Next generation commercial heat pump-water heater using carbon dioxide using different improvement approaches.
Nueva generación de calentadores de agua comerciales por bomba de calor utilizando dióxido de carbono y differentes enfoques de majora.
Author(s) : BOWERS C., PETERSEN M., ELBEL S., et al.
Type of article: Article
Summary
Although heat pump water heaters are today widely accepted in Japan, where energy costs are high and government incentives for their use exist, acceptance of such a product in the U.S. has been slow. This trend is slowly changing with the introduction of heat pump water heaters into the residential market, but remains in the commercial sector. Barriers to heat pump water heater acceptance in the commercial market have historically been performance, reliability and first/operating costs. The use of carbon dioxide (R744) as the refrigerant in such a system can improve performance for relatively small increase in initial cost and make this technology more appealing. What makes R744 an excellent candidate for use in heat pump water heaters is not only the wide range of ambient temperatures within which it can operate, but also the excellent ability to match water to refrigerant temperatures on the high side, resulting in very high exit water temperatures of up to 82°C, as required by sanitary codes in the U.S. (Food Code, 2005), in a single pass, temperatures that are much more difficult to reach with other refrigerants. This can be especially attractive in applications where this water is used for the purpose of sanitation. While reliability has also been of concern historically, dramatic improvements have been made over the last several years through research done in the automotive industry and commercialization of R744 technology in residential water heating mainly in Japan. This paper presents the performance results from the development of an R744 commercial heat pump water heater system of approximately 35 kW and a comparison to a baseline R134a unit of the same capacity and footprint. In addition, recommendations are made for further improvements of the R744 system which could result in possible energy savings of up to 20%.
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Details
- Original title: Nueva generación de calentadores de agua comerciales por bomba de calor utilizando dióxido de carbono y differentes enfoques de majora.
- Record ID : 30010917
- Languages: Spanish
- Source: Frío Calor Aire acondicionado - vol. 42 - n. 466
- Publication date: 2014/02
Links
- See translations: Next generation commercial heat pump-water heater using carbon dioxide using different improvement approaches.
See other articles in this issue (3)
See the source
Indexing
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Themes:
Heat pumps techniques;
CO2;
Energy efficiency, energy savings - Keywords: Hot water; R744; Heat pump; Expérimentation; COP; CO2
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Next generation commercial heat pump-water heat...
- Author(s) : BOWERS C., PETERSEN M., ELBEL S., et al.
- Date : 2012/06/25
- Languages : English
- Source: 10th IIR-Gustav Lorentzen Conference on Natural Working Fluids (GL2012). Proceedings. Delft, The Netherlands, June 25-27, 2012.
- Formats : PDF
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Toplotne pumpe za grijanje sanitarne vode sa ug...
- Author(s) : CICONKOV V., GIROTTO S., CICONKOV S.
- Date : 2013/09
- Languages : Serbian
- Source: KGH (Klimatizacija Grejanje Hladenje) - vol. 42 - n. 3
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Experimental bench design for heat pump using C...
- Author(s) : BOUTEILLER P., TOBALY P., TERRIER M. F., et al.
- Date : 2015/08/16
- Languages : English
- Source: Proceedings of the 24th IIR International Congress of Refrigeration: Yokohama, Japan, August 16-22, 2015.
- Formats : PDF
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CO2-heat pump water heater: characteristics, sy...
- Author(s) : NEKSA P., REKSTAD H., ZAKERI G. R., SCHIEFLOE P. A.
- Date : 1998/05
- Languages : English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 21 - n. 3
- Formats : PDF
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Evaluation on efficiency of CO2 heat pump cycle...
- Author(s) : SAIKAWA M., HASHIMOTO K.
- Date : 2001
- Languages : Japanese
- Source: Transactions of the Japan Society of Refrigerating and Air Conditioning Engineers - vol. 18 - n. 3
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