This document describes a solar dryer project to dry potato cylinders. It includes an introduction to drying and solar drying, descriptions of the experimental setup and procedures used, results of drying potato cylinders in an indirect solar dryer over 7 hours, and advantages and disadvantages of solar drying. Monitoring showed temperature increased with solar insolation and moisture content of potato cylinders decreased over time from 7% to 1% dry basis. Drying rates were highest for cylinders in the lower tray.
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Solar Dryer Design and Performance Analysis
1. SOLAR DRYER
Name : SURAJ KUMAR
Roll No: 18AG63R16
Department of Agricultural and Food Engineering,
Indian Institute of Technology, Kharagpur,
West Bengal, India.
2. Contents
Introduction
Solar drying
Case study
Experimental setup working
Results
Advantages and disadvantages
Conclusion
References 2
3. Introduction
Drying
Drying is a heat and mass transfer process consisting of the
removal of moisture by evaporation from a solid , semi-solid or
liquid.
3
Main objectives:-
1. Extended storage life
2. Quality enhancement
3. Ease of handling
4. Further processing
6. Conservation of energy in which
one form of energy is converted into
other form of energy
Black body which absorbs the heat
of the incident sunlight and makes
the temperature of chamber more
than the surrounding temperature.
Working Principle of Solar Dryer
7. Solar Dryers the most important
characteristics to be considered are:
Low capital and operation cost.
High load ratio.
Use of commercially available technology.
Achievement of uniform material drying.
Have a high throughput of fruit or other crops.
Have simple mechanical material handling system.7
8. Can be used for drying of:-
Fruits
Vegetables
Fish
Meat
Mushrooms
Medical plant
Spices
Tea
9. Compared with open-air drying
The product is hygienic.
Protection of rain.
Protection of pollution by dust etc.
Protection of wind which can blow away the food.
Reduction of drying time.
No loss of colours.
13. Procedure
13
1. Potato were
washed and sliced into
cylindrical shape
3. Attach the
thermocouples at
different places.
4. Connect the
pyranometer.
2. Put the potato
cylinder on the trays.
18. Advantages
Efficient Heating Device: These dryers work in any sunny area which include decks, patios,
gardens and so forth.
Portable: Most of these devices are compact in size and extremely portable. It is also light
in weight which is one of the greatest advantages of using these devices.
Operational Costs: It also involves zero operational costs and it can function on passive
solar energy too.
Temperature Control: It is also quite easy to control the temperature as it includes
adjustable venting features.
Weatherproof Designs: These devices also include sturdy and weather proof designs which
ensure long time usage and durability.
Direct And Indirect Heating: These devices utilize both direct and indirect solar energy for
quick drying purposes. It also offers optimum performance and so the food items last for a
longer period of time.
19. Disadvantages
Not workable at night.
Efficiency decreases to a large extent on cloudy days.
Over heating may occur if regular attention is not paid.
Change in taste and flavour of food may occur if regular
monitoring is not done.
We can not get the accurate amount of sun rays and heat.
20. Conclusion
In a country like India where 300 days out of 365 days are sunny have a
huge asset of solar energy . Government is also promoting the use of
solar energy.
Sunlight is free of cost and sun is a renewable source of energy .
Faster drying rates can be achieved through indirect drying.
The deleterious effects on colour was also reduced than that of direct sun
drying.
21. References
Mustayen, A.G.M.B., Mekhilef, S., and Saidur, R. 2014. Performance study of
different solar dryers: A review. Renewable and Sustainable Energy Reviews
34 (2014) 463-470.
Tripathy, P.P., Kumar Subodh.2008. Determination of temperature dependent
drying parameters for potato cylinders and slices during solar drying, Energy
Conversion and Management 49 (2008) 2941–2948.
Tripathy, P.P., Kumar Subodh.2008. A methodology for determination of
temperature dependent mass transfer coefficients from drying kinetics:
Application to solar drying. Journal of Food Engineering 90 (2009) 212–218.