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Solar power storage systems

Solar Power With improved technology and production methods considerable use is being made of solar power in remote locations. The output of photovoltaic arrays is used to maintain conventional storage batteries in a state of charge. The cathodic protection system is in turn energised from the batteries. It is usual to incorporate sufficient battery storage to accommodate a number of no-sun days. Whilst in theory the capacity of equipment is unlimited, a practical maximum would be ca. SOO W. [Pg.225]

Conibeer GJ, Richards BS (2007) A comparison of hydrogen storage technologies for solar-powered stand-alone power supplies A photovoltaic system sizing approach. Int J Hydrogen Energy (in press)... [Pg.509]

Solar power-electrolysis-storage-fuel cell system (SPESFCS)... [Pg.195]

In the case of solar powered systems, decoupling of heat source and chemical plant facilitates the compensation of fluctuating and intermittent available power input. This is particularly important if units of the chemical system require steady-state conditions over long periods. Beyond that decoupled systems allow for an easier integration of thermal and chemical storage units to compensate daily or seasonal variation of solar supply. The same applies for hybrid operation, i.e. the combination with burner firing or with a nuclear heat source. [Pg.310]

Design and installation of a 350-kW demonstration plant in the Solar Village near Riyadh. This consisted of a concentrating photovoltaic power system, an advanced electrolyser system, a grid-operated rectifier and the necessaiy gas handling and storage system. [Pg.83]

Figure 1.1.17 The solar refinery as the conceptual contribution of chemistry by chemical energy conversion to the sustainable use of renewable energy. The upstream part (hydrogen generation) and the downstream parts need not to be colocalized in a practical realization. CSP stands for concentrated solar power. Green boxes indicate solar fuel products blue boxes stand for intermediate platform chemicals. The red arrows indicate flows of solar hydrogen to a storage and transport system for large-scale applications. The blue arrows show the major application lines for chemical production of solar fuels. The scheme also indicates the role of fertilizers from ammonia required in sustained use of biomass for energetic applications. Figure 1.1.17 The solar refinery as the conceptual contribution of chemistry by chemical energy conversion to the sustainable use of renewable energy. The upstream part (hydrogen generation) and the downstream parts need not to be colocalized in a practical realization. CSP stands for concentrated solar power. Green boxes indicate solar fuel products blue boxes stand for intermediate platform chemicals. The red arrows indicate flows of solar hydrogen to a storage and transport system for large-scale applications. The blue arrows show the major application lines for chemical production of solar fuels. The scheme also indicates the role of fertilizers from ammonia required in sustained use of biomass for energetic applications.
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See also in sourсe #XX -- [ Pg.102 ]



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