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International Journal of Sustainable Energy Volume 33, 2014 - Issue 2
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Original Articles

ANFIS modelling of a natural convection greenhouse drying system for jaggery: an experimental validation

Om PrakashDepartment of Energy, Maulana Azad National Institute of Technology, Bhopal, IndiaCorrespondence[email protected]
&
Anil KumarDepartment of Energy, Maulana Azad National Institute of Technology, Bhopal, India
Pages 316-335 | Received 23 Nov 2011, Accepted 21 Aug 2012, Published online: 02 Oct 2012

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Baibhaw Kumar, Gábor Szepesi & Zoltán Szamosi. (2023) Optimisation techniques for solar drying systems: a review on modelling, simulation, and financial assessment approaches. International Journal of Sustainable Energy 42:1, pages 182-208.
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Anand Chavan, Vivek Vitankar, Arun Mujumdar & Bhaskar Thorat. (2021) Natural convection and direct type (NCDT) solar dryers: a review. Drying Technology 39:13, pages 1969-1990.
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Pankaj Verma, Narendra Shah & Sanjay Mahajani. (2020) Drying characteristics of non-centrifugal sugar. Drying Technology 38:16, pages 2162-2171.
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Pushpendra Singh & Manoj Kumar Gaur. (2020) Review on development, recent advancement and applications of various types of solar dryers. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 0:0, pages 1-21.
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M. Purusothaman & T. N. Valarmathi. (2019) Computational fluid dynamics analysis of greenhouse solar dryer. International Journal of Ambient Energy 40:8, pages 894-900.
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Om Prakash & Anil Kumar. (2015) Annual Performance of a Modified Greenhouse Dryer Under Passive Mode In No-Load Conditions. International Journal of Green Energy 12:11, pages 1091-1099.
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Mortaza Aghbashlo, Soleiman Hosseinpour & Arun S. Mujumdar. (2015) Application of Artificial Neural Networks (ANNs) in Drying Technology: A Comprehensive Review. Drying Technology 33:12, pages 1397-1462.
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Om Prakash & Anil Kumar. (2014) Application of artificial neural network for the prediction of jaggery mass during drying inside the natural convection greenhouse dryer. International Journal of Ambient Energy 35:4, pages 186-192.
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Articles from other publishers (40)

