Meteorological effects on thermal performance tests of flat-plate solar collectors.

Harrison, Stephen James,

January 1900

Thesis (M. Eng.)--Carleton University, 1983. / Also available in electronic format on the Internet.

Solar Collectors. Solar Energy

Performance of a parabolic trough solar collector /

Brooks, Michael John.

January 2005

Thesis (MScIng)--University of Stellenbosch, 2005. / Bibliography. Also available via the Internet.

Parabolic troughs. Solar collectors.

Liquid phase epitaxially grown homojunctions in gallium aluminum arsenide for solar cell applications /

Collis, Ward James

January 1978

No description available.

Engineering

Solar collectors

Analysis of a Solar Collector in an Absorption Cycle Including a Pump Operated by Thermoelectric Cells

Chen, Stuart Jee-Fong

01 April 1981

A mathematical computer model has been developed for the prediction of the thermal performance of a flat-plate solar collector used as the generator for an absorption cycle cooling system. The system employs thermoelectric cells to power its pump. The exponential relationship between the auxiliary energy and the collector area is used to optimize the system. It is predicted that the system will become feasible when the fuel price is raised to four times the current value.

Solar collectors

Engineering

A Calorimeter for Solar Collector Testing Facilities

Huggins, James C.

01 January 1982

The reference heat source (RHS) is an electrical calorimeter used with solar collector test facilities. It can be used to calibrate the test facility or to measure the thermal performance of a collector. The RHS described here was designed to be accurate enough to be used as a standard for verification of test facility calibrations. The core of the unit consists of resistance heaters, platinum resistance thermometers, a thermopile, and flow mixers. This core is surrounded by a thermally driven copper shield to control heat loss. The electrical power input to the core is measured with an electronic power transducer. The output of this transducer as well as the temperature sensors is indicated on digital panel meters. All measurements are made independent of the test facility's data acquisition system. The entire unit is mounted on a 0.5 x 1.5 m cart for portability. In operation, liquid from the test facility is circulated through the RHS core. The liquid is heated by passing over the resistance heaters. If the test facility's calibrations are under investigation, the RHS input power and temperatures are compared with those recorded by the test facility. If a collector is under test, the RHS is placed in series with the collector. The power input to the RHS core heaters is adjusted to give a temperature rise through the RHS equal to some fraction (usually one-half to one) of the temperature rise across the collector. Since the same mass flow passes through both the RHS and the collector, the energy gain in the collector is simply the RHS input power multiplied by the ratio of the temperature rises. This RHS was designed for use at temperatures from 0°C to 100°C and liquid flow rates from one to forty liters per minute. The results presented here were obtained using typical flat plate solar collectors. The operational experience obtained in an active test facility is discussed with regard to the achieved accuracy, practical operation, and recommendations for further applications.

Calorimeters

Solar collectors

Engineering

Study of fluid flow in solar collectors

郭浩華, Kwok, Ho-wah.

January 1982

published_or_final_version / Mechanical Engineering / Master / Master of Science in Engineering

Solar collectors.

Fluid dynamic measurements.

Comparison of a covered collector to an uncovered collector for nocturnal sky radiation

Han, Do-Young, 1949-

January 2011

Vita. / Digitized by Kansas Correctional Industries

Heat--Radiation and absorption

Solar collectors

Study of fluid flow in solar collectors /

Kwok, Ho-wah.

January 1982

Thesis--M. Sc., University of Hong Kong, 1982.

Computer simulation and economic evaluation of a solar-thermal driven ejector-operated refrigeration cycle

Wesson, Garlen Dale

08 1900

No description available.

Solar collectors

The Use Of Cell Polyurethane Foams In Air-Type Solar Collectors As The Heat Absorbing Element/

Değirmencioğlu, Can. İlken, Zafer

January 2006

Thesis (Master)--İzmir Institute of Technology, İzmir, 2006. / Keywords: Solar energy, solar collectors, solar energy systems, air heating, polyurethane foam. Includes bibliographical references (leaves.60-62).