Add to ORKGThe overall efficiency of a parabolic trough collector is a function of both the fraction of direct normal radiation absorbed by the receiver (the optical efficiency) and the heat lost to the environment when the receiver is at operating temperature. The overall efficiency can be determined by testing the collector under actual operating conditions or by separately measuring these two components. This paper describes how outdoor measurement of the optical efficiency is combined with laboratory measurements of receiver heat loss to obtain an overall efficiency curve. Further, it presents a new way to plot efficiency that is more robust over a range of receiver operating temperatures
A multitude of the researches focus on the factors of the thermal efficiency of a parabolic trough s...
Parabolic trough collectors represent one of the current most popular technology among concentrating...
AbstractSkyFuel has empirically established the thermal efficiency of the SkyTrough® DSP: an advance...
Modern parabolic trough solar collectors operated at high temperatures to provide the heat input to ...
AbstractIn this paper we present experimental investigations on a parabolic trough collector for pro...
Knowledge of the parabolic-trough collector (PTC) solar receiver performance is essential in solar t...
The heat loss of a receiver in a parabolic trough collector plays an important role in collector per...
Two new test benches have been developed for the combined measurement of the thermal properties and ...
Solar energy utilization is a promising Renewable Energy source for covering a variety of energy nee...
Efficiency and thermal loss of a parabolic trough concentrating solar collector have been measured f...
The performance of a parabolic trough receiver can be described by two parameters, the specific heat...
This report contains outdoor test methods for measuring the peak optical efficiency, incident angle ...
A round robin for parabolic trough receiver heat loss and optical efficiency in the laboratory was p...
A round robin for parabolic trough receiver heat loss and optical efficiency in the laboratory was p...
The aim of current study, is looking for a new way to increase the efficiency of the solar collector...
A multitude of the researches focus on the factors of the thermal efficiency of a parabolic trough s...
Parabolic trough collectors represent one of the current most popular technology among concentrating...
AbstractSkyFuel has empirically established the thermal efficiency of the SkyTrough® DSP: an advance...
Modern parabolic trough solar collectors operated at high temperatures to provide the heat input to ...
AbstractIn this paper we present experimental investigations on a parabolic trough collector for pro...
Knowledge of the parabolic-trough collector (PTC) solar receiver performance is essential in solar t...
The heat loss of a receiver in a parabolic trough collector plays an important role in collector per...
Two new test benches have been developed for the combined measurement of the thermal properties and ...
Solar energy utilization is a promising Renewable Energy source for covering a variety of energy nee...
Efficiency and thermal loss of a parabolic trough concentrating solar collector have been measured f...
The performance of a parabolic trough receiver can be described by two parameters, the specific heat...
This report contains outdoor test methods for measuring the peak optical efficiency, incident angle ...
A round robin for parabolic trough receiver heat loss and optical efficiency in the laboratory was p...
A round robin for parabolic trough receiver heat loss and optical efficiency in the laboratory was p...
The aim of current study, is looking for a new way to increase the efficiency of the solar collector...
A multitude of the researches focus on the factors of the thermal efficiency of a parabolic trough s...
Parabolic trough collectors represent one of the current most popular technology among concentrating...
AbstractSkyFuel has empirically established the thermal efficiency of the SkyTrough® DSP: an advance...