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2. Experimental evaluation of recycled aluminum cans solar air heater: Comprehensive 4E assessments. (2025). Aziz, Mohamed A ; Gaheen, Osama A ; Abdelrahman, M A ; Rashed, Mostafa R.
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4. Akbulut, A. ; Durmuş, A. Energy and exergy analyses of thin layer drying of mulberry in a forced solar dryer. 2010 Energy. 35 1754-1763

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11. Debnath, S. ; Das, B. ; Randive, P.R. ; Pandey, K.M. Performance analysis of solar air collector in the climatic condition of North Eastern India. 2018 Energy. 165 281-298

12. Dincer, I. Exergy as a potential tool for sustainable drying systems. 2011 Sustain. Cities Soc.. 1 91-96
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14. El-Said, E.M.S. ; Abou Al-Sood, M.M. ; Elsharkawy, E.A. ; Abdelaziz, G.B. Tubular solar air heater using finned semi-cylindrical absorber plate with swirl flow: experimental investigation. 2022 Sol. Energy. 236 879-897
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15. Erbay, Z. ; Icier, F. Energy and exergy analyses on drying of olive leaves (OLEA EUROPAEA L.) in tray drier. 2011 J. Food Process. Eng.. 34 2105-2123
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16. Esen, H. Experimental energy and exergy analysis of a double-flow solar air heater having different obstacles on absorber plates. 2008 Build. Environ.. 43 1046-1054
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17. Fudholi, A. ; Sopian, K. ; Othman, M.Y. ; Ruslan, M.H. Energy and exergy analyses of solar drying system of red seaweed. 2013 Energy Build.. -
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18. Fudholi, A. ; Sopian, K. ; Othman, M.Y. ; Ruslan, M.H. Energy and exergy analyses of solar drying system of red seaweed. 2014 Energy Build.. 68 121-129
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19. Gupta, M.K.Ã. ; Kaushik, S.C. Exergetic performance evaluation and parametric studies of solar air heater. 2008 Energy. 33 1691-1702

20. Hadibi, T. ; Mennouche, D. ; Boubekri, A. ; Chouicha, S. ; Arici, M. ; Yunfeng, W. ; Ming, L. ; Fang-ling, F. Drying characteristic, sustainability, and 4E (energy, exergy, and enviro-economic) analysis of dried date fruits using indirect solar-electric dryer: an experimental investigation. 2023 Renew. Energy. 218 -

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22. Hegde, A.K. ; Pai, R. ; Karanth, K.V. Energy and exergy analysis of a cross flow solar air heater for thermohydraulic performance augmentation. 2023 Int. J. Therm. Sci.. 194 -
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23. I.M. Vijay Patel, K.B. Judal, Kamal Sharma, Marc A. Rosen, Abhinav Kumar, Mohd Aamir Mumtaz, Mohamed H. Elgamal, Mohamed I. Farouk, Effect of Channel Depth Ratio and Absorber Plate Configuration on Performance of a Solar Air Heate, Case Stud. Therm. Eng. (n.d.) 100321. https://doi.org/10.1016/j.csite.2024.104789.
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24. Khanali, M. ; Aghbashlo, M. ; Rafiee, S. ; Jafari, A. Exergetic performance assessment of plug flow fluidised bed drying process of rough rice. 2013 Int. J. Exergy. 13 387-408
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25. Khanlari, A. ; Sözen, A. ; Afshari, F. ; Tuncer, A.D. Energy-exergy and sustainability analysis of a PV-driven quadruple-flow solar drying system. 2021 Renew. Energy. 175 1151-1166

26. Kumar, D. ; Mahanta, P. ; Kalita, P. Energy and exergy analysis of a natural convection dryer with and without sensible heat storage medium. 2020 J. Energy Storage. 29 -
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28. Li, M. ; Zhong, D. ; Ma, T. ; Kazemian, A. ; Gu, W. Photovoltaic thermal module and solar thermal collector connected in series: energy and exergy analysis. 2020 Energy Convers. Manag.. 206 -
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29. Matheswaran, M.M. ; V Arjunan, T. ; Somasundaram, D. Analytical investigation of solar air heater with jet impingement using energy and exergy analysis. 2018 Sol. Energy. 161 25-37
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30. Ndukwu, M.C. ; Bennamoun, L. ; Abam, F.I. ; Eke, A.B. ; Ukoha, D. Energy and Exergy analysis of a solar dryer integrated with sodium sulfate decahydrate and sodium chloride as thermal storage medium. 2017 Renew. Energy. -

