This article is about details on the integration of two types ofheat pump. For more general information, seeheat pump.
Anabsorption-compression heat pump (ACHP) is a device that integrate an electriccompressor in anabsorption heat pump. In some cases this is obtained by combining avapor-compression heat pump and anabsorption heat pump. It is also referred to as a hybrid heat pump[1] which is however a broader field. Thanks to this integration, the device can obtaincooling andheating effects using boththermal andelectrical energy sources.[2][3] This type of systems is well coupled withcogeneration systems where both heat and electricity are produced. Depending on the configuration, the system can maximize heating and cooling production from a given amount of fuel, or can improve thetemperature (hence the quality) ofwaste heat from other processes.[4] This second use is the most studied one and has been applied to several industrial applications.[5]
The first absorption-compression heat pump cycle concept was patented by Osenbrück.[5] Little research on it was done in the following years.
1950-1951
Altenkirch performed a detailed theoretical study identifying the cycle as having a significantenergy saving potential.[6]
1970-2000
With theoil crisis in the 70s, the energy saving potential of the cycle grew in interest and there was a rapid increase in research activities in the field.[5] In this period several experimental plants were built and in 1997, Groll summarized this activities in its review where he identified more than 40 studies.[7] At that time, considerable work was still needed before the ACHP could become commercially available.
2011
Nordtvedt studied the cycle in his doctoral thesis and his studies ended up in the construction, in 2011, of the first commercial application in the Norwegian Food Industry.[8] After this, several units have been installed for commercial use in various high temperature industrial applications.[5]
P-T Diagram showing the temperature gliding in binary heat pump. This behaviour increase the efficiency of ACHPAmmonia toxicity is the main drawback of ACHP
The main advantage with respect to compression heat pump is that the compression-absorption heat pumps allow the heat to be transfer with a temperature glide. The compression heat pump uses a single pureworking fluid, hence exchanges heat at a constant temperature. The absorption-compression heat pump uses instead abinary mixture where the condensation and evaporation occur with a temperature glide. This property increases the efficiency of the heat transfer when the heat source also has a significant temperature glide, which is the typical condition found when dealing withwaste heat recovery.[4]
Being a hybrid solution that can exploit both heat and mechanical/electric energy sources, the device can be perfectly coupled withcogeneration units to produce heating and cooling at very high efficiencies.[9] Moreover, it makes the system more flexible, allowing the optimization of the mix of electricity and thermal energy. Their availability vary in fact along the day and the year. Therefore the flexibility allow to reduce the operating costs.[9]
The main drawback of this technology is that, to achieve good performances, they typically need to employ ammonia, which is very toxic and flammable. This drawback resulted in the fact that these applications remained limited to the industrial sector, where it is more practical dealing with dangerous fluids.[3]
Conceptual scheme of combined absorption and vapour compression heat pump with compressor in parallel to the absorption cycle pump also known as Osenbrück cycleConceptual scheme of a combined absorption and vapour compression refrigeration system where the two cycles share the condenser, lamination valve and evaporation part of the cycle
The most studied configuration is the so-calledcompression heat pump with solution cycle (CHPS) orcompression resorption heat pump (CRHP),[10] where the compressor is in parallel to the electric pump located between the absorber and the desorber.[4] This configuration is used to increase the temperature of waste heat since it allow high absorption temperature at lower pressure than compression heat pumps.[11]
Another possible configuration for the absorption compression heat pump is obtained from the combination of a gas-driven absorption heat pump (GAHP) with a vapor-compression heat pump. This configuration arises from the consideration that both cycles have in common acondenser, alamination valve, and anevaporator. The main difference between the two is in the compression phase: where the compression heat pump uses an electric compressor, the gas-driven absorption heat pump uses a thermal compressor.[12] The ACHP is obtained by combining the components that are in common and using the electric and thermal compressor in parallel or in series.[3]
Compression heat pumps use only a single fluid which is arefrigerant. In contrast,absorption heat pump requires two fluids, a refrigerant and an absorbent able toabsorb it. By combining the two devices, proper refrigerant absorbent pairs compatible with both the cycles are needed.
There is a widechoice of refrigerants available for compression heat pumps. The absorption cycle is the one limiting the choice of the refrigerant. The most common refrigerants for absorption systems areammonia andwater.[13] Both are good for combined absorption-compression heat pumps.[14][15]
Ammonia has an exceptionally goodsolubility in water. This is an important aspect that increases the performance and decreases the size of the device. However, its hightoxicity andflammability reduces its attractiveness.[3]
Water is a very attractive refrigerant because it is abundant, non-toxic, non-flammable and highly soluble inlithium bromide (LiBr). The main issue with water is that, at the typical heat pumpevaporator pressures, itfreezes at 0°C. This makes water unsuitable for the applications where the cold sink goes below 0°C, which is the typical winter operating condition of anair source heat pump.[16]
The absorbent and refrigerant are strictly related to each other. In the case that ammonia is used as refrigerant, the most common absorbent is water. In the case that water is used as refrigerant, as previously mentioned, the absorbent is usually LiBr.
Ionic liquids have also been proposed as good absorbents, specially for water as refrigerant.[3] The main advantages of thesesalts is that they can be used under the conditions at which LiBr solution runs the risk ofcrystallization and they are less corrosive.[17]
^Hultén, Magnus; Berntsson, Thore (1999). "The compression/absorption cycle – influence of some major parameters on COP and a comparison with the compression cycle".International Journal of Refrigeration.22 (2):91–106.doi:10.1016/s0140-7007(98)00047-4.ISSN0140-7007.
^Swinney, J; Jones, W.E; Wilson, J.A (2001). "A novel hybrid absorption–compression refrigeration cycle".International Journal of Refrigeration.24 (3):208–219.doi:10.1016/s0140-7007(00)00025-6.ISSN0140-7007.