Lalan Kumar & Om Prakash. (2023) Development of FE modeling for hybrid greenhouse dryer for potato chips drying. Journal of Food Science 88:5, pages 1800-1815.
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M. Adnouni, L. Jiang, X.J. Zhang, L.Z. Zhang, Pankaj B. Pathare & A.P. Roskilly. (2023) Computational modelling for decarbonised drying of agricultural products: Sustainable processes, energy efficiency, and quality improvement. Journal of Food Engineering 338, pages 111247.
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Guna Muthuvairavan, Saranya Manikandan, Elavarasan Elangovan & Sendhil Kumar Natarajan. 2023. Drying Science and Technology [Working Title]. Drying Science and Technology [Working Title].
Amit Malik, Shimpy & Mahesh Kumar. (2023) Advancements in ginger drying technologies. Journal of Stored Products Research 100, pages 102058.
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Asim Ahmad, Om Prakash, Anil Kumar, Rajeshwari Chatterjee, Shubham Sharma, Vineet Kumar, Kushagra Kulshreshtha, Changhe Li & Elsayed Mohamed Tag Eldin. (2022) A Comprehensive State-of-the-Art Review on the Recent Developments in Greenhouse Drying. Energies 15:24, pages 9493.
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Anand Kushwah, Anil Kumar, Manoj Kumar Gaur & Amit Pal. (2022) Performance analysis of heat exchanger- evacuated tube assisted drying system (HE-ETADS) under unload condition. Sustainable Energy Technologies and Assessments 53, pages 102589.
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Mohd Khairulanwar Rizalman, Ervin Gubin Moung, Jamal Ahmad Dargham, Zuhair Jamain, Nurul'azah Mohd Yaakub & Sigeru Omatu. (2022) Internet-of-Things for Smart Dryers: Enablers, State of the arts, Challenges, and Solutions. Internet-of-Things for Smart Dryers: Enablers, State of the arts, Challenges, and Solutions.
Amit Malik & Mahesh Kumar. (2022) Computer software applications in solar drying. Materials Today: Proceedings 64, pages 101-107.
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Abhulimhen Solomon Okouzi, Akii Okonigbon Akaehomen Ibhadode & Albert Imuetinyan Obanor. (2021) Response Surface Methodology (RSM) Optimization of the Batch Process in a Rectangular Passive Greenhouse Dryer. International Journal of Engineering Research in Africa 56, pages 145-161.
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Huiliang Cao, Wenqiang Wei, Li Liu, Tiancheng Ma, Zekai Zhang, Wenjie Zhang, Chong Shen & Xiaomin Duan. (2021) A Temperature Compensation Approach for Dual-Mass MEMS Gyroscope Based on PE-LCD and ANFIS. IEEE Access 9, pages 95180-95193.
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Adel Bakhshipour, Hemad Zareiforoush & Iraj Bagheri. (2020) Mathematical and intelligent modeling of stevia ( Stevia Rebaudiana ) leaves drying in an infrared‐assisted continuous hybrid solar dryer . Food Science & Nutrition 9:1, pages 532-543.
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F. Magdaline Eljeeva Emerald, Heartwin A. Pushpadass, M. Manjunatha, K. Manimala, D. Dejey, Karthik Salish & B. Surendra Nath. (2020) Modelling approaches for predicting moisture transfer during baking of chhana podo (milk cake) incorporated with tikhur (Curcuma angustifolia) starch. Journal of Food Measurement and Characterization 14:6, pages 2981-2997.
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Saloni Spall & V.P. Sethi. (2020) Design, modeling and analysis of efficient multi-rack tray solar cabinet dryer coupled with north wall reflector. Solar Energy 211, pages 908-919.
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E. O. Oke, B. I. Okolo, O. Adeyi, F. N. Osuolale, P. C. Nnaji, C. Ude & J. Ayanyemi. (2020) Parametric analysis and soft-computing prediction of sweet potatoes (Ipomoea batatas L) starch drying using machine learning techniques. SN Applied Sciences 2:9.
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M. Sridharan. (2020) Application of Generalized Regression Neural Network in Predicting the Performance of Natural Convection Solar Dryer. Journal of Solar Energy Engineering 142:3.
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Kamil Neyfel Çerçi & Mehmet Daş. (2019) Modeling of Heat Transfer Coefficient in Solar Greenhouse Type Drying Systems. Sustainability 11:18, pages 5127.
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Ravinder Kumar Sahdev, Mahesh Kumar & Ashwani Kumar Dhingra. (2017) A comprehensive review of greenhouse shapes and its applications. Frontiers in Energy 13:3, pages 427-438.
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Nicolás‐Iván Román‐Roldán, Anabel López‐Ortiz, Jean‐Fulbert Ituna‐Yudonago, Octavio García‐Valladares & Isaac Pilatowsky‐Figueroa. (2019) Computational fluid dynamics analysis of heat transfer in a greenhouse solar dryer “chapel‐type” coupled to an air solar heating system. Energy Science & Engineering.