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36. Tagnamas, Z. ; Lamsyehe, H. ; Moussaoui, H. ; Bahammou, Y. ; Kouhila, M. ; Idlimam, A. ; Lamharrar, A. Energy and exergy analyses of carob pulp drying system based on a solar collector. 2021 Renew. Energy. 163 495-503

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1. Comprehensive analysis and experimental study on the novel intermittent solar-electric onion drying technology. (2025). Jiangtao, Rong ; Wang, Yunfeng ; Ming, LI ; Emam, Reda Hassanien ; Kh, Tarek ; Benseddik, Abdelouahab ; Hadibi, Tarik ; Mengjie, Song.
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   RePEc:eee:renene:v:238:y:2025:i:c:s0960148124020172.

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2. Exergy efficiency and sustainability indicators of forced convection mixed mode solar dryer system for drying process. (2024). Muthukumar, P ; Ekka, Jasinta Poonam.
   In: Renewable Energy.
   RePEc:eee:renene:v:234:y:2024:i:c:s0960148124013247.

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3. Exergetic, sustainability and exergoeconomic analyses of a fully photovoltaic-powered heat pump tumble dryer. (2024). Turkdoan, Sunay ; Direk, Mehmet ; Atalay, Halil ; Tunkal, Cuneyt.
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   RePEc:eee:renene:v:225:y:2024:i:c:s0960148124003392.

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4. Solar air heater energy and exergy enhancement using a v-corrugated wire mesh absorber: An experimental comparison. (2024). Soheel, Ammar Hassan ; Abdulrazzaq, Nabeel M.
   In: Energy.
   RePEc:eee:energy:v:309:y:2024:i:c:s0360544224029116.

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5. Drying Characteristics, Kinetic Modeling, Energy and Exergy Analyses of Water Yam ( Dioscorea alata ) in a Hot Air Dryer. (2023). Adekanye, Timothy A ; Kaveh, Mohammad ; Szymanek, Mariusz ; Wojciechowska, Krystyna ; Idahosa, Endurance O ; Okonkwo, Clinton E ; Olayanju, Adeniyi T ; Okunola, Abiodun A.
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6. Advanced exergoeconomic and exergy performance assessments of a wind and solar energy powered hybrid dryer. (2023). Aslan, Volkan ; Atalay, Halil.
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   RePEc:eee:renene:v:209:y:2023:i:c:p:218-230.

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7. Exergoeconomic and environmental impact evaluation of wind energy assisted hybrid solar dryer and conventional solar dryer. (2022). Atalay, Halil.
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   RePEc:eee:renene:v:200:y:2022:i:c:p:1416-1425.

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8. Sustainability and performance analysis of a solar and wind energy assisted hybrid dryer. (2022). Oban, Turhan M ; Yava, Nur ; Atalay, Halil.
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   RePEc:eee:renene:v:187:y:2022:i:c:p:1173-1183.

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9. Energy, exergy and environmental impact analysis on the novel indirect solar dryer with fins inserted phase change material. (2021). S, MADHANKUMAR ; Wu, Wei ; Madhankumar, S ; Viswanathan, Karthickeyan.
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10. Drying characteristics, energetic and exergetic investigation during mixed-mode solar drying of pineapple slices at varied air mass flow rates. (2021). Tripathy, P P ; Rani, Poonam.
    In: Renewable Energy.
    RePEc:eee:renene:v:167:y:2021:i:c:p:508-519.

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11. Energy and exergy analyses of carob pulp drying system based on a solar collector. (2021). Bahammou, Younes ; Kouhila, Mounir ; Moussaoui, Haytem ; Lamsyehe, Hamza ; Idlimam, Ali ; Lamharrar, Abdelkader ; Tagnamas, Zakaria.
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    RePEc:eee:renene:v:163:y:2021:i:c:p:495-503.

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12. Energy and exergy analyses of a mixed-mode solar dryer of pear slices (Pyrus communis L). (2021). Orlando, Salgado Sandoval ; Cesar, Lopez-Vidaa Erick ; Octavio, Garcia-Valladares ; Alfredo, Dominguez Nio ; Lilia, Cesar-Munguia Ana.
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13. Mathematical Modeling and Performance Analysis of a New Hybrid Solar Dryer of Lemon Slices for Controlling Drying Temperature. (2020). Lai, Yanhua ; Hao, Wengang ; Liu, Shuonan ; Mi, Baoqi.
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14. A review on recent developments in thermal performance enhancement methods of flat plate solar air collector. (2020). Senthil, Ramalingam ; Vengadesan, Elumalai.
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    RePEc:eee:rensus:v:134:y:2020:i:c:s1364032120306031.

