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Andrzej Grzebielec, Artur Rusowicz, Maciej Jaworski and Rafał Laskowski

References [1] B ohdal T., C harun H., S ikora M.: Selected aspects of legal, technical and ecological use of compression heat pumps. Rocznik ochrona środowiska 17 (2015), 1, 461–484. (in Polish). [2] B utrymowicz D., S miercew K., K arwacki J., G agan J.: Experimental investigations of low-temperature driven ejection refrigeration cycle operating with isobutane . Int. J. Refrig. 39 (2013), 196–209, DOI: 10.1016/j.ijrefrig.2013.10.008. [3] C acciola G., R estuccia G.: Reversible adsorption heat pump: A thermodynamic model. Int. J

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Andrzej Grzebielec, Artur Rusowicz and Rafał Laskowski

Transactions, Chemistry , 108, 61–70. Gwadera M., Kupiec K. 2011. Adsorption refrigeration systems. Inż. Ap. Chem ., 50, 38–39 (in Polish). Grzebielec A., Kosiński T., Wereszczyński R., 2012. Modern constructions of adsorption systems in use. Refrigeration , 48, 28–30 (in Polish). Grzebielec A., Rusowicz A., 2013. Analysis of the use of adsorption processes in trigeneration systems. Arch. Thermodyn. , 34, 35–49. DOI: 10.2478/aoter-2013-0028. Grzebielec A., 2009. Experimental study on adsorption heat pump. Arch. Thermodyn. , 30, 4, 189

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Andrzej Grzebielec and Artur Rusowicz

of adsorbents and adsorbates in solidvapour adsorption heat pump systems. Appl. Therm. Eng. 18(1998), 9-10, 707-714. [12] 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.Renew. Sust. Energy Rev. 14(2010), 344-353. [13] Wang L.W., Bao H.S., Wang R.Z.: A comparison of the performances of adsorption and resorption refrigeration systems powered by the low grade heat. Renew.Energy 34(2009), 2373-2379. [14] Yeo T

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Piotr Cyklis and Karina Janisz

References Anand A., Gupta A., Tyagi S.K., 2013. Simulation studies of refrigeration cycles: A review. Renewable Sustainable Energy Rev., 17, 260-277. DOI: 10.1016/j.rser.2012.09.021. Banker N., Dutta P., Prasad M., Srinivasan K., 2008. Performance studies on mechanical adsorption hybrid compression refrigeration cycles with HFC 134a. Int. J. Refrig., 31, 1398-1406. DOI:10.1016/j. ijrefrig.2008.03.009. Chen C., Wang R., Xia Z., Kiplagat J., Lu Z., 2010. Study on a compact silica gel-water adsorption chiller

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Piotr Cyklis, Ryszard Kantor, Tomasz Ryncarz, Bogusław Górski and Roman Duda

References [1] Cyklis P., Kantor R.: Thermodynamic analysis of hybrid sorption-compression two stage refrigerating systems. In: Proc. XXIII Int. Congress of Refrigeration, Prague 2011 paper no. 784 [2] Cyklis P., Kantor R.: Concept of hybrid adsorption-compression refrigeration system. In: Proc. I Congress of Thermodynamics, Poznan 2011, 422-428. [3] Kim D.S., Infante Ferreira C.A.: Solar absorption cooling. 1st Progress Report. Delft Univers. Technol., Report K-332, 2003. [4] Grzebielec A

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Małgorzata Szyc and Wojciech Nowak

References Akisawa A., Miyazaki T., 2010. Multi-bed adsorption heat pump cycles and their optimal operation, In: Saha B.B., Ng K.C. (Eds.), Advances in Adsorption Technology, Nova Science Publishers, 241-279. Aristov Y.I., Tokarev M.M., Freni A.,. Glaznev I.S, Restuccia G., 2006. Kinetics of water adsorption on silica Fuji Davison RD. Microporous Mesoporous Mater., 96, 65-71. DOI: 10.1016/j.micromeso.2006.06.008. Asdrubali F., Grignaffini S., 2005. Experimental evaluation of the performances of a H2O

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Agnieszka Kuczyńska and Władysław Szaflik

References Anyanwu E. E.: Review of solid adsorption solar refrigerator I: an overview of the refrigeration cycle. Energy Conversion and Management 44 (2003), 301-312. BHKW Infozentrum Rastatt: Basic information on Combined Power, Heat and Cold. BHKW Infozentrum Rastatt, internet website http://:www.bhkwinfozentrum.de/erlaeuter/kwkk_grundlagen.html F-Chart Software, 2003: EES, Engineering equation solver. F-Chart Software internet website http

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Kinga Kowalska and Bogdan Ambrożek

adsorption refrigeration unit in district heating network. Arch. Thermodyn. 36(2015), 3, 15-24. [14] Ko D., Kim M., Moon I., Choi D.: Analysis of purge gas temperature in cyclic TSA process. Chem. Eng. Sci. 57(2002), 179-195. [15] Ruthven D.M., Farooq S., Knaebel K.S.: Pressure swing adsorption. VCH, New York 1994. [16] Schiesser W.: The numerical method of lines: integration of partial differential equations. Academic Press, San Diego 1991. [17] Kane A., Giraudet S., Vilmain J.B., Le Cloirec P

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Jakub Kajurek, Artur Rusowicz and Andrzej Grzebielec

References [1] Herman C., Travnicek Z.: Cool sound: the future of refrigeration technology? Thermodynamic and heat transfer issues in thermoacoustic refrigeration. Heat Mass Transfer 42(2006), 492-500. [2] Grzebielec A., Rusowicz A., Laskowski A.: Experimental study on thermal wave type adsorption refrigeration system working on a pair of activated carbon and methanol. Chem. Process Eng-Inz 36(2015), 4, 395-404, DOI: 10.1515/cpe-2015- 0028 [3] Grzebielec A., Szelągowski A.: Use of the water-silicagel sorption

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L. Vasiliev, O. Filatova and A. Tsitovich

& Thermophysics 72 (1999), 595-600. Lepinasse E., Marion M., Goetz V.: Cooling storage with resorption process. Application to a box temperature control. Appl. Therm. Eng. 21 (2001), 1251-1263. Vasiliev L. L., Gulko N. V., Khaustov V. M.: Solid adsorption refrigerators with active carbon-acetone and carbon-ethanol pairs. Solid Sorption Refrigeration Symposium, Paris 1992. Vasiliev L. L., Mishkinis D. A., Antukh A. A., Vasiliev L. L., Jr.: A solar and electrical solid sorption refrigerator. Int