Title :
Hot water system based on the hybrid solar collector photovoltaic/thermal PVT
Author :
Khelifa, A. ; Touafek, K. ; Benmoussa, H. ; Tabet, I. ; Adouane, M.
Author_Institution :
Unit of Appl. Res. in Renewable Energy URAER, Centre for Renewable Energy Dev., Ghardaïa, Algeria
Abstract :
There are some elements that are the basis of most solar heating of water: the sensor (s), storage tank, heat transfer medium and interconnecting tubes. The hybrid solar collector PVT captures sunlight and converts it into heat which is transferred to the storage tank by means of a fluid such as water or air. An expansion vessel is used in closed to accommodate slight variations in volume that occur when the fluid is heated and expands, a heat exchanger is required to transfer heat from the manifold with water to exit the system faucet. In this section we will study and will present the energy behavior of a hybrid photovoltaic thermal solar PVT in a complete energy system (Enforceability of heating water for habitat in southern Algeria) and is very important right now especially in the Sahara and semi arid (Ghardaia).
Keywords :
heat exchangers; hybrid power systems; photovoltaic power systems; solar absorber-convertors; solar heating; Ghardaia; Sahara; expansion vessel; heat exchanger; heat transfer medium; hot water system; hybrid photovoltaic thermal solar PVT; hybrid solar collector; interconnecting tubes; solar heating; southern Algeria; storage tank; system faucet; Fluids; Heat transfer; Photovoltaic systems; Solar energy; Solar heating; Water heating; Collector; Solar Hybrid; Solar water Heater; Thermal;
Conference_Titel :
Sciences and Techniques of Automatic Control and Computer Engineering (STA), 2014 15th International Conference on
DOI :
10.1109/STA.2014.7086668