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15. Performance evaluation of air and liquid-based solar heating systems in various climates in East Asia. (2020). Choi, Young Jin.
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    RePEc:eee:renene:v:162:y:2020:i:c:p:685-700.

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16. Energy-exergy and enviro-economic survey of solar air heaters with various air channel modifications. (2020). Gurbuz, Emine Yaiz ; Irin, Ceylin ; Tuncer, Azim Dou ; Khanlari, Ataollah ; Gungor, Afsin ; Sozen, Adnan.
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    RePEc:eee:renene:v:160:y:2020:i:c:p:67-85.

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17. Development of a low-cost wind-powered active solar dryer integrated with glycerol as thermal storage. (2020). Ndukwu, M C ; Abam, F I ; Onyenwigwe, D ; Dirioha, C ; Eke, A B.
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18. Exergo-environmental analysis of an indirect forced convection solar dryer for drying bitter gourd slices. (2020). Arjunan, T V ; Vijayan, S ; Kumar, Anil.
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19. Drying of untreated Musa nendra and Momordica charantia in a forced convection solar cabinet dryer with thermal storage. (2020). Jayaraj, S ; Srinivas, M ; Mohanraj, M ; Arun, K R ; Kunal, G ; Sujith, C S.
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20. Exergy and improvement potential of hybrid photovoltaic thermal/thermoelectric (PVT/TE) air collector. (2019). Nazri, Nurul Syakirah ; Ruslan, Mohd Hafidz ; Mohammad, Masita ; Sopian, Kamaruzzaman ; Yen, Chan Hoy ; Fudholi, Ahmad ; Mustafa, Wan.
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21. Exergy and sustainability index of photovoltaic thermal (PVT) air collector: A theoretical and experimental study. (2019). Mustapha, Muslizainun ; Zohri, Muhammad ; Mohammad, Masita ; Sopian, Kamaruzzaman ; Yen, Chan Hoy ; Fudholi, Ahmad ; Nazri, Nurul Syakirah ; Binti, Nurul Shahirah.
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22. Simulation, design and experimental performance evaluation of an innovative hybrid solar-gas dryer. (2019). Doubabi, Said ; Abdenouri, Naji ; Salhi, Issam ; el Ferouali, Hicham ; Zoukit, Ahmed.
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23. Comparative assessment of solar and heat pump dryers with regards to exergy and exergoeconomic performance. (2019). Atalay, Halil.
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    RePEc:eee:energy:v:189:y:2019:i:c:s0360544219318754.

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24. Performance analysis of a solar dryer integrated with the packed bed thermal energy storage (TES) system. (2019). Atalay, Halil.
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    RePEc:eee:energy:v:172:y:2019:i:c:p:1037-1052.