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Ahmed Zoukit, Hicham El Ferouali, Issam Salhi, Said Doubabi & Naji Abdenouri. (2019) Takagi Sugeno fuzzy modeling applied to an indirect solar dryer operated in both natural and forced convection. Renewable Energy 133, pages 849-860.
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Ahmed ZOUKİT, Hicham EL FEROUALİ, İssam SALHİ, Said DOUBABİ & Naji ABDENOURİ. (2019) Fuzzy modeling of a hybrid solar dryer: experimental validation. Journal of Energy Systems 3:1, pages 1-13.
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Yenming J. Chen & Wen-Hsien Ho. (2019) Evolutionary algorithm in adaptive neuro-fuzzy inference system for modeling growth of foodborne fungi. Journal of Intelligent & Fuzzy Systems 36:2, pages 1033-1039.
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Ahmed ZOUKİT, Hicham EL FEROUALİ, İssam SALHİ, Said DOUBABİ & Naji ABDENOURİ. (2018) Mathematical modeling of an innovative hybrid solar-gas dryer. Journal of Energy Systems 2:4, pages 260-276.
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Rakesh Kumar & Mahesh Kumar. (2018) Upgradation of jaggery production and preservation technologies. Renewable and Sustainable Energy Reviews 96, pages 167-180.
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Prashant Singh Chauhan, Anil Kumar & Bhupendra Gupta. (2017) A review on thermal models for greenhouse dryers. Renewable and Sustainable Energy Reviews 75, pages 548-558.
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. 2017. Geothermal,Wind and Solar Energy Applications in Agriculture and Aquaculture. Geothermal,Wind and Solar Energy Applications in Agriculture and Aquaculture 235 258 .
Ángel Garduño-García;Irineo L. López-Cruz & Agustín Ruiz-García. (2017) Mathematical modeling of greenhouse solar dryers with natural and forced convection for agricultural products: state of the art. Ingeniería Agrícola y Biosistemas 9:1, pages 19-36.
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Anil Kumar, Harsh Deep, Om Prakash & O. V. Ekechukwu. 2017. Solar Drying Technology. Solar Drying Technology 177 196 .
Om Prakash, Saurabh Ranjan, Anil Kumar & P. P. Tripathy. 2017. Solar Drying Technology. Solar Drying Technology 419 438 .
Amin Ziaforoughi, Ali Reza Yousefi & Seyed M.A. Razavi. (2016) A Comparative Modeling Study of Quince Infrared Drying and Evaluation of Quality Parameters. International Journal of Food Engineering 12:9, pages 901-910.
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Sumit Tiwari, G.N. Tiwari & I.M. Al-Helal. (2016) Development and recent trends in greenhouse dryer: A review. Renewable and Sustainable Energy Reviews 65, pages 1048-1064.
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Om Prakash, Anil Kumar & Vinod Laguri. (2016) Performance of modified greenhouse dryer with thermal energy storage. Energy Reports 2, pages 155-162.
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Prashant Singh Chauhan & Anil Kumar. (2016) Performance analysis of greenhouse dryer by using insulated north-wall under natural convection mode. Energy Reports 2, pages 107-116.
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Om Prakash, Vinod Laguri, Anukul Pandey, Anil Kumar & Arbind Kumar. (2016) Review on various modelling techniques for the solar dryers. Renewable and Sustainable Energy Reviews 62, pages 396-417.
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Majdi Al-Mahasneh, Mohannad Aljarrah, Taha Rababah & Muhammad Alu’datt. (2016) Application of Hybrid Neural Fuzzy System (ANFIS) in Food Processing and Technology. Food Engineering Reviews 8:3, pages 351-366.
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Weiqiang Tang, Zhiyuan Rui, Hongmei Jiang & Haiyan Gao. (2016) Coagulation control fuzzy modeling based on cluster analysis and optimization technique. Coagulation control fuzzy modeling based on cluster analysis and optimization technique.
Prashant Singh Chauhan, Anil Kumar & Perapong Tekasakul. (2015) Applications of software in solar drying systems: A review. Renewable and Sustainable Energy Reviews 51, pages 1326-1337.
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Om Prakash & Anil Kumar. (2014) Environomical Analysis and Mathematical Modelling for Tomato Flakes Drying in a Modified Greenhouse Dryer under Active Mode. International Journal of Food Engineering 10:4, pages 669-681.
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Om Prakash & Anil Kumar. (2013) Thermal performance evaluation of modified active greenhouse dryer. Journal of Building Physics 37:4, pages 395-402.
Crossref
Om Prakash & Anil Kumar. (2013) Performance evaluation of greenhouse dryer with opaque north wall. Heat and Mass Transfer 50:4, pages 493-500.
Crossref
Om Prakash & Anil Kumar. (2014) Solar greenhouse drying: A review. Renewable and Sustainable Energy Reviews 29, pages 905-910.
Crossref

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