Experimental Investigation of a Small Passive Solar System
The present study deals with the thermal energy analysis of a passive solar heating system, which contains a massive wall (Trombe wall) of concrete with the dimensions of 0.9 m (width)×1.4 m (height)×0.1 m (thickness) inside a test room in south direction, covered with a single and clear 6 mm thick glass; the external dimensions of the test room have been 1.5 m (length)×1.0 m (width)×1.5 m (height). Experiments on the thermal system have been executed using six widths of air gap, which varied between 10, 15, 20, 25, 30, and 35 cm in January 2017. The passive solar system has been built according to the full dimensions in Iraq at the Kirkuk Technical College, located at E44°50’ and N34°45’. Experiments have been carried out for six different depths of the air channel in actual weather conditions. Ventilation energy has been calculated by using the airflow rate equation. For each test, the energy has been calculated according to the weather for one day, with the hottest weather conditions. The results have been compared to choose the best case for this test room.
Copyright © 2019 Praise Worthy Prize - All rights reserved.
J. A. Duffie and W. A. Beckman, Solar engineering of thermal processes, 4th edition, John Wiley & Sons, Inc., Hoboken, New Jersey, 2013.
R. J. Williams, Passive Solar Heating: Ahn Arbor Science 1983.
T. G. Özbalta and S. Kartal, Heat gain through Trombe wall using solar energy in a cold region of Turkey, Scientific Research and Essays, vol. 5, pp. 2768-2778, 2010.
H. Onbasioglu and A. N. Egrican, Experimental approach to the thermal response of passive systems, Energy Conversion and Management, vol. 43, pp. 2053-2065, 2002.
B. Chen, J. Zhao, C. Chen, and Z. Zhuang, Experimental investigation of natural convection in Trombe wall systems, Envelope Technologies for building energy efficiency vol. II, p. 5, 2006.
S. Burek and A. Habeb, Airflow and thermal efficiency characteristics in solar chimneys and Trombe Walls, Energy and Buildings, vol. 39, pp. 128-135, 2007.
P. Okpani, Investigation of the Effect of the Thermal Wall Thickness on its Back Surface Temperature for a Poultry Brooding Pen Heated by Trombe Wall, Journal of Energy Technologies and Policy, Vol.3, No.13 2013.
A. N. Alzaed, Experimental investigation on the performance of a trombe wall passive solar technique for buildings cooling in arid regions, International Journal of Innovative Research in Science, Engineering and Technology, vol. 5, p. 8, 2016.
N. Dimassi and L. Dehmani, Natural Convection of a Solar Wall in a Test Room under Tunisian Climate, ISRN Renewable Energy, 2012.
S. Shtrakov and A. Stoilov, New approach for finite difference method for thermal analysis of passive solar systems, arXiv preprint cs/0502059, 2005..
J. P. Holman, Heat Transfer, 10 ed. New York The McGraw Hill Companies 2010.
N. Dimassi and L. Dehmani, Thermal efficiency of a solar wall in Tunisia, ISRN Renewable Energy, vol. 2012, 2012.
Echchikhi, A., Gueraoui, K., El Rhaleb, H., Mathematical and Numerical Modeling of Desalination of Seawater, (2017) International Review of Civil Engineering (IRECE), 8 (2), pp. 57-63.
Azarov, V., Evtushenko, A., Batmanov, V., Strelyaeva, A., Lupinogin, V., Aerodynamic Characteristics of Dust in the Emissions Into the Atmosphere and Working Zone of Construction Enterprises, (2016) International Review of Civil Engineering (IRECE), 7 (5), pp. 132-136.
Németh, H., Švec, M., Kandráč, P., The Influence of Global Climate Change on the European Aviation, (2018) International Journal on Engineering Applications (IREA), 6 (6), pp. 179-186.
Zobaa, A., Mendis, M., Pisica, I., Abdel Aleem, S., Performance of Grid-Connected Solar Photovoltaic Systems with Single-Tuned and Double-Tuned Harmonic Passive Filters, (2016) International Journal on Energy Conversion (IRECON), 4 (4), pp. 89-96.
Gawali, S., Kardile, A., Kabra, T., Sangale, P., Green Free Electrical Energy from Living Plants, (2017) International Review of Mechanical Engineering (IREME), 11 (10), pp. 758-762.
- » —
Please send any question about this web site to firstname.lastname@example.org
Copyright © 2005-2021 Praise Worthy Prize