on the vapor compression cycle, it lost much of its use because of its low efficiency (about one-fifth of the vapor compression cycle). It is now only used where heat is more available than electricity, such as industrial waste heat, solar thermal energy by solar collectors, or propane refrigerators in motorhomes.

The absorption cycle is similar to the compression cycle, but depends on the partial pressure of the refrigerant vapor. In the absorption system, the compressor is replaced by an absorber and a generator. The absorber dissolves the refrigerant in a suitable liquid and a dilute solution becomes a strong solution. In the generator, the temperature increases, which also increases the partial pressure of the refrigerant vapor released from the strong solution. The generator needs a heat source. This consumes a lot of energy unless waste heat is used.

Absorption refrigeration systems can be powered by combustion of fossil fuels (e.g., coal, oil, natural gas, etc.) or renewable energy (such as waste heat recovery, biomass combustion, or solar energy).

Gallery[change | change source]

The compressor seen on a household refrigerator
Industrial air handler. Inside is a way to heat and cool the air coming through it.
Absorption refrigerator such as that seen in a motorhome
Rooftop Packaged Unit

Other Websites[change | change source]

"The Basic Refrigeration Cycle"

References[change | change source]

↑ The Systems and Equipment volume of the ASHRAE Handbook, ASHRAE, Inc., Atlanta, GA, 2004
↑ Cengel, Yunus A. and Michael A. Boles (2008). Thermodynamics: An Engineering Approach (6th ed.). McGraw-Hill. ISBN 978-0-07-330537-0.
↑ Fundamentals of Engineering Thermodynamics, by Howell and Buckius, McGraw-Hill, New York.
↑ "Description 2017 ASHRAE Handbook—Fundamentals". www.ashrae.org. Retrieved 2020-06-13.
↑ The Ideal Vapor-Compression Cycle Archived 2007-02-26 at the Wayback Machine
↑ "Thermostatic Expansion Values: A Guide to Understanding TXVs". AC & Heating Connect. 2013-06-24. Retrieved 2020-06-15.
↑ Althouse, Andrew (2004). Modern Refrigeration and Air Conditioning. The Goodheart-Wilcox Company, Inc. p. 109. ISBN 1-59070-280-8.

[1] The Systems and Equipment volume of the ASHRAE Handbook, ASHRAE, Inc., Atlanta, GA, 2004

[Cengel2008-2] Cengel, Yunus A. and Michael A. Boles (2008). Thermodynamics: An Engineering Approach (6th ed.). McGraw-Hill. ISBN 978-0-07-330537-0.

[3] Fundamentals of Engineering Thermodynamics, by Howell and Buckius, McGraw-Hill, New York.

[ASHRAE-4] "Description 2017 ASHRAE Handbook—Fundamentals". www.ashrae.org. Retrieved 2020-06-13.

[5] The Ideal Vapor-Compression Cycle Archived 2007-02-26 at the Wayback Machine

[6] "Thermostatic Expansion Values: A Guide to Understanding TXVs". AC & Heating Connect. 2013-06-24. Retrieved 2020-06-15.

[7] Althouse, Andrew (2004). Modern Refrigeration and Air Conditioning. The Goodheart-Wilcox Company, Inc. p. 109. ISBN 1-59070-280-8.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

v t e HVAC
Fundamental concepts	Air changes per hour Bake-out Building envelope Convection Dilution Domestic energy consumption Enthalpy Fluid dynamics Gas compressor Heat pump and refrigeration cycle Heat transfer Humidity Infiltration Latent heat Noise control Outgassing Particulates Psychrometrics Sensible heat Stack effect Thermal comfort Thermal destratification Thermal mass Thermodynamics Vapour pressure of water
Technology	Absorption refrigerator Air barrier Air conditioning Antifreeze Automobile air conditioning Autonomous building Building insulation materials Central heating Central solar heating Chilled beam Chilled water Constant air volume (CAV) Coolant Cross ventilation Dedicated outdoor air system (DOAS) Deep water source cooling Demand controlled ventilation (DCV) Displacement ventilation District cooling District heating Electric heating Energy recovery ventilation (ERV) Firestop Forced-air Forced-air gas Free cooling Heat recovery ventilation (HRV) Hybrid heat Hydronics Ice storage air conditioning Kitchen ventilation Mixed-mode ventilation Microgeneration Passive cooling Passive daytime radiative cooling Passive house Passive ventilation Radiant heating and cooling Radiant cooling Radiant heating Radon mitigation Refrigeration Renewable heat Room air distribution Solar air heat Solar combisystem Solar cooling Solar heating Thermal insulation Thermosiphon Underfloor air distribution Underfloor heating Vapor barrier Vapor-compression refrigeration (VCRS) Variable air volume (VAV) Variable refrigerant flow (VRF) Ventilation Water heat recycling
Components	Air conditioner inverter Air door Air filter Air handler Air ionizer Air-mixing plenum Air purifier Air source heat pump Attic fan Automatic balancing valve Back boiler Barrier pipe Blast damper Boiler Centrifugal fan Ceramic heater Chiller Condensate pump Condenser Condensing boiler Convection heater Compressor Cooling tower Damper Dehumidifier Duct Economizer Electrostatic precipitator Evaporative cooler Evaporator Exhaust hood Expansion tank Fan Fan coil unit Fan filter unit Fan heater Fire damper Fireplace Fireplace insert Freeze stat Flue Freon Fume hood Furnace Gas compressor Gas heater Gasoline heater Grease duct Grille Ground-coupled heat exchanger Ground source heat pump Heat exchanger Heat pipe Heat pump Heating film Heating system HEPA High efficiency glandless circulating pump High-pressure cut-off switch Humidifier Icemaker Infrared heater Inverter compressor Kerosene heater Louver Mechanical room Oil heater Packaged terminal air conditioner Plenum space Pressurisation ductwork Process duct work Radiator Radiator reflector Recuperator Refrigerant Register Reversing valve Run-around coil Sail switch Scroll compressor Solar chimney Solar-assisted heat pump Space heater Smoke canopy Smoke damper Smoke exhaust ductwork Thermal expansion valve Thermal wheel Thermostatic radiator valve Trickle vent Trombe wall TurboSwing Turning vanes Ultra-low particulate air (ULPA) Whole-house fan Windcatcher Wood-burning stove Zone valve
Measurement and control	Air flow meter Aquastat BACnet Blower door Building automation Carbon dioxide sensor Clean air delivery rate (CADR) Control valve Gas detector Home energy monitor Humidistat HVAC control system Infrared thermometer Intelligent buildings LonWorks Minimum efficiency reporting value (MERV) OpenTherm Programmable communicating thermostat Programmable thermostat Psychrometrics Room temperature Smart thermostat Thermographic camera Thermostat Thermostatic radiator valve
Professions, trades, and services	Architectural acoustics Architectural engineering Architectural technologist Building services engineering Building information modeling (BIM) Deep energy retrofit Duct cleaning Duct leakage testing Environmental engineering Hydronic balancing Kitchen exhaust cleaning Mechanical engineering Mechanical, electrical, and plumbing Mold growth, assessment, and remediation Refrigerant reclamation Testing, adjusting, balancing
Industry organizations	AHRI AMCA ASHRAE ASTM International BRE BSRIA CIBSE Institute of Refrigeration IIR LEED SMACNA UMC
Health and safety	Indoor air quality (IAQ) Passive smoking Sick building syndrome (SBS) Volatile organic compound (VOC)