Progress in Systems and Telecommunication Engineering

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Progress in Systems and Telecommunication Engineering

Renewable Model-based Generators for the Low Temperature Printed Circuit Board Heaters

Milena Goranova and Bohos Aprahamian
Technical University of Varna Bulgaria

Abstract: Using a heat-accumulation material, the heating system is tuned with GlauberÃ¢â‚¬â„¢s salt. This process is managed by the renewable type of roof photovoltaic generator. We have advocated a design pattern in the way PV generator and low temperature printed circuit board heater container We have created a link for heaters and generators which permit the use of the source. The space heating system is used to generate a full laboratory design.

Keywords: Heat-accumulation, GlauberÃ¢â‚¬â„¢s Salt, Photovoltaic, PCB Heater, Phase Change Materials - PCMS Renewable Model-based Generators for the Low Temperature Printed Circuit Board Heaters

DOI:

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References:

[1] Bruno, F. Using Phase Change Materials (pcms) for Space Heating and Cooling in Buildings. EcoLibrium 2005 Pages, pp. 26–31.
[2] Chadwick, D.G. & Sherwood, K.H. Design considerations in the use of glauber salt for energy storage (1981). Reports, paper 566.
[3] Dimitrov, B. & Tahrilov, Hr. (2010). Autonomous PV Heating System with Foil Heaters. ICEST: Ohrid, Macedonia, Macedonia pages 891-895.
[4] Dimitrov, B. Hr. Tahrilov Optimal distribution of PV modules according to dynamic optimization methods. ICEST 2010 Conference, Ohrid, Macedonia pages 887-891.
[5] Dimitrov, B. & Valchev, V. Investigation of a Low-Temperature Chamber with Foil Heaters, Powered by Photovoltaic Modules, 5-6 2011, , 8–14.
[6] Sharma A, V. Tyagi b (2009) C Chen, D. Buddhi, Review on thermal energy storage with phase change materials and applications. Renewable and Sustainable Energy Reviews, 13, 318–345.
[7] Rozanna, D., Salmiah, A., Chuah, T.G., Medyan, R. & Thomas Choong, S.Y. (2005) Sa’ari M. A study on thermal characteristics of phase change material (PCM) in gypsum board for building application. Journal of Oil Palm Research, 17, 41–46.
[8] Farid, M., Khudhair, A., Razack, S. & Hallaj, S. (2004) A review on phase change energy storage: Materials and applications. Energy Conversion and Management, 45, 1597–1615.
[9] Fernández, I., Renedo, C.J., Pérez, S., Carcedo, J. & Mañana, M. (2010) Advances in phase change materials for thermal solar power plants Quality. Renewable Energy and Power Quality Journal. International Conference on Renewable Energies and Power Quality, ICREPQ’11, 643–647 [DOI: 10.24084/repqj09.414].
[10] digitalcommons.usu.edu/water_rep/566.

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