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Heat Transfer Engineering Volume 37, 2016 - Issue 1
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Original Articles

Numerical Prediction and Analysis of Surface Transfer Coefficients on Moist Object During Heat and Mass Transfer Application

V. P. ChandramohanDepartment of Mechanical Engineering, National Institute of Technology Warangal, Warangal, IndiaCorrespondence[email protected]
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Pages 53-63 | Published online: 30 Jul 2015

Citations (25)

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Read on this site (4)

Mulatu C. Gilago & V. P. Chandramohan. (2023) Effect of Phase Change Materials on the Performance of Natural Convection Indirect Type Solar Dryer during Drying Ivy Gourd. Heat Transfer Engineering 44:7, pages 583-595.
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Abhay Lingayat, V. P. Chandramohan & V. R. K. Raju. (2020) Energy and Exergy Analysis on Drying of Banana Using Indirect Type Natural Convection Solar Dryer. Heat Transfer Engineering 41:6-7, pages 551-561.
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Punit Singh & Prabal Talukdar. (2020) Determination of Desorption Isotherms of Potato Using Gravimetric Method and Fast Isotherm Method. Heat Transfer Engineering 41:6-7, pages 513-521.
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Vishnuvardhan Reddy Mugi, Mulatu Chake Gilago, Velayudhan Parvathy Chandramohan & Valasingam Suresh Babu. Performance Evaluation of Indirect Solar Dryer under Passive and Active Modes during Drying Beetroot Slices. Heat Transfer Engineering 0:0, pages 1-15.
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Articles from other publishers (21)

Jörg Schemminger, Sharvari Raut, Barbara Sturm & Thijs Defraeye. (2024) A hybrid digital shadow to assess biological variability in carrot slices during drying. Thermal Science and Engineering Progress 50, pages 102507.
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Raj Kumar Saini, Devender Kumar Saini, Rajeev Gupta, Piush Verma, Robin Thakur, Sushil Kumar & Ali wassouf. (2023) Technological development in solar dryers from 2016 to 2021-A review. Renewable and Sustainable Energy Reviews 188, pages 113855.
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Clement A. Komolafe. (2023) Numerical Simulation of the 3D Simultaneous Heat and Mass Transfer in a Forced Convection Solar Drying System Integrated With Thermal Storage Material. Journal of Solar Energy Engineering 145:5.
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俊 李. (2023) Numerical Simulation of Temperature Change of Fabric under Jet Impingement Drying. Modeling and Simulation 12:01, pages 331-341.
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Abhay Lingayat, Richu Zachariah & Anish Modi. (2022) Current status and prospect of integrating solar air heating systems for drying in various sectors and industries. Sustainable Energy Technologies and Assessments 52, pages 102274.
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Ferdusee Akter, Ripa Muhury, Afroza Sultana & Ujjwal Kumar Deb. (2022) A Comprehensive Review of Mathematical Modeling for Drying Processes of Fruits and Vegetables. International Journal of Food Science 2022, pages 1-10.
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Clement A. Komolafe, Mufutau A. Waheed, Chidozie Ezekwem & Ching L. Hii. (2022) Numerical Analysis of Three-Dimensional Heat and Mass Transfer in Cocoa Beans Under a Solar Drying Condition With a Thermal Storage Material. Journal of Thermal Science and Engineering Applications 14:7.
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Junjie Yin, Mei Guo, Guishan Liu, Yonghui Ma, Shoutao Chen, Lili Jia & Mengqi Liu. (2022) Research Progress in Simultaneous Heat and Mass Transfer of Fruits and Vegetables During Precooling. Food Engineering Reviews 14:2, pages 307-327.
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Abhay Lingayat & Chandramohan V.P.. (2021) Numerical investigation on solar air collector and its practical application in the indirect solar dryer for banana chips drying with energy and exergy analysis. Thermal Science and Engineering Progress 26, pages 101077.
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Vishnuvardhan Reddy Mugi & V.P. Chandramohan. (2021) Shrinkage, effective diffusion coefficient, surface transfer coefficients and their factors during solar drying of food products – A review. Solar Energy 229, pages 84-101.
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Abhay Lingayat, Ramakrishna Balijepalli & V.P. Chandramohan. (2021) Applications of solar energy based drying technologies in various industries – A review. Solar Energy 229, pages 52-68.
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Saurabh Avinash Ture & V.P. Chandramohan. (2021) Effect of radiation heat transfer in convective drying of cranberry: Numerical solutions of one and two dimensional heat and mass transfer and comparison of results. Thermal Science and Engineering Progress 22, pages 100837.
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Abhay Lingayat, Chandramohan V. P., Raju V. R. K.Suresh S.. (2020) Drying kinetics of tomato (Solanum lycopersicum) and Brinjal (Solanum melongena) using an indirect type solar dryer and performance parameters of dryer. Heat and Mass Transfer 57:5, pages 853-872.
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Abhay Lingayat, V.P. Chandramohan, V.R.K. Raju & Anil Kumar. (2020) Development of indirect type solar dryer and experiments for estimation of drying parameters of apple and watermelon. Thermal Science and Engineering Progress 16, pages 100477.
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Abhay Bhanudas Lingayat, V.P. Chandramohan, V.R.K. Raju & Venkatesh Meda. (2020) A review on indirect type solar dryers for agricultural crops – Dryer setup, its performance, energy storage and important highlights. Applied Energy 258, pages 114005.
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A.M. Castro, E.Y. Mayorga & F.L. Moreno. (2019) Mathematical modelling of convective drying of feijoa (Acca sellowiana Berg) slices. Journal of Food Engineering 252, pages 44-52.
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Arunsandeep Godireddy, Abhay Lingayat, Razat Kumar Naik, V. P. Chandramohan & V. Rajesh Kanan Raju. (2017) Numerical Solution and it’s Analysis during Solar Drying of Green Peas. Journal of The Institution of Engineers (India): Series C 99:5, pages 571-579.
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G. Arunsandeep & V. P. Chandramohan. (2018) Numerical Solution for Determining the Temperature and Moisture Distributions of Rectangular, Cylindrical, and Spherical Objects During Drying. Journal of Engineering Physics and Thermophysics 91:4, pages 895-906.
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V P Chandramohan. (2018) Influence of air flow velocity and temperature on drying parameters: An experimental analysis with drying correlations. IOP Conference Series: Materials Science and Engineering 377, pages 012197.
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A.M. Castro, E.Y. Mayorga & F.L. Moreno. (2018) Mathematical modelling of convective drying of fruits: A review. Journal of Food Engineering 223, pages 152-167.
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Abhay Lingayat, V.P. Chandramohan & V.R.K. Raju. (2017) Design, Development and Performance of Indirect Type Solar Dryer for Banana Drying. Energy Procedia 109, pages 409-416.
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