• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 441
  • 312
  • 61
  • 44
  • 41
  • 30
  • 18
  • 13
  • 11
  • 11
  • 11
  • 11
  • 11
  • 11
  • 8
  • Tagged with
  • 1243
  • 1243
  • 310
  • 265
  • 173
  • 171
  • 151
  • 140
  • 118
  • 102
  • 91
  • 89
  • 81
  • 80
  • 80
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
141

The semiconductor-electrolyte system for solar energy conversion /

Chai, Young Gui January 1976 (has links)
No description available.
142

A Solar Cooling System Model Formulation Using TRNSYS

Daniel, David E. 01 January 1977 (has links) (PDF)
An absorption principal cooling system, currently proposed for installation and evaluation at the Florida Solar Energy Center (FSEC), is described as a system and modeled through use of "A Transient Simulation Program (TRNSYS)" developed by the University of Wisconsin. The system model included the FSEC building with its heat gains and losses due to insolation and conduction. System element and cooling load parameters are estimated and the basis of estimation is included to help identify adjustments required to fit the model to the final system installation as new or more complete data becomes available. Deficiencies noted in the current TRNSYS system are identified as potential improvement areas. An empirical model of the 25-Tom Arkla Absorption Water Chiller proposed for the FSEC system is developed front he factory performance test data and implemented through use of TRNSYS algebraic function modules. A simplified block diagram of the FSEC cooling system is described and the basic TRNSYS modules required to model the system are also indicated in block diagram form. The individual modules with parameter designations and values, input designations and initial values, and output designations are each included. Finally, the model listing and simulation output data for a seven day period, utilizing actual solar insolation and ambient temperature data, are provided to demonstrate the model and reasonableness of results. Validation of the baseline model requires careful insertion of actual system parameters, after final system installation, and comparison of system test results against model results obtained using the test period insolation and temperature data.
143

A Status Report on Solar Energy Utilization in the State of Florida

Armstrong, Henry Michael 01 January 1975 (has links) (PDF)
The current energy crisis has pointed out the need for alternative, non-depletable sources of power. Solar energy would appear to be a likely source of such power for the state of Florida where the average home receives enough of this energy to supply all of its heating and cooling needs during the course of the year. Energy consumption profiles for Florida reveal that almost one-quarter of all energy is consumed within the residential-commercial section for basic heating and cooling. Additionally, the state is, essentially, totally dependent on petroleum and natural gas for its energy supply. Solar energy has been used in many application for hundreds of years, but its proliferation has been prevented by the cheapness and availability of other fuels. This, in turn, has hindered the expansion of solar technology. As a result, there are economic and sociologic problems to be overcome. In an attempt to solve these problems, a comprehensive program of basic research is being funded by the national government. The early studies made by outside researchers and the initial reports issued by the government reveal that solar systems are both economically and technically feasible. However, in Florida, the system must be used for both heating and cooling for it to be economical. Florida is an ideal area for the use of solar energy because of its climate. But, a simple calculation of solar potential shows that it will be at least 40 years before this energy can make a meaningful impact if restricted to basic heating and cooling using existing thermal technology. It is concluded that significant strides in the use of solar power will occur only when it can be converted to electricity. Recommendations are made which could help solve the energy crisis both locally and nationally.
144

Computer Aided Analysis of Flat Plate Solar Collectors

Hartman, Thomas L. 01 January 1975 (has links) (PDF)
A computer model of a flat plate solar collector has been devised. The model is able to simulate most common types of collectors, with up to three transparent covers of any material. Using primarily equations available from the literature the model calculates the transmission through the cover plates, the heat losses, and the useful heat gain. Derivation of all equations used are presented. A new method is presented for calculation of the mean plate temperature which differs from that commonly used in the literature. Experimental evidence is presented indicating that when transient effects are negligible the model is able to predict collector performance within 10%. The conclusion is drawn that when transient effects are small, the computer model is a useful tool for predicting collector performance. A detailed flow chart of the model, and a source listing of the computer model are included in the appendices.
145

Application of Solar Energy to the Solvent Reclamation Industry

Litka, Arthur H. 01 January 1976 (has links) (PDF)
An analysis of an operational industrial acetone reclamation system is performed to ascertain the possibility of its adaptation of solar thermal energy augmentation using fixed orientation, flat plate solar collectors. Currently, the system utilizes and oil fired heater for the thermal input. The water is heated to 185°F (85°C) and circulated through a heat exchanger which is immersed within the contaminated acetone solution. The solvent is thereby vaporized, condensed, and drawn off for reuse. Analytical models of two possible configurations utilizing a series of commercially available, flat plate solar collectors, a hot water storage tank, and an oil fired auxiliary are developed. The resulting differential equation is written in finite difference form and integrated with an iterative numerical algorithm. Program listings are included for the solution of this problem on a Texas Instruments, SR-56 programmable calculator. Results of the analysis indicate that annual fuel savings of between 11 and 31 percent can be realized (compared to present non-solar operation) by the use of 6 to 16 collectors respectively. Based on an "ideal" day's performance, an economic analysis is given which recommends the use of 16 collectors for the present system. At current fuel, equipment, and fuel cost increase rates, the rate of return attained from the system retro-fit investment is commensurate with that available under a low risk savings investment. Therefore, an economic justification for conversion of the system to solar energy is marginal under the present conditions. A sensitivity analysis is included that indicates the conditions necessary for economic justification. Specifically, if the current collector cost was reduced by 65 percent, the solar system configuration would yield an acceptable rate of return on the investment.
146

Comparison of Large Scale Renewable Energy Projects for the United States Air Force

Hughes, Jeffrey S. 16 October 2012 (has links)
This thesis focused on the performance of large-scale renewable energy projects for the United States Air Force. As global energy demands continue to rise, the need to find ways to save energy and produce alternative sources of energy will increase. The Federal Government has begun to address the challenge of energy production and energy security in recent years. In order to increase both the energy production and energy security for the Air Force, there is a trend to increase the amount of renewable energy produced on military installations. The goal of this research was to compare the estimated and actual performance of these large-scale on-site renewable energy projects at Air Force installations. The variables considered for this research were the execution methods and the renewable energy sources. The performance of each project was evaluated against factors identified in previous sustainable construction studies. The study found that actual performance of third party owned and operated projects differed from the expected performance by less than the Air Force owned and operated projects, and that performance of renewable energy projects differed from the expected performance by less than high performance buildings from previous studies. The study also found factors that contributed to the gap between the expected and actual performance including optimistic modeling, unusual weather, operational issues and higher than expected maintenance of the projects. The results of this research were an initial step in understanding the actual performance of large-scale renewable energy projects. / Master of Science
147

A GIS analysis on possible photovoltaic cell use for energy reduction during peak hours in Huntington, West Virginia

Tadlock, James Eric. January 2009 (has links)
Thesis (M.S.)--Marshall University, 2009. / Title from document title page. Includes abstract. Document formatted into pages: contains vi, 43 p. Includes bibliographical references p. 41-43.
148

Spectral composition of solar radiation and its penetration in crop canopies

Szeicz, Geza January 1970 (has links)
No description available.
149

Design and performance of line-axis concentrating solar-energy collectors

Prapas, D. E. January 1987 (has links)
No description available.
150

Salt gradient solar ponds and desalination with particular reference to the absorbtion of solar radiation in salt solutions, and application in Saudi Arabia

Afeef, M. January 1985 (has links)
No description available.

Page generated in 0.0553 seconds