Abstract
The coabsorbent cycles, described in the next chapters, have typical absorption technology processes, of desorption, generation, resorption and absorption. Generally, they will be named absorption processes. These take place usually on large temperature intervals, or simpler, operate with gliding temperatures. In this paragraph we shall present a method to be used in the heat exchange analysis of an absorption process with a source which this is thermally interacting with. Prior to do it we shall consider a single process from the viewpoint of its constitution mass and heat transfer.
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References
Bakhvalov, N. S. (1977). Numerical methods. Moscow: Publishing House “Nauka”, MIR Publishers.
Nicolescu, M. (1977–1980). Mathematical analysis (Vol. I, II). Bucharest: The Didactic and Pedagogic Publishing House. (in Romanian).
Niebergall, W. (1959). Handbuch der Kältetechnik (Vol. 7). Berlin: Sorptions-Kältemaschinen, Springer.
Radcenco, V., Porneala, S., & Dobrovicescu, A. (1983). Processes in refrigeration installations. Bucharest: Didactic and Pedagogic Publishing House. (in Romanian).
Radermacher, R., & Alefeld, G. (1982). Lithiumbromid-Wasser Lösungen als Absorber für Ammoniac oder Methylamin. Brennstoff-Wärme-Kraft, 34(1), 31–38.
Staicovici, M. D. (1995). Poybranched regenerative GAX cooling cycles. International Journal of Refrigeration, 18, 318.
Staicovici, M. D. (2011). Heat exchange analysis of coabsorbent cycle absorption processes. In: Proceedings of ISHPC 2011 Conference, Padua, Italy.
Stamatescu, C. (1972). Cooling technology, Part I. Bucharest: Technical Publishing House. (in Romanian).
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Staicovici, MD. (2014). Mass and Heat Exchange Analysis of the Absorption Processes: The Divided Device Method. In: Coabsorbent and Thermal Recovery Compression Heat Pumping Technologies. Heat and Mass Transfer. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-54684-6_2
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DOI: https://doi.org/10.1007/978-3-642-54684-6_2
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