Abstract
Abstract: In this study, performance analysis of flat plate solar collector has been carried out analytically.
A comprehensive mathematical modelling of thermal performance is modelled using Response Surface Methodology and optimal geometrical and thermodynamic parameters are predicted pertaining to optimum performance of the system. In this study a model was developed for evaluating and predicting the efficiency, outlet temperature and performance of a flat plate solar collector considering the hour angle, day and input temperature as input parameters.
In the cause of the work it was found that the days and months close to the beginning of the year (January, February, March and April) yielded higher outlet temperature and solar radiation due to dry season, while the months at the middle of the year showed lower outlet temperature and solar radiation due to the rainy season. The months towards the ending of the year also showed higher outlet temperature and solar radiation respectively.
References
- 5.0 REFERENCE [1] Adnan, Q., Badescu, V. and Soriga. I. (2015) Hybrid solar collector for water and air heating: effects of storage tank volume and air channel shape on efficiency U.P.B. Sci. Bull., Series D77 (3) pp 29-40.
- [2] Duffie, J.A. and Beckman, W.A. (2006) Solar Engineering of Thermal Processes, 3rd ed. (Hoboken: John Wiley &Sons).
- [3] Hamed, M., Fellah, A. and Ben B.A. (2014) Parametric sensitivity studies on the performance of a flat plate solar collector in transient behavior Energy Conversion and Management 78 7th International Conference on Advanced Concepts in Mechanical Engineering IOP Publishing IOP Conf. Series: Materials Science and Engineering 147 (2016) 012146 doi:10.1088/1757-899X/147/1/012146 pp 938–947.
- [4] Hottel, H.C. and Woertz, B.B. (2000) Performance of flat plate solar heat collectors Trans. ASME 64 pp 91.
- [5] Paulescu, M., Dughir, C., Tulcan-Paulescu. E., Lascu, M., Gravila, P. and Jurca, T. (2010) Solar Radiation Modeling and Measurements in Timisoara, Romania: Data and Model Quality Environmental Engineering and Management Journal 9(8) pp 1089-1095.
- [6] Stanciu, C. and Stanciu, D. (2014) Optimum tilt angle for flat plate collectors all over the World – A declination dependence formula and comparisons of three solar radiation models Energy Conversion and Management 81 pp 133–143.
Abstract
References
- 5.0 REFERENCE [1] Adnan, Q., Badescu, V. and Soriga. I. (2015) Hybrid solar collector for water and air heating: effects of storage tank volume and air channel shape on efficiency U.P.B. Sci. Bull., Series D77 (3) pp 29-40.
- [2] Duffie, J.A. and Beckman, W.A. (2006) Solar Engineering of Thermal Processes, 3rd ed. (Hoboken: John Wiley &Sons).
- [3] Hamed, M., Fellah, A. and Ben B.A. (2014) Parametric sensitivity studies on the performance of a flat plate solar collector in transient behavior Energy Conversion and Management 78 7th International Conference on Advanced Concepts in Mechanical Engineering IOP Publishing IOP Conf. Series: Materials Science and Engineering 147 (2016) 012146 doi:10.1088/1757-899X/147/1/012146 pp 938–947.
- [4] Hottel, H.C. and Woertz, B.B. (2000) Performance of flat plate solar heat collectors Trans. ASME 64 pp 91.
- [5] Paulescu, M., Dughir, C., Tulcan-Paulescu. E., Lascu, M., Gravila, P. and Jurca, T. (2010) Solar Radiation Modeling and Measurements in Timisoara, Romania: Data and Model Quality Environmental Engineering and Management Journal 9(8) pp 1089-1095.
- [6] Stanciu, C. and Stanciu, D. (2014) Optimum tilt angle for flat plate collectors all over the World – A declination dependence formula and comparisons of three solar radiation models Energy Conversion and Management 81 pp 133–143.
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | November 30, 2020 |
| Acceptance Date | May 11, 2020 |
| Published in Issue | Year 2020 Volume: 2 Issue: 3 |
This work is licensed under a Creative Commons Attribution 4.0 International License