Design of Solar Water Heater System

Open Access

Year : 2023 | Volume :9 | Issue : 1 | Page : 17-25
By

Rachit Srivastava

Anurag Dwivedi

Akash Rawat

Arun Kumar Yadav

  1. Assistant Professor Department of Electrical Engineering, Bansal Institute of Engineering &Technology, Lucknow Uttar Pradesh India
  2. Assistant Professor Department of Electrical Engineering, Bansal Institute of Engineering &Technology, Lucknow Uttar Pradesh India
  3. Student Department of Electrical Engineering, Bansal Institute of Engineering &Technology, Lucknow Uttar Pradesh India
  4. Associate Professor Department of Electrical Engineering, Bansal Institute of Engineering &Technology, Lucknow Uttar Pradesh India

Abstract

In this research paper studied about solar water heater with their construction and applications. If we see today’s scenario, the hot water uses increase day by day in industries, domestic and commercial purposes. In the current era, we are using various resources like coal, petroleum products, electrical energy etc for heating the water. These resources too expensive for heat the water. Solar power is the best resource for replacing the conventional resources for water heating purpose. In solar water heater system, solar energy is used to heat up the water. For this purpose, we required large amount of solar energy, this we achieve by using solar collector. A solar collector is a device that converts solar radiation into heat. For the storage of warm water an insulated tank is also required. In this research paper we also see about construction and components we use and literature review on solar water heater is also presented.

Keywords: Solar Energy, Solar collector, Active solar water heater, Passive Solar water heater, Thermo Siphon.

[This article belongs to Trends in Machine design(tmd)]

How to cite this article: Rachit Srivastava, Anurag Dwivedi, Akash Rawat, Arun Kumar Yadav. Design of Solar Water Heater System. Trends in Machine design. 2023; 9(1):17-25.
How to cite this URL: Rachit Srivastava, Anurag Dwivedi, Akash Rawat, Arun Kumar Yadav. Design of Solar Water Heater System. Trends in Machine design. 2023; 9(1):17-25. Available from: https://journals.stmjournals.com/tmd/article=2023/view=91718

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References

1. Bennet T. (2007). “Solar thermal water heating, a simplified modelling approach”.
2. Ken Butti, John Perlin (1980) “A Golden Thread,” Van No strand Reinhold Company.
3. Roger Taylor (2006). “Solar thermal technology and applications”, NREL, pp 7.
4. Solar Energy to generate Clean Power. (2014).http://alaidaroos-solar.com/en/?p=49
5. How to Identify an Appropriate and “Good Solar Water Heater System” for Your Home (September, 2020). GharPedia. https://gharpedia.com/blog/how-to-identify-good-solar-water-hea ter-system-for-home/
6. Soteris A. Kalogirou (2004). “Solar thermal collectors and applications”, Progress in Energy and Combustion Science 30, pp 231–295.
7. AKTAẞ, M. (2006). OlhanCEYLAN, Hikmet DOĞAN―The Thermal Effectiveness Compression Of The Classical And Finned Solar System Ist BilimiveTekniğiDergisi, 26, 2, 29–33, 2006. J. of Thermal Science and Technology.
8. Sadrin, S., Hossain, M., & Mohith, E. (2009). Alternative solar water heater for domestic purpose (Doctoral dissertation, BRAC University).
9. Prasad, P.R., Byregowda, H.V., & Gangavati, P.B. (2010). Experiment analysis of flat plate collector and comparison of performance with tracking collector. European Journal of Scientific Research, 40 (1), 144–155.
10. Martín, R.H., Pinar, G.A., & García, J.P. (2011, November). Experimental heat transfer research in enhanced flat-plate solar collectors. In World Renewable Energy Congress-Sweden; 8–13 May; 2011; Linköping; Sweden (No. 057, pp. 3844–3851). Linköping University Electronic Press.
11. K. Sivakumar, N. Krishna Mohan and B. Sivaraman (2005) “Performance analysis of elliptical heat pipe solar collector” Indian Journal of Science and Technology
12. Hawwash, A.A., Rahman, A.K.A., Nada, S.A., & Ookawara, S. (2018). Numerical investigation and experimental verification of performance enhancement of flat plate solar collector using nanofluids. Applied Thermal Engineering, 130, 363-374.
13. O’Keeffe, G.J. (2018). Mathematical modelling of nanofluid-based direct absorption solar collectors.
14. Emetere, M.E., Emetere, J.M., &Ometan, O.O. (2019, December). A short review on solar concentrator for energy generation in tropical coastal belt. In Journal of Physics: Conference Series (Vol. 1378, No. 4, p. 042027). IOP Publishing.
15. Amoabeng, K.O. (2012). Assessing the Feasibility of a Solar Water Heating System Based on Performance and Economic Analysis. Kwame Nkrumah University of Science and Technology: Kumasi, Ghana.
16. Oye, T.K., Gupta, N., Goh, K., & Oye, T.T. (2020). A Smart and Sustainable Concept for Achieving a Highly Efficient Residential Bathroom: A Literature Review. International Journal of Innovative Science and Research Technology., 5 (3).
17. Teshale, L. (2020). Assessing the Feasibility of A Solar Water Heating System for Two Hotels in Dangila (Doctoral dissertation).
18. Zirnhelt, H. (2008). Energy and Climate Change at the University of British Columbia: Background Report.
19. Wang, Y., & Zhao, L. (2006). Economic Analysis of Solar Water Heaters in GuangZhou.
20. Yasin, A. (2017). Technical and Financial Assessment of Glazed and Evacuated Tubes Solar Collectors for Domestic Water Heating Application in Palestine.
21. Shahdadi, N. (2020). Analysis of acceptance of solar energy utilization in rural areas in order to achieve sustainable development (Case Study: Villages of Hamoun Township) (Doctoral dissertation, University of Zabol).
22. Yasin, A.M., Al Sayed, M., Yasin, B., & Arafat, H. (2011). Evaluation of Energy and CO2 Savings of An Institutional Collective Solar Water Heating System in Palestine.


Regular Issue Open Access Article
Volume 9
Issue 1
Received May 31, 2022
Accepted June 6, 2022
Published January 6, 2023