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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 44, 2022 - Issue 4
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Research Article

Performance analysis of heating and humidification system with solar assisted CaCl2 desiccant wheel rotor

Amarjeet Kumar Prasada Department of Mechanical Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, India
,
Dhirendra Kumar Singha Department of Mechanical Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, India
&
Ravi Shankarb Department of Chemical Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-6476-1509
ORCID Icon
Pages 9086-9102 | Received 14 Apr 2022, Accepted 16 Sep 2022, Published online: 29 Sep 2022

References

  • Abdelgaied, M., A. E. Kabeel, and Y. Zakaria. 2019. Performance improvement of desiccant air conditioner coupled with humidification-dehumidification desalination unit using solar reheating of regeneration air. Energy Conversion and Management 198:111808.
  • Akpinar, E. K. 2010. Drying of mint leaves in a solar dryer and under open sun: Modelling, performance analyses. Energy Conversion and Management 51 (12):2407–18.
  • Al-Risheq, D. I., M. S. Nasser, H. Qiblawey, I. A. Hussein, and A. Benamor. 2021. Choline chloride based natural deep eutectic solvent for destabilization and separation of stable colloidal dispersions. Separation and Purification Technology 255:117737.
  • Angrisani, G., C. Roselli, and M. Sasso. 2013. Effect of rotational speed on the performances of a desiccant wheel. Applied Energy 104:268–75.
  • ASHRAE. 2017. ASHRAE handbook fundamentals 2017: Inch-pound edition. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers.
  • Asim, N., M. H. Amin, M. A. Alghoul, M. Badiei, M. Mohammad, S. S. Gasaymeh, N. Amin, and K. Sopian. 2019. Key factors of desiccant-based cooling systems: Materials. Applied Thermal Engineering 159:113946.
  • Benitez, J. 2016. Principles and modern applications of mass transfer operations. New Jersey, Canada: John Wiley & Sons.
  • Chaudhary, G. Q., M. Ali, N. A. Sheikh, and S. Khushnood. 2018. Integration of solar assisted solid desiccant cooling system with efficient evaporative cooling technique for separate load handling. Applied Thermal Engineering 140:696–706.
  • Deng, J., R. Z. Wang, and G. Y. Han. 2011. A review of thermally activated cooling technologies for combined cooling, heating and power systems. Progress in Energy and Combustion Science 37 (2):172–203.
  • El-Agouz, S. A., and R. Sathyamurthy. 2018. Improvement of humidification–dehumidification desalination unit using a desiccant wheel. Chemical Engineering Research & Design 131:104–16.
  • Elzahzby, A. M., A. E. Kabeel, M. M. Bassuoni, and M. Abdelgaied. 2014. A mathematical model for predicting the performance of the solar energy assisted hybrid air conditioning system, with one-rotor six-stage rotary desiccant cooling system. Energy Conversion and Management 77:129–42.
  • Enteria, N., H. Yoshino, and A. Mochida. 2013. Review of the advances in open-cycle adsorption air-conditioning systems. Renewable and Sustainable Energy Reviews 28:265–89.
  • Enteria, N., H. Yoshino, A. Mochida, R. Takaki, A. Satake, R. Yoshie, A. Mitamura, and S. Baba. 2009. Construction and initial operation of the combined solar thermal and electric desiccant cooling system. Solar Energy 83 (8):1300–11.
  • Gaeini, M., A. L. Rouws, J. W. O. Salari, H. A. Zondag, and C. C. M. Rindt. 2018. Characterization of microencapsulated and impregnated porous host materials based on calcium chloride for thermochemical energy storage. Applied Energy 212:1165–77.
  • Guidara, Z., M. Elleuch, and H. B. Bacha. 2013. New solid desiccant solar air conditioning unit in Tunisia: Design and simulation study. Applied Thermal Engineering 58 (1–2):656–63.
  • Hassan, A. A. M., and M. S. Hassan. 2008. Dehumidification of air with a newly suggested liquid desiccant. Renewable Energy 33 (9):1989–97.
  • Hiremath, C. R., R. Kadoli, and V. V. Katti. 2018. Experimental and theoretical study on dehumidification potential of clay-additives based CaCl2 composite desiccants. Applied Thermal Engineering 129:70–83.
  • Holdstock, P. 2022. A review of electrostatic standards. Journal of Electrostatics 115:103652.
  • Holman, J. P. 2020. Heat transfer. London: McGraw-Hill.
  • Joudi, K. A., and N. S. Dhaidan. 2001. Application of solar assisted heating and desiccant cooling systems for a domestic building. Energy Conversion and Management 42 (8):995–1022.
  • Kandilli, C., and K. Ulgen. 2009. Review and modelling the systems of transmission concentrated solar energy via optical fibres. Renewable and Sustainable Energy Reviews 13 (1):67–84.
  • Kashif, A., M. Ali, N. A. Sheikh, V. Vukovic, and M. Shehryar. 2020. Experimental analysis of a solar assisted desiccant-based space heating and humidification system for cold and dry climates. Applied Thermal Engineering 175:115371.
