Iranica Journal of Energy & Environment

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Editorial Staff

Best Academic Tools

Specialized Indexing Databases

Related Links

FAQ

News

Publication Ethics

Predatory and Misleading Metrics

Paper Preparation Guide

Paper Template

Journal Forms

Word Count Policy

Editors

Web of Science Profile

Reviewers

Reviewers Responsibilities

Peer Review Process

Web of Science Profile

Be as Top Peer Reviewer & Editor

Design and Development of Solar Crop Dryer Integrated with Oil Bath

Document Type : Original Article

Authors

1 Department of Mechanical Engineering, SDMIT, Ujire Karnataka, India

2 Department of Mechanical Engineering, KSIT, Bengaluru, Karnataka, India

3 Department of Mechanical Engineering, UBDTCE, Davanagere, Karnataka, India

Abstract

This work presents the design and development of solar crop dryer with drained SAE 20/40 from vehicles oil as heat storage material.  The details design, fabrication and experimental analysis procedure of the developed dryer are explained. The crops used during the experiments were potato slices (2 kg) and ginger (2 Kg) while air velocity maintained at 10 m/s. Potato slices of upper and lower trays have taken the drying time of 5 hours and 6 hour to reach safe storage moisture content of below 15 % and whereas ginger of upper tray and lower tray have taken drying time of 9 and 10 hours to reach moisture content of below 15. The maximum value of instantaneous of the collector (Oil bath) efficiency reported was 57. 48 % and minimum value was 18.59 %.

Keywords

References
  1. Global Initiative on Food Loss and Waste Reduction 2015, Food and agricultural organization of United Nations.
  2. Kummu, M., de Moel, H., Porkka, M., Siebert, S., Varis, O. and Ward, P.J., 2012. Lost food, wasted resources: Global food supply chain losses and their impacts on freshwater, cropland, and fertiliser use. Science of the Total Environment, 438, pp.477-489.
  3. P Garg and J Prakash, Solar Energy, First Ed. TATA McGraw-Hill Publishing Company Limited, New Delhi, Page 119
  4. Visavale, G.L., Principles, Classification and Selection of Solar Dryers. In Solar drying: Fundamentals, Applications and Innovations, Ed. Hii, C.L., Ong, S.P., Jangam, S.V. and Mujumdar, A.S.,2012, ISBN - 978-981-07-3336-0, Published in Singapore, pp. 1-50.
  5. D. Jain and G. N. Tiwari, Thermal aspects of open sun drying of various crops, Centre of energy studies, Indian Institute of Technology, New Delhi Search
  6. Ezekoye, B.A. and Enebe, O.M., 2006. Development and performance evaluation of modified integrated passive solar grain dryer. The Pacific Journal of Science and Technology, 7(2), pp.185-190.
  7. Tiwari, G., Katiyar, V.K., Dwivedi, V., Katiyar, A.K. and Pandey, C.K., 2013. A comparative study of commonly used solar dryers in India. International Journal of Current Engineering Technology, 3(3), pp.1-6.
  8. Sengar, S.H., Khandetod, Y.P. and Mohod, A.G., 2009. Low cost solar dryer for fish. African Journal of Environmental Science and Technology, 3(9): PP. 265-271.
  9.  Ehl, P., Banout, J., Lojka, B., Polesný, Z. and Lojkova, J., 2010. Post harvest processing of selected tropical crops using a natural circulation solar dryer. Agricultural Tropical Subtropical, 43 (2), p.2.
  10. M. Mohanraj and P .Chandrashekhar,performance of a forced convection solar Drier integrated with gravel as heat storage Material for chilli drying, Journal of Engineering Science and Technology Vol. 4, No. 3 (2009) 305 – 314,
  11.  Sundari, A.U., Neelamegam, P. and Subramanian, C.V., Performance of Evacuated Tube Collector Solar Dryer with and Without Heat Sources, Iranica Journal of Energy & Environment 4 (4): 336-342, 2013, ISSN 2079-2115
  12.  S. M. Shalaby, Effect of Using Energy Storage Material in an Indirect-mode Forced Convection Solar Dryer on the Drying Characteristics of Grapes, Journal of Medical and Bioengineering, Vol. 1, No. 1, September 2012: 56-58.
  13.  Husainy, Avesahemad Sayyadnaimutulla, and P. R. Kulkarni. "Performance analysis of a solar grape dryer with thermal energy storage by PCM”. International Research Journal of Engineering and Technology Vol. 2: 54-60.
  14.  Bukola O. Bolaji and Ayoola P. Olalusi, Performance Evaluation of a Mixed-Mode Solar Dryer, Technical Report, AU J.T. 11(4): 225-231.
  15.    Mehdi Moradi and Ali Zomorodian, Thin Layer Solar Drying of Cyminum Grains by Means of Solar Cabinet Dryer, American-Eurasian Journal of Agriculture and Environmental Science, 5(3): 409-413, 2009.
  16.   Premkumar, S., 2018. An Experimental Study on Mixed Mode Solar Dryer with Heat Storage Materials. International Journal of Innovative Knowledge Concepts, 6(6), pp.124-129.
  17. Ugwu, S.N., Ugwuishiwu, B.O., Ekechukwu, O.V., Njoku, H. and Ani, A.O., 2015. Design, construction, and evaluation of a mixed mode solar kiln with black-painted pebble bed for timber seasoning in a tropical setting. Renewable and Sustainable Energy Reviews, 41, pp.1404-1412.
  18. Ahmed Abed Gatea, Design and construction of a drying system, a cylindrical section and analysis of the performance of thermal drying system, African Journal of Agricultural ResearchVol. 6(2), pp. 343-351, 18 January, 2011
  19.  S. Sadodin, T. T. Kashani, Numerical Investigation of a Solar Tunnel Drier for Drying of Copra, ISESCO Journal of Science and Technology, Vol-7, No. -12.
  20.  Bukola OllalekanBolaji, Exergetic Analysis of Solar Energy Drying Stsyems, Natural Resources, Scientific Research, USA 2011, 2(2): 92-97.
  21. Francis Kofi Forson, Modelling and experimental Investigation of a mixed-mode Natural convection solar Crop dryer, Ph.D. Thesis De Montfort university, Leicester.
  22. Solar energy, S.P. Sukhatme, Second edition,Tata Mcgraw Hill Company Limited, New Delhi, India.
  23. User’s handbook on solar heaters, UNDP/GEF Global Solar Water Heating Project, Ministry of New and Renewable Energy, Government of India.
  24. Green, M.G. and Schwarz, D., 2001. Solar drying technology for food preservation. Gate information Service GTZ, PO Box5180, p.65726.
  25. Fudholi, A., Sopian, K., Ruslan, M.H., Alghoul, M.A. and Sulaiman, M.Y., 2010. Review of solar dryers for agricultural and marine products. Renewable and sustainable energy reviews14(1), pp.1-30.
  26. Sharma V.K., Colangelo A., Spagna G., 1995, Experimental investigation of different type of solar dryers suitable for fruit & vegetable drying, Renewable Energy, 6(4), 413-424 
Iranica Journal of Energy & Environment
Volume 9, Issue 4
December 2018
Pages 277-283
Files
Share
How to cite
Statistics