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25. Recent advances in sustainable drying of agricultural produce: A review. (2019). Wang, Y D ; Lamidi, Rasaq O ; Pathare, Pankaj B ; Jiang, L ; Roskilly, A P.
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26. PVT air collector integrated greenhouse dryers. (2018). Tiwari, Sumit ; Agrawal, Sanjay .
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27. Thin layer drying kinetics and exergy analysis of turmeric (Curcuma longa) in a mixed mode forced convection solar tunnel dryer. (2018). Murugavelh, S ; Karthikeyan, A K.
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28. Experimental performance of mushroom fluidized-bed drying: Effect of osmotic pretreatment and air recirculation. (2018). Azadbakht, Mohsen ; Darvishi, Hosain ; Noralahi, Bashir.
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29. An investigation on solar drying: A review with economic and environmental assessment. (2018). Ramadan, Mohamad ; Khaled, Mahmoud ; el Hage, Hicham ; Bazzi, Hassan ; Herez, Amal.
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30. Energy and exergy analysis of a solar dryer integrated with sodium sulfate decahydrate and sodium chloride as thermal storage medium. (2017). Ndukwu, M C ; Bennamoun, L ; Abam, F I ; Ukoha, D ; Eke, A B.
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31. Energy and exergy analyses of the solar drying processes of ghost chilli pepper and ginger. (2017). Muthukumar, P ; Rabha, D K ; Somayaji, C.
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32. Energy and exergy analyses of solar-assisted fluidized bed drying integrated with biomass furnace. (2017). Yahya, M ; Sopian, Kamaruzzaman ; Fudholi, Ahmad.
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33. Exergetic analysis of deep-bed drying of rough rice in a convective dryer. (2017). Tohidi, Mojtaba ; Beigi, Mohsen ; Torki-Harchegani, Mehdi.
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34. Energy and exergy analysis of a mixed-mode greenhouse-type solar dryer, integrated with partially covered N-PVT air collector. (2017). Tiwari, Sumit.
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35. Application of artificial neural network method to exergy and energy analyses of fluidized bed dryer for potato cubes. (2017). Azadbakht, Mohsen ; Torshizi, Mohammad Vahedi ; Aghili, Hajar ; Ziaratban, Armin .
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36. Drying of sweet basil with solar air collectors. (2016). Karakaya, Hakan ; Gulcimen, Fevzi ; Durmus, Aydin .
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37. Effective moisture diffusivity during hot air solar drying of tomato slices. (2016). Akhijani, Samimi H ; Kianmehr, M H ; Arabhosseini, A.
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38. Techno-economic of solar drying systems with water based solar collectors in Malaysia: A review. (2015). Yahya, M ; Ruslan, Mohd Hafidz ; Gabbasa, Mohamed ; Sopian, Kamaruzzaman ; Bakhtyar, B ; Fudholi, Ahmad ; Mat, Sohif.
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39. Review of solar drying systems with air based solar collectors in Malaysia. (2015). Othman, Mohd Yusof ; Ruslan, Mohd Hafidz ; Gabbasa, Mohamed ; Sopian, Kamaruzzaman ; Bakhtyar, B ; Fudholi, Ahmad.
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40. Performances and improvement potential of solar drying system for palm oil fronds. (2015). Othman, Mohd Yusof ; Ruslan, Mohd Hafidz ; Alghoul, M. A. ; Sopian, Kamaruzzaman ; Fudholi, Ahmad.
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41. Energy and exergy analysis of typical renewable energy systems. (2014). Tyagi, V. V. ; Park, S. R. ; Pandey, A. K..
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42. A review on exergy analysis of drying processes and systems. (2013). Rafiee, Shahin ; Aghbashlo, Mortaza ; Mobli, Hossein ; Madadlou, Ashkan .
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43. Solar drying for different test conditions: Proposed framework for estimation of specific energy consumption and CO2 emissions mitigation. (2013). Kumar, Subodh ; Singh, Shobhana.
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44. Energy, exergy and environmental analysis of cold thermal energy storage (CTES) systems. (2012). Ahmed, S. ; Saidur, R. ; Boroumandjazi, G. ; Rismanchi, B..
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45. A review on energy and exergy analysis of solar dying systems. (2012). Kothari, Surendra ; Kaushik, S. C. ; Panwar, N. L..
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46. A novel approach for estimation of photovoltaic exergy efficiency. (2012). Oktay, Z. ; Dincer, I. ; Akyuz, E. ; Coskun, C..
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47. Exergy based analysis of solar air heater having discrete V-down rib roughness on absorber plate. (2012). Singh, Sukhmeet ; Chander, Subhash ; Saini, J. S..
    In: Energy.
    RePEc:eee:energy:v:37:y:2012:i:1:p:749-758.

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48. Experimental investigation and thermodynamic performance analysis of a solar dryer using an evacuated-tube air collector. (2012). Belessiotis, V. ; Kyriakis, N. ; Lamnatou, Chr., ; Papanicolaou, E..
    In: Applied Energy.
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49. Mathematical modeling of convective drying: Lumped temperature and spatially distributed moisture in slab. (2011). Esfahani, J. A. ; Barati, E..
    In: Energy.
    RePEc:eee:energy:v:36:y:2011:i:4:p:2294-2301.

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50. Comparison of energy consumption and specific energy requirements of different methods for drying mushroom slices. (2011). Minaei, Saeid ; Khoshtaghaza, Mohammad Hadi ; Amirnejat, Hamed ; Motevali, Ali.
    In: Energy.
    RePEc:eee:energy:v:36:y:2011:i:11:p:6433-6441.

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51. Thermodynamic analysis of fluidized bed drying of carrot cubes. (2010). Nazghelichi, Tayyeb ; Aghbashlo, Mortaza ; Kianmehr, Mohammad Hossein.
    In: Energy.
    RePEc:eee:energy:v:35:y:2010:i:12:p:4679-4684.

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