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Adsorber of the adsorption heat pump : a comparison of the results of the basic and the expanded analytical model

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The adsorption heat pump with silica gel adsorbent and water adsorbate was discussed. Authors focus on conventional single stage cycle adsorption heat pump. The design of the adsorber/desorber considered element is the tube with deposited silica gel bed. The analytical model was created to describe the temperature and concentration changes in the adsorber/desorber and consequently to describe the performance of the adsorption heat pump. In the presented paper a comparison of the results of the basic and the expanded analytical model was performed. The calculation results from the analysis were presented in tables and figures.
Słowa kluczowe
Rocznik
Tom
Strony
46--52
Opis fizyczny
Bibliogr. 10 poz., rys., tab., wykr.
Twórcy
  • West Pomeranian University of Technology in Szczecin, Department of Heating, Ventilation and Heat engineering, Szczecin, Poland
autor
  • West Pomeranian University of Technology in Szczecin, Department of Heating, Ventilation and Heat engineering, Szczecin, Poland
Bibliografia
  • Do DD., 2008, Adsorption analysis: eąuilibria and kinetics, Imperial College Press, London.
  • Rege SU, Yang RT, Buzanowski M. A., 2000, Sorbents for air prepurification in air separation, Chem Eng Sci, 55(21):4827-38.
  • Wang Y, LeVan MD., 2009, Adsorption Eąuilibrium of Carbon Dioxide and Water Vapor on Zeolites 5A and 13X and Silica Gel Pure Components, J Chem Eng Data 54(10):2839-44.
  • Lee JS, Kim JH, Kim JT, Suh JK Lee JM, Lee CH., 2002, Adsorption eąuilibria of C02 on zeolite 13X and zeolite X/Activated carbon composite, J Chem Eng Data, 47(5): 1237-42.
  • Nunez T., Mittelbach W., Henning H. M., 2007, Development of an adsorption chiller and heat pump for domestic heating adn air-conditioning applications, Appl Therm Eng, 27(13):2205-12.
  • Park I., Knaebel KS., 1992, Adsorption breakthrough behavior: unusual effects and possible causes, AIChE J, 38(5):660-70.
  • Akisawa A., Miyazaki T., 2010, Mutli-bed adsorption heat pump cycles and their optimal operation, Advances in Adsorption Technology, B. B. Saha and K. C. Ng, Nova Science Publishers, Inc. pp. 241-279, 2010.
  • Ambrozek B., Zwarycz-Makles K, Szaflik W., 2012, Eąuilibrium and heat of adsorption for selected adsorbent-adsorbate pairs used in adsorption heat pumps, Polska Energetyka Słoneczna (Polish Solar Energy) 1-4:5-11.
  • Zwarycz-Makles K.., Szaflik W., 2013, Mathematical Model of Adsorber of the Adsorption Heat Pump with Variable Adsorber Temperature, In: Ban M., Duic N., Guzovic Z., Markovska N., et. al., editors. SDEWES 2013: Proceedings of the 8th Conference on Sustainable Development of Energy, Water and Environment Systems, September 22-27; Dubrovnik, Croatia, Faculty of Mechanical Engineering and Naval Architecture, 0812-1, Croatia.
  • Zwarycz-Makles K.., Szaflik W., Kuczyński K., 2014, Comparative analysis of mathematieal models of a silica gel-water adsorber of the adsorption heat pump, ECOS 2014: Proceedings of the 27th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, June 15-19, 340-1, Turku, Finland.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-76feabc4-327b-45d1-aede-166a83e6fb6e
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