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191	none Huang, Se-Jing 24 July 2010 (has links) none Delphi Method Photovoltaic¡]PV¡^ Solar energy
192	Optimal design and integration of solar systems and fossil fuels for process cogeneration Tora, Eman Abdel-Hakim Aly Mohamed 15 May 2009 (has links) Because of the fluctuations in incident solar power, outlet power also changes over time (e.g., on an hourly basis or seasonally). If there is a need for a stable power outlet, there are options towards a steady state output of the system. This work is aimed at the development of systematic design procedures for two solar-based power generation strategies. The first is integration of fossil-fuel with the solar system to provide a compensation effect (power backup to supplement the power main source from solar energy). The second is the use of thermal energy storage (TES) systems to save solar energy in a thermal form and use it when solar input decreases. A common TES configuration is the two-tank system which allows the use of the collector heat transfer fluid (HTF) as a storing medium. For the two tanks, one tank has the hot medium (e.g., a molten salt) and the second has the cold storage media. Specifically, the following design challenges are addressed: 1. What is the optimal mix of energy forms to be supplied to the process? 2. What are the optimal scenario and integration mode to deliver the selected energy forms? How should they be integrated among themselves and with the process? 3. What is the optimal design of the energy systems? 4. What is the optimal dynamic strategy for operating the various energy systems? 5. What is the feasibility of using thermal energy storage to this optimum fossil fuel system? The developed procedure includes gathering and generation of relevant solar and climatic data, modeling of the various components of the solar, fossil, and power generation systems, and optimization of several aspects of the hybrid system. A case study is solved to demonstrate the effectiveness and applicability of the devised procedure. Solar energy process cogeneration energy integration optimization
193	SOLAR ENERGY TECHNOECOSYSTEMS IN ARID LANDS Duffield, Christopher, 1949- January 1978 (has links) No description available. Solar energy -- Research. Arid regions -- Research.
194	Feasibility of introducing solar-powered irrigation on a representative Arizona farm Towle, Charles Lutge, 1942- January 1976 (has links) No description available. Solar energy. Irrigation -- Research -- Arizona. Irrigation -- Arizona.
195	Solar grain drier for small farms in northeastern Brazil Pereira, Omar Jesus January 1978 (has links) No description available. Grain -- Drying. Solar energy. Agriculture -- Brazil.
196	THE DYNAMICS OF A LIQUID PISTON SOLAR POWERED PUMP (COMPUTER MODEL) Fox, Fred Andrew January 1985 (has links) No description available. Solar energy. Irrigation pumps. Reciprocating pumps.
197	Solar PEIS Orientation Talks Stoffle, Richard W. January 2013 (has links) These presentations were designed to provide orientation information for the Solar Energy Programmatic Environmental Impact Statement. Solar Energy Environmental Impact Assessment Ethnography Ethnobotany
198	Microcontroller based data acquisition and control of a solar thermal energy system. Doho, Gonçalves Justino. January 2009 (has links) A solar thermal energy system is being rebuilt at University of KwaZulu-Natal School of Physics. A similar system is also being built in the University Eduardo Mondlane – Maputo Mozambique, in a team development work. The system is composed mainly of the following subsystems: (i) An Energy capture subsystem: paraboloidal dish concentrator with a heat receiver, mounted on a dual axis polar mount sun tracking assembly; (ii) An Energy storage subsystem: rock-bed thermal energy storage (TES) system; (iii) An Energy utilization subsystem: any user heat utilization (like a cooking or water boiling appliance); and (iv) A monitoring and control subsystem. The subsystem (iv) for performing a controlled charging of the Thermal Energy Storage from a hot plate simulated solar heat, was formerly developed and it was based on 2 conventional data loggers (HP/Agilent) and programs running on 2 PCs. The present work is aimed at performing the same plus additional monitoring and control tasks, based on a low cost microcontroller design. The monitoring and control subsystem based on the Atmel ATmega 32 MCU has been designed and built, capable of performing data acquisition, data logging and control of relevant system variables such as, hour and declination angles of the tracking concentrator; to cite some of the main variables. Besides a huge work of designing, building, programming and testing the microcontroller system itself, a special focus was given to the monitoring and control of the solar heat concentrator, to perform a dual axis sun tracking, so as to get as much as possible of the available solar radiation. Measurements of various system parameters such as, the sun tracking actual hour and declination angles, the inlet and outlet temperatures of both the heat receiver and the rock bed heat storage, etc., for the system under consideration have been carried out. / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2009. Microcontrollers. Solar energy. Solar radiation. Theses--Physics.
199	Passive solar housing in the American Southwest Evans, Leslee Cagnion 05 1900 (has links) No description available. Solar energy Passive systems Southwest, New Architecture
200	Total horizontal solar radiation use in determining radiation values on a tilted solar collecting surface Spiegel, Laurence Steven 12 1900 (has links) No description available. Solar energy Solar radiation Solar collectors

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