Application of Synthesised Zeolite A from Kankara Kaolin for Solar Adsorption Refrigeration

Authors

  • Ityona Amber Department of Mechanical Engineering, Zaria, Nigeria
  • Clement O. Folayan Department of Mechanical Engineering, Zaria, Nigeria
  • Rekiyah B. O. Suleiman Department of Mechanical Engineering, Zaria, Nigeria
  • Abdulazeez Yusuf Atta Department of Chemical Engineering, Zaria, Nigeria

DOI:

https://doi.org/10.51983/ajeat-2013.2.1.654

Keywords:

Zeolite A, Adsorption, Desorption, Refrigeration, Solar, Kankara DTA/TGA

Abstract

This paper presents the synthesis, characterization and application of a synthesised Zeolite A from Nigerian clay (kankara) for application in solar adsorption refrigeration.On the basis of X-ray diffraction, TGA and DTA experiments Zeolite A was confirmed with and adsorption capacity of 0.3 kg adsorbate / 0.85kg adsorbent, regenerative temperature of below 2000C and structural stability below 8000C. The refrigeration system used in the test consists of a 0.6 by 0.45 m2 parabolic trough concentrator, 0.6m long and 0.25m diameter black coated absorber, an air cooled condenser and cooling box of volume(evaporator) 0.048m3. The refrigerator was constructed and tested at the Mechanical Engineering Department Zaria, Nigeria at location 11.11’NE in the month of April, a month with one of the highest of average solar irradiation of 900W/m2. The lowest evaporator temperature attained was 9.80C with a C.O.P of 28.5%.

References

S.Ismail, Y.Cemil, K.Bilgin, B.Derek, and C.Ahmet, “Adsorption properties of a natural Zeolite-water pair for use in adsorption cooling cycles”, Applied Energy, Vol.87, pp.2062-2067, 2010.

H.Z. Hassan, A.A. Mohamad, and R. Bennacer, “Simulation of an adsorption solar cooling system, “Energy”, Vol.36, pp.530-537, 2011

D.C. Wang, Y.H. Li, D. Li, Y.Z. Xiz, and J.P. Zhang, “A review on adsorption refrigeration technology and adsorption deterioration in physical adsorption systems”, Renewable and sustainable energy review, vol.14, issue.1, pp.344-353, 2010.

A. El Fadar, A. Mimet Perez-Garcia, “Study of an adsorption refrigeration system powered by parabolic trough collector and coupled with a heat pipe”, Renewable energy, Vol.34, pp.2271-2279, 2009a.

C. Hildbrand, P. Dird, M. Pous and F.Bucther, New solar powered Adsorption refrigeration with high performance, “Solar Energy”, Vol.77, pp. 311-318, 2004.

C.Baerlocher, L.B. McCusker, D.H. Olson, “Atlas of Zeolite Framework Types”, Elsevier, Amsterdam, 2007.

N.C. Srivastava, I.W. Eames, A review of adsorbents and adsorbates in solid vapour adsorption heat pump systems Applied Thermal Engineering, Vol.18, pp.707-714, 1998.

B.O. Aderemi, “Preliminary studies on Synthesis of Zeolite from local clay”, Nigeria Journal of scientific research, Vol.4, No.2, pp.7- 12, 2004

D. I. Tchernev, Use of natural Zeolite in solar Refrigeration: ASSETS Abstracts of selected solar energy technology, pp.21-23, 1983.

D.I. Tchernev, Solar energy application of natural Zeolites, in natural Zeolite: occurrence, properties and use. Oxford: Pergamon Press, p.479, 1978.

Wei-Dong Wua, Hua Zhang, and Da-Wen Sun, Mathematical simulation and experimental study of a modified Zeolite 13X–water adsorption refrigeration module Applied Thermal Engineering, Vol.29, pp.645–651, 2009.

R. Miguel, R.L. Espinoza, J.H Manhorn, and P.F.Antonio, Evaluation of a solar Zeolite water solar adsorption refrigerator, ISES World Congress, 2003

K. Siegrfried, B. Detlef, Experiment on solar adsorption refrigeration, using Zeolite and water. Laboratory for solar energy, University of Applied sciences, Luebeck, stephensonstr, 1998

R.E. Critoph, “Limitations of adsorption cycles for solar cooling”, Solar Energy, Vol.41 No.1, pp.23- 31, 1988.

R.E. Critoph, and Y. Zhong, Review of trends in solid sorption refrigeration and heat pumping technology J. process mechanical Engineering ProcIMech, Vol.219, Part E, pp.285-300, 2004

P. Howell, process for synthetic Zeolite, A United states patent office: Grand Island N.Y., Assignor to union carbide corporation, a corporation of New York. No drawing. Filed Jan 15, 1960, ser. No 2,593

H. Feng, C. Li, H. Shan, “In-situ Synthesis and Catalytic Activity of ZSM-5 Zeolite”, Applied Clay, Vol.42, pp.439-445, 2009.

O. Korkuna R. Leboda, J. Skubiszewska-Zie_ba, T. Vrublevs’ka, V.M. Gun’ko, and J. Ryczkowski, Structural and physicochemical properties of natural Zeolites: clinoptilolite and mordenite Microporous and Mesoporous Materials Vol.87 pp.243–254, 2006.

E. E. Anyanwu, Review of solid adsorption solar refrigeration II: An overview of the principles and theory. Energy Conversion and Management, Vol.45, Issues 7-8, pp.1279-1295, 2004

E. E. Anyanwu, N. V. Ogueke, Thermodynamic design procedure for solid adsorption solar refrigerator Renewable Energy, Vol30, pp. 81-96 Elsevier Ltd, 2004.

D.S. Kim, C.A. Infante Ferreira, “Solar refrigeration options – A state-of-the-art review”, International Journal of refrigeration Vol.3, pp.13-15, 2008 [22] Y. Lui and K.C. Leong, The effect of operating conditions on the performance of Zeolite/water adsorption cooling systems Applied thermal engineering, Vol.25, pp.1403-1418, 2005.

D.S. Kim, C.A. Infante Ferreira, “Solar refrigeration options – A state-of-the-art review International Journal of refrigeration, Vol.3, pp.13-15, 2008.

M.A. Alghoul, Sulaiman, B.Z. Azmi, K. Sopian, and M. Abd. Wahab, “Review of materials for adsorption refrigeration technology” Anti- Corrosion Methods and Materials Vol.54, No.4, pp.225–229, 2007.

Downloads

Published

05-05-2013

How to Cite

Amber, I., Folayan, C. O., Suleiman, R. B. O., & Atta, A. Y. (2013). Application of Synthesised Zeolite A from Kankara Kaolin for Solar Adsorption Refrigeration. Asian Journal of Engineering and Applied Technology, 2(1), 1–6. https://doi.org/10.51983/ajeat-2013.2.1.654

Issue

Vol. 2 No. 1 (2013): January-June 2013

Section

Articles

License

Copyright (c) 2013 The Research Publication

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.