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Adsorption cooling as an effective method of waste heat utilization

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Warianty tytułu
PL
Chłodzenie adsorpcyjne jako efektywna metoda wykorzystania ciepła odpadowego
Języki publikacji
EN
Abstrakty
EN
The principle of operation of adsorption cooling systems, a review of adsorbent-adsorbate working pairs as well as basic information on modelling and methods for improvement of their efficiency are presented. Possible applications and perspectives for development of adsorption cooling devices are also analysed.
PL
W artykule przedstawiono zasadę działania adsorpcyjnych urządzeń chłodniczych, stosowane układy adsorbent-adsorbat, podstawowe informacje o modelowaniu oraz rozwiązania służące poprawie ich efektywności. Przeanalizowano możliwości praktycznych zastosowań i perspektywy rozwoju chłodziarek adsorpcyjnych.
Rocznik
Strony
61--70
Opis fizyczny
Tab., wz., il.,Bibliogr. 30 poz.,
Twórcy
autor
autor
  • Institute of Chemical and Process Engineering, Faculty of Chemical Engineering and Technology, Cracow Univeristy of Technology
Bibliografia
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  • [8] Gwadera M., Kupiec K., Adsorpcyjne układy chłodnicze, Inżynieria i Aparatura Chemiczna, w druku.
  • [9] Grzebielec A., Zastosowanie i perspektywy rozwoju adsorpcyjnych urządzeń chłodniczych w chłodnictwie i klimatyzacji, Chłodnictwo i Klimatyzacja, Vol. 4, 2005, 52-57.
  • [10] Wang D. C., Li Y. H., Li D., Xia Y. Z., Zhang J. P., A review on adsorption refrigeration technology and adsorption deterioration in physical adsorption systems, Renewable and Sustainable Energy Reviews, Vol. 14, 2010, 334-353.
  • [11] Wang R. Z., Oliveira R. G., Adsorption refrigeration – An effcient way to make good use of waste heat and solar energy, Progress in Energy and Combustion Science, 2006, Vol. 32, 424–458.
  • [12] Jiangzhou S., Wang R. Z., Lu Y. Z., Xu Y. X., Wu J. Y., Li Z. H., Locomotive driver cabin adsorption air-conditioner, Renewable Energy, Vol. 28, 2003, 1659–1670.
  • [13] Sumathy K., Yeung K. H., Yong L., Technology development in the solar adsorption refrigeration systems, Progress in Energy and Combustion Science, Vol. 29, 2003, 301–327.
  • [14] Wang L. W., Wang R. Z., Oliveira R. G., A review on adsorption working pairs for refrigeration, Renewable and Sustainable Energy Reviews, Vol. 13, 2009, 518–534.
  • [15] Wang L. W., Wang R. Z., Wu J. Y., Wang K., Wang S.G., Adsorption ice makers for fshing boats driven by the exhaust heat from diesel engine: choice of adsorption pair, Energy Conversion and Management, Vol. 45, 2004, 2043-2057.
  • [16] Wang R. Z., Performance improvement of adsorption cooling by heat and mass recovery operation, International Journal of Refrigeration, Vol. 24, 2001, 602-611.
  • [17] Di J., Wu J. Y., Xia Z. Z., Wang R. Z., Theoretical and experimental study on characteristic of a novel silica gel – water chiller under the conditions of variable heat source temperatures, International Journal of Refrigeration, Vol. 30, 2007, 515-526.
  • [18] El-Sharkawy Ibrahim I., On the linear driving force approximation for adsorption cooling applications, International Journal of Refrigeration, 2011, in press.
  • [19] Wu J. Y., Li S., Study on cyclic characteristics of silica gel – water adsorption cooling system driven by variable heat source, Energy, Vol. 34, 2009, 1955-1962.
  • [20] Chang W. S., Wang C. C., Shieh C. C., Design and performance of a solar powered heating and cooling system using silica gel/water adsorption chiller, Applied Thermal Engineering, Vol. 29, 2009, 2100-2105.
  • [21] Anyanwu E.E., Review of solid adsorption refrigeration II: An overview of the principles and theory: Energy Conversion and Management, Vol. 45, 2004, 1279-1295.
  • [22] Wu W. D., Zhang H., Sun D. W., Mathematical simulation and experimental study of a modifed zeolite 13X-water adsorption refrigeration module, Applied Thermal Engineering, Vol. 29, 2009, 645-651.
  • [23] Dawoud B., A hybrid solar-assisted adsorption cooling unit for vaccine storage, Renewable Energy, Vol. 32, 2007, 947-964.
  • [24] Yong L., Sumathy K., Performance analysis of a continuous multi-bed adsorption rotary cooling system, Applied Thermal Engineering, Vol. 25, 2005, 393-407.
  • [25] Dai Y. J., Wang R. Z., Xu Y. X., Study of a solar powered solid adsorption – desiccant cooling system used for grain storage, Renewable Energy, Vol. 25, 2002, 417-430.
  • [26] The Climasol Program (www.raee.org/climatisationsolaire/gb/solar.php – viewing date: 20.04.2011).
  • [27] The Solair Program (www.solair-project.eu/175.0.html – viewing date: 20.04.2011).
  • [28] Anyanwu E. E., Ezekwe C. I., Design, construction and test run of a solid adsorption solar refrigerator using activated carbon/methanol, as adsorbent/adsorbate pair, Energy Conversion and Management, Vol. 44, 2003, 2879-2892.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3544-3281
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