Abstract
In a developing country like India, having the second largest population and agriculture as the source of income to nearly 60 % of the total population, post-harvest and storage loss is a major quandary, which needs to be addressed in due diligence. Many food preservation techniques like cold storage, drying, etc., have been evolved out over the years to tackle the above losses. The major constraint is that almost all the technologies are utilizing fossil fuel resources, which are depleting very fast and wise use of these precious resources are preferred for long-term energy sustainability. Therefore, sustainable methods for food preservation are the need of the hour. Solar drying is one of the best choices in this context. Different models of solar dryers have been developed and good quantum of research is progressing in most of the countries to propagate the solar drying technology for value addition of agriculture products. The solar drying technology is a classical example to showcase how sun’s free energy could be effectively utilized for the benefit of mankind. This chapter explains the different types of dryers, different aspects of solar drying, parameters involved in the drying process and the economic analysis to analyse the feasibility of the solar drying system. Case studies of a few of the successful installations are also included.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Agriculture (2013) India Brand Equity Foundation, www.ibef.com. Accessed 10 Jul 2014. Detailed Project Report of the National Agricultural Education Project (NAEP) (2012), Indian Council of Agricultural Research
Aravindh MA, Sreekumar A (2014a) An energy efficient solar drier, Spice India, vol 27, No.5, May 2014, pp 10–12
Aravindh MA, Sreekumar A (2014b) Experimental and economic analysis of a solar matrix collector for drying application. Current Science, vol 107, No. 3, pp 350–355
ASSOCHAM News report on Post Harvest losses in India, http://www.assocham.org/prels/shownews.php?id=4132. Accessed 10 Jul 2014
Ayyappan S, Mayilsamy K (2010) Experimental investigation on a tunnel drier for copra drying. J Sci Ind Res 69:635–638
Chavda TV, Kumar N (2008) Indian renewable energy development agency, 5(2–4):44–48. ISSN: 0971-0736
Chowdhury MMI, Bala BK, Haque MA (2011) Energy and exergy analysis of the solar drying of jackfruit leather 110:222–229
Garg HP, Prakash J (1997) Solar energy-fundamentals and applications. Tata McGraw-Hill Publishing Company Ltd. ISBN 0-07-463631-6
Palaniappan C, Haridasan TM (2000) Detailed project report on solar air heating for paddy drying, Planters Energy Network, http://pen.solar/wp-content/uploads/2014/06/DPR-on-Solar-vegetables-Processing.pdf. Accessed 26 Jul 2014
Ratti C, Mujumdar AS (1997) Solar drying of foods: modelling and numerical simulation. Sol Energy 60:151–157
Sabiani SS (2005) Drying of food and biomaterials: retention of nutritional/functional quality. In: Datta AB, Kundu KM, Singh GP (eds) Proceedings of Asia Pacific Drying Conference—2005, vol 1, pp 89–100
Society for Energy, Environment and Development (SEED) http://www.seedngo.com. Accessed 28 Jun 2014
Smith PG (2011) Introduction to food process engineering. Springer Publications. ISBN 978-1-4419-7661-1 (Print) 978-1-4419-7662-8 (Online)
Singh PP, Singh S, Dhaliwal SS (2006) Multi-shelf domestic solar dryer. Energy Convers Manage 47(13–14):1799–1815
Singh P, Rathore NS, Mathur AN (2007) Development of solar tunnel dryer for industrial use. J Agric Eng 44(1):92–95
Sodha MS, Bansal NK, Kumar A, Bansal PK, Malik MAS (1987) Solar crop drying, vol 1. CRC Press, Boca Raton, FL
Sreekumar A (2010) Techno-economic analysis of a roof-integrated solar air heating system for drying fruit and vegetables. Energy Convers Manag 51:2230–2238
Sreekumar A (2011a) Solar energy: resource, technologies, and materials-an overview. In: Pillai GM (ed) A solar future for India, World Institute of Sustainable Energy 2011, pp 284–300
Sreekumar A (2011b) Solar drying for food processing. In: Pillai GM (ed) A solar future for India, World Institute of Sustainable Energy 2011, pp 284–300
Sukhatme SP, Nayak JK (2009) Solar energy: principles of thermal energy collection and storage. Tata McGraw-Hill Education Pvt. Ltd. ISBN: (13) 978-0-07-026064-1
Tiwari GN (2002) Solar energy: fundamentals, design, modelling and applications, alpha science international. ISBN 1842651064, 9781842651063
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer India
About this chapter
Cite this chapter
Aravindh, M.A., Sreekumar, A. (2015). Solar Drying—A Sustainable Way of Food Processing. In: Sharma, A., Kar, S. (eds) Energy Sustainability Through Green Energy. Green Energy and Technology. Springer, New Delhi. https://doi.org/10.1007/978-81-322-2337-5_2
Download citation
DOI: https://doi.org/10.1007/978-81-322-2337-5_2
Published:
Publisher Name: Springer, New Delhi
Print ISBN: 978-81-322-2336-8
Online ISBN: 978-81-322-2337-5
eBook Packages: EnergyEnergy (R0)