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SOLAR ENERGY APPLICATION

Bahnemann D (2004) Photocatalytic water treatment solar energy applications. Sol Energy 77 445-459... [Pg.303]

Dincer, I., and S. Dost, 1996. A perspective on thermal energy storage systems for solar energy applications, Int. J. Energy Res., 20, 547-557. [Pg.45]

Regarding the question of the rate of electron transport through polymer films, it is not yet clear what ultimate rate can be achieved. In solar energy applications the important issue is whether the rate can be high enough so that the net electron transfer rate is light intensity limited. [Pg.91]

A review on highly ordered, vertically oriented Ti02 nanotube arrays fabrication, material properties, and solar energy applications. Solar Energy Materials Solar Cells 90 2011-2075... [Pg.362]

Modelling of solar radiation components (diffuse and direct) in clear sky conditions is necessary in many solar energy applications (systems design and simulation, radiometers accuracy control procedures, quality control of data, recovering of observational missing data, etc) as well as in routine procedures in engineering. [Pg.155]

Armenia has sufficient solar resources for development of solar energy. Particularly in Yerevan one square meter of land receives about 1,700 kWh of sun power annually, which is 70% more that in Europe, where weighable shifts for solar energy applications are going on. Installation of solar energy systems in American University of Armenia in is a successful case of solar energy application in former Soviet Union. [Pg.220]

Blasse G, de Korte PHM, Mackor A. The colouration of titanates by transition metal ions in view of solar energy applications../ Inorg Nncl Chem 1981 43 1499-503. [Pg.105]

C. A. Gueymard, The sun s total and spectral irradiance for solar energy applications and solar radiation models, Solar Energy,. 76(4) 423 (2004). [Pg.40]

The Colouration of Titanates by Transition Metal Ions in View of Solar Energy Applications. 395... [Pg.194]

In solar energy applications, the spectral distribution of incident solar radiation is very different than the spectral distribution of emitted radiation by the... [Pg.705]

In 1955, Farrington Daniels, professor of chemistry at the University of Wisconsin from 1920 to 1959 and a pioneer in solar energy applications, stated (Daniels and Duffie, 1955) ... [Pg.10]

For a gray surface 6i = ai = Ex- A selective surface is one for which ex(T,X) exhibits a strong dependence on wavelength. If the wavelength dependence is monotonic, it follows from Eqs. (5-107) to (5-10 that 6i and ai can differ markedly when 7 and Tj are widely separated. For example, in solar energy applications, the nominal temperature of the earth is Ti = 294 K, and the sun may be represented as a blackbody with radiation temperature T2 = 5800 K. For these temperature conditions, a white paint can exhibit Ei = 0.9 and tti 2 = 0.1 to 0.2. In contrast, a thin layer of copper oxide on bright aluminum can exhibit 6i as low as 0.12 and tti 2 greater than 0.9. [Pg.705]

Antimony(V) oxide has been used in solar energy applications and can be prepared from SbCls and water by a CVD spraying method [83]. [Pg.376]

Past research and development efforts have resulted in grouping saline water conversion processes as follows distillation, including solar energy applications ... [Pg.5]

H. J. Hovel, Photovoltaic materials and devices for terrestrial solar energy applications, Solar Energy Mater. 2 (1980) 277-312. [Pg.102]

In solar energy applications, the ratio of the exergy of solar radiation to the total energy flux at the highest layer of the earth s atmosphere is 0.933 (Szargut, Morris, and Steward, 1988). [Pg.250]

Mor, C.K., Varghese, O.K., Paulose, M., Shankar, K., Crimes, C.A. A review on highly ordered, vertically oriented Ti02 nanotnbe arrays fabrication, materials properties, and solar energy applications. Solar Energ. Mater. Solar Cells 90, 2011-2075 (2006)... [Pg.313]

Power cycle applications Biomass and coal gasification Solar energy applications Refrigeration Waste heat utilization Distillation column systems Heat and fluid flow in channels and microchannels... [Pg.209]

Composite materials/fabrication techniques for solar energy applications... [Pg.394]

Wallner, G.M., Weigl, C., Leitgeb, R., Lang, R.W., September 2004. Pol3mier films for solar energy applications — thermoanalytical and mechanical characterisation of ageing behaviour. Polymer Degradation and Stability 85 (3), 1065—1070. [Pg.496]

Strong absorption band, ranging from visible to near-infrared light. Efficient pumping by flash-lamps, in the case of laser applications, or solar radiation, in the case of solar-energy applications, must be possible. [Pg.258]

See other pages where SOLAR ENERGY APPLICATION is mentioned: [Pg.65]    [Pg.325]    [Pg.1288]    [Pg.220]    [Pg.25]    [Pg.122]    [Pg.19]    [Pg.19]    [Pg.186]    [Pg.705]    [Pg.475]    [Pg.116]    [Pg.371]    [Pg.5]    [Pg.715]    [Pg.326]    [Pg.115]    [Pg.4]    [Pg.36]    [Pg.265]    [Pg.4]    [Pg.333]    [Pg.1475]    [Pg.74]   
See also in sourсe #XX -- [ Pg.1060 , Pg.1061 ]

See also in sourсe #XX -- [ Pg.155 ]



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