  • Kern, D. Q. 1997. Process heat transfer. New Delhi, India: Tata McGraw-Hill Education.
  • Kimura, H., and J. Kai. 1984. Phase change stability of CaCl2· 6H2O. Solar Energy 33 (6):557–63.
  • Li, H., Y. J. Dai, M. Köhler, and R. Z. Wang. 2013. Simulation and parameter analysis of a two-stage desiccant cooing/heating system driven by solar air collectors. Energy Conversion and Management 67:309–17.
  • Li, H., Y. J. Dai, Y. Li, D. La, and R. Z. Wang. 2012. Case study of a two-stage rotary desiccant cooling/heating system driven by evacuated glass tube solar air collectors. Energy and Buildings 47:107–12.
  • Lyu, D., F. Sun, and Y. Zhao. 2017. Impact mechanism of different fill layout patterns on the cooling performance of the wet cooling tower with water collecting devices. Applied Thermal Engineering 110:1389–400.
  • Mahmood, M. H., M. Sultan, and T. Miyazaki. 2020. Solid desiccant dehumidification-based air-conditioning system for agricultural storage application: Theory and experiments. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 234 (4):534–47.
  • Manoj Kumar, P., K. Mylsamy, K. Alagar, and K. Sudhakar. 2020. Investigations on an evacuated tube solar water heater using hybrid-nano based organic phase change material. International Journal of Green Energy 17 (13):872–83.
  • Nag, P. K. 2019. Sick building syndrome and other building-related illnesses. In Nag, P. K.(editor). Office buildings, 53–103. Singapore: Springer.
  • N’Tsoukpoe, K. E., H. U. Rammelberg, A. F. Lele, K. Korhammer, B. A. Watts, T. Schmidt, and W. K. Ruck. 2015. A review on the use of calcium chloride in applied thermal engineering. Applied Thermal Engineering 75:513–31.
  • Prasad, A. K., L. Yadav, and A. Yadav. 2019. Comparative analysis of different design of rotary dehumidifier. Heat Transfer—Asian Research 48 (6):2193–215.
  • Preisler, A., and M. Brychta. 2012. High potential of full year operation with solar driven desiccant evaporative cooling systems. Energy Procedia 30:668–75.
  • Rachayya, H. C. 2019. Studies on dehumidification potential of clay with additives and impregnated with CaCl2 composite desiccants. Doctoral dissertation, National Institute of Technology Karnataka, Surathkal.
  • Rashidi, M., A. Arabhosseini, H. Samimi-Akhijahani, and A. M. Kermani. 2021. Acceleration the drying process of oleaster (Elaeagnus angustifolia L.) using reflectors and desiccant system in a solar drying system. Renewable Energy 171:526–41.
  • Shallcross, D. 2012. Handbook of psychrometric charts: Humidity diagrams for engineers. Dordrecht, Netherlands: Springer Science & Business Media.
  • Smith, J., P. Harriott, and W. McCabe. 2005. Unit operations of chemical engineering. Colombia: McGraw-Hill Education.
  • Strong, C., Y. Carrier, and F. H. Tezel. 2022. Experimental optimization of operating conditions for an open bulk-scale silica gel/water vapour adsorption energy storage system. Applied Energy 312:118533.
  • Trier, D. 2015. Towards solar district heating with more than 70% solar fraction. Energy Procedia 70:580–86.
  • Tuncer, A. D., A. Sözen, F. Afshari, A. Khanlari, C. Şirin, and A. Gungor. 2020. Testing of a novel convex-type solar absorber drying chamber in dehumidification process of municipal sewage sludge. Journal of Cleaner Production 272:122862.
  • Verma, A. K., A. K. Prasad, L. Yadav, and A. Yadav. 2020. Performance analysis of counter flow cooling tower using reciprocating desiccant mesh. Heat and Mass Transfer 56 (9):2779–99.
  • Wang, J. A., L. R. Hutyra, D. Li, and M. A. Friedl. 2017. Gradients of atmospheric temperature and humidity controlled by local urban land-use intensity in Boston. Journal of Applied Meteorology and Climatology 56 (4):817–31.
  • Wang, W., J. Lyu, H. Zhang, Q. Liu, G. Yue, and W. Ni. 2020. A decoupled method to identify affecting mechanism of crosswind on performance of a natural draft dry cooling tower. Frontiers in Energy 14 (2):318–27.
  • Ye, R., W. Lin, K. Yuan, X. Fang, and Z. Zhang. 2017. Experimental and numerical investigations on the thermal performance of building plane containing CaCl2· 6h2o/expanded graphite composite phase change material. Applied Energy 193:325–35.
  • Yigit, K. S., and H. M. Ertunc. 2006. Prediction of the air temperature and humidity at the outlet of a cooling coil using neural networks. International Communications in Heat and Mass Transfer 33 (7):898–907.
  • Zhang, Y., and X. Zhang. 2020. Thermal properties of a new type of calcium chloride hexahydrate-magnesium chloride hexahydrate/expanded graphite composite phase change material and its application in photovoltaic heat dissipation. Solar Energy 204:683–95.

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