B. B. Saha, E. C. Boelman, and T. Kashiwagi, Computational analysis of an advanced adsorption-refrigeration cycle, Energy, vol.20, issue.10, pp.983-994, 1995.

B. B. Saha, A. Akisawa, and T. Kashiwagi, Solar/waste heat driven two-stage adsorption chiller: the prototype, Renewable Energy, vol.23, issue.1, pp.93-101, 2001.

B. B. Saha, S. Koyama, T. Kashiwagi, A. Akisawa, K. C. Ng et al., Waste heat driven dual-mode, multi-stage, multi-bed regenerative adsorption system, International Journal of Refrigeration, vol.26, issue.7, pp.749-757, 2003.

C. Hildbrand, P. Dind, M. Pons, and F. Buchter, A new solar powered adsorption refrigerator with high performance, Solar Energy, vol.77, issue.3, pp.311-318, 2004.

Y. L. Liu, R. Z. Wang, and Z. Z. Xia, Experimental performance of a silica gel?water adsorption chiller, Applied Thermal Engineering, vol.25, issue.2-3, pp.359-375, 2005.

X. Q. Zhai and R. Z. Wang, Experimental investigation and performance analysis on a solar adsorption cooling system with/without heat storage, Applied Energy, vol.87, issue.3, pp.824-835, 2010.

H. Luo, R. Wang, and Y. Dai, The effects of operation parameter on the performance of a solar-powered adsorption chiller, Applied Energy, vol.87, issue.10, pp.3018-3022, 2010.

A. R. Rezk and R. K. Al-dadah, Physical and operating conditions effects on silica gel/water adsorption chiller performance, Applied Energy, vol.89, issue.1, pp.142-149, 2012.

E. Voyiatzis, J. A. Palyvos, and N. C. Markatos, Heat-exchanger design and switching-frequency effects on the performance of a continuous type solar adsorption chiller, Applied Energy, vol.85, issue.12, pp.1237-1250, 2008.

C. Y. Tso, C. Y. Chao, and S. C. Fu, Performance analysis of a waste heat driven activated carbon based composite adsorbent ? Water adsorption chiller using simulation model, International Journal of Heat and Mass Transfer, vol.55, issue.25-26, pp.7596-7610, 2012.

I. S. Glaznev and Y. I. Aristov, The effect of cycle boundary conditions and adsorbent grain size on the water sorption dynamics in adsorption chillers, International Journal of Heat and Mass Transfer, vol.53, issue.9-10, pp.1893-1898, 2010.

D. C. Wang, Y. J. Wang, J. P. Zhang, X. L. Tian, and J. Y. Wu, Experimental study of adsorption chiller driven by variable heat source, Energy Conversion and Management, vol.49, issue.5, pp.1063-1073, 2008.

S. Li and J. Y. Wu, Theoretical research of a silica gel?water adsorption chiller in a micro combined cooling, heating and power (CCHP) system, Applied Energy, vol.86, issue.6, pp.958-967, 2009.

J. Y. Wu and S. Li, Study on cyclic characteristics of silica gel?water adsorption cooling system driven by variable heat source, Energy, vol.34, issue.11, pp.1955-1962, 2009.

C. J. Chen, R. Z. Wang, Z. Z. Xia, J. K. Kiplagat, and Z. S. Lu, Study on a compact silica gel?water adsorption chiller without vacuum valves: Design and experimental study, Applied Energy, vol.87, issue.8, pp.2673-2681, 2010.

T. Miyazaki, A. Akisawa, and B. B. Saha, The performance analysis of a novel dual evaporator type three-bed adsorption chiller, International Journal of Refrigeration, vol.33, issue.2, pp.276-285, 2010.

A. Sadeghlu, M. Yari, and H. Beidaghy-dizaji, Simulation study of a combined adsorption refrigeration system, Applied Thermal Engineering, vol.87, pp.185-199, 2015.

K. Chihara and M. Suzuki, Air drying by pressure swing adsorption., Journal of Chemical Engineering of Japan, vol.16, issue.4, pp.293-299, 1983.

N. Ghilen, S. Gabsi, R. Benelmir, and M. E. Ganaoui, OMICS International: Publication Benefits & Features Unique features: ? Increased global visibility of articles through worldwide distribution and indexing ? Showcasing recent research output in a timely and updated manner ? Special issues on the current trends of scientific research Special features: ? 700 Open Access Journals ? 50,000 editorial team ? Rapid review process ? Quality and quick editorial, review and publication processing ? Indexing at PubMed (partial), J Fundam Renewable Energy Appl, vol.7, p.229, 2017.