New approach for thermal testing of solar dryer: Development of generalized drying characteristic curve

► Single generalized drying curve representing 16 drying kinetics is developed. ► A dimensionless parameter, DPI is identified to determine effectiveness of dryer. ► DPI is found to be independent of operating conditions and food characteristics. ► DPI can therefore be used as performance index to c...

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Published in:Solar energy 2012-07, Vol.86 (7), p.1981-1991
Main Authors: Singh, Shobhana, Kumar, Subodh
Format: Article
Language:English
Subjects:
Applied sciences
Comparative analysis
Dimensionless parameter
Dryer performance index
Drying kinetics
Electrical engineering. Electrical power engineering
Electrical power engineering
Energy
Exact sciences and technology
Food preservation
Generalized drying curve
Miscellaneous
Mixed-mode solar dryer
Moisture content
Musa
Natural energy
Power networks and lines
Solanum tuberosum
Solar energy
Testing. Reliability. Quality control
Triticum aestivum
Users connections and in door installation
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cited_by cdi_FETCH-LOGICAL-c437t-152bf3eb361340271741420ebea04d41c36a9b39cd5347be4665528b9db4316c3
cites cdi_FETCH-LOGICAL-c437t-152bf3eb361340271741420ebea04d41c36a9b39cd5347be4665528b9db4316c3
container_end_page 1991
container_issue 7
container_start_page 1981
container_title Solar energy
container_volume 86
creator Singh, Shobhana
Kumar, Subodh
description ► Single generalized drying curve representing 16 drying kinetics is developed. ► A dimensionless parameter, DPI is identified to determine effectiveness of dryer. ► DPI is found to be independent of operating conditions and food characteristics. ► DPI can therefore be used as performance index to compare different dryer designs. It is necessary to develop thermal test procedure that can assist performance comparison between various solar dryer designs on common basis. In order to achieve this objective, the laboratory model of mixed-mode solar dryer is specially designed to perform indoor drying experiments with cylindrical potato samples. Sixteen drying kinetic curves are obtained over a wide range of various drying process variables. The variables investigated are absorbed thermal energy, air mass flow rate, food sample thickness and loading density. Based on experimental data of moisture content ratio-drying time, new concept to develop standard test method for performance evaluation of a given dryer is proposed. The proposed methodology facilitates to generate single generalized characteristic curve representing 16 drying kinetics and dimensionless parameter called dryer performance index (DPI) characterising the effectiveness of dryer system is identified. Different solar dryers with potato, banana and wheat are also tested in real climatic conditions to validate the proposed methodology. DPI with consistent values for all test conditions, indicating high degree of independence of operating conditions and food product characteristics, can therefore be used as a test parameter for performance comparison between different dryer designs on equitable basis.
doi_str_mv 10.1016/j.solener.2012.04.001
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1471-1257
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source ScienceDirect Freedom Collection
subjects Applied sciences
Comparative analysis
Dimensionless parameter
Dryer performance index
Drying kinetics
Electrical engineering. Electrical power engineering
Electrical power engineering
Energy
Exact sciences and technology
Food preservation
Generalized drying curve
Miscellaneous
Mixed-mode solar dryer
Moisture content
Musa
Natural energy
Power networks and lines
Solanum tuberosum
Solar energy
Testing. Reliability. Quality control
Triticum aestivum
Users connections and in door installation
title New approach for thermal testing of solar dryer: Development of generalized drying characteristic curve
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