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Experimental Verification of Optical Modeling of Parabolic Trough Collectors by Flux Measurement (2009)

Schiricke, Björn ; Pitz-Paal, Robert ; Lüpfert, Eckhard ; [et al.]

American Society of Mechanical Engineers

In: Journal of Solar Energy Engineering. 2009; 131(1): Published 2009 Jan 06. doi: 10.1115/1.3027507.

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Publication Date: 2009-01-06

Description: In order to optimize the solar field output of parabolic trough collectors (PTCs), it is essential to study the influence of collector and absorber geometry on the optical performance. The optical ray-tracing model of PTC conceived for this purpose uses photogrammetrically measured concentrator geometry in commercial Monte Carlo ray-tracing software. The model has been verified with measurements of a scanning flux measurement system, measuring the solar flux density distribution close to the focal line of the PTC. The tool uses fiber optics and a charged coupled device camera to scan the focal area of a PTC module. Since it is able to quantitatively detect spilled light with good spatial resolution, it provides an evaluation of the optical efficiency of the PTC. For comparison of ray-tracing predictions with measurements, both flux maps and collector geometry have been measured under identical conditions on the Eurotrough prototype collector at the Plataforma Solar de Almería. The verification of the model is provided by three methods: the comparison of measured intercept factors with corresponding simulations, comparison of measured flux density distributions with corresponding ray-tracing predictions, and comparison of thermographically measured temperature distribution on the absorber surface with flux density distribution predicted for this surface. Examples of sensitivity studies performed with the validated model are shown.

Print ISSN: 0199-6231

Electronic ISSN: 1528-8986

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by American Society of Mechanical Engineers

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Representative Terrestrial Solar Brightness Profiles (2002)

Neumann, Andreas ; Witzke, Andreas ; Jones, Scott A. ; [et al.]

American Society of Mechanical Engineers

In: Journal of Solar Energy Engineering. 2002; 124(2): 198-204. Published 2002 Apr 24. doi: 10.1115/1.1464880.

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Publication Date: 2002-04-24

Description: Solar thermal energy systems often use optical imaging concentrators. The image size and shape produced in the focal plane of the concentrator system depends on the solar brightness distribution. Therefore, the forward scattering of solar radiation by the Earth’s atmosphere modifies the solar brightness distribution and creates a circumsolar aureole. The circumsolar ratio, the energy contained in the solar aureole compared to total energy, can impact the performance of these concentrating systems. Based on about 2300 sunshape measurements from sites in France, Germany, and Spain made with a camera system developed by the German Aerospace Center (DLR), average solar brightness profiles with a circumsolar ratio of about 0%, 5%, 10%, 20%, 30%, and 40% were generated. These profiles are compared to the measurements taken by the Lawrence Berkeley Laboratory (LBL) in the late 1970s and a commonly used limb-darkened solar brightness profile, as known from astronomy. A statistical analysis gives information on the frequency of occurrence of each of the average profiles. The profiles combined with the statistical weight should offer a numerical database for calculating the influence of variable conditions of the sunlight scattering on solar concentrating systems. Furthermore, a single average profile was calculated from the DLR data.

Print ISSN: 0199-6231

Electronic ISSN: 1528-8986

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by American Society of Mechanical Engineers

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Parabolic Trough Optical Performance Analysis Techniques (2006)

Lüpfert, Eckhard ; Pottler, Klaus ; Ulmer, Steffen ; [et al.]

American Society of Mechanical Engineers

In: Journal of Solar Energy Engineering. 2006; 129(2): 147-152. Published 2006 Jun 18. doi: 10.1115/1.2710249.

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Publication Date: 2006-06-18

Description: Analysis of geometry and optical properties of solar parabolic trough collectors uses a number of specific techniques that have demonstrated to be useful tools in prototype evaluation. These are based on photogrammetry, flux mapping, ray tracing, and advanced thermal testing. They can be used to assure the collector quality during construction and for acceptance tests of the solar field. The methods have been applied on EuroTrough collectors, cross checked, and compared. This paper summarizes results in collector shape measurement, flux measurement, ray tracing, and thermal performance analysis for parabolic troughs. It is shown that the measurement methods and the parameter analysis give consistent results. The interpretation of the results and their annual evaluation give hints on identified relevant improvement potentials for the following generation of solar power plant collectors.

Print ISSN: 0199-6231

Electronic ISSN: 1528-8986

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by American Society of Mechanical Engineers

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Comparative Measurements of Different Solar Flux Gauge Types (2001)

Kaluza and, Jens ; Neumann, Andreas

American Society of Mechanical Engineers

In: Journal of Solar Energy Engineering. 2001; 123(3): 251-255. Published 2001 Mar 01. doi: 10.1115/1.1385201.

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Publication Date: 2001-03-01

Description: At the DLR Solar Furnace, calorimeters or circular foil radiometers are used for calibrating video camera based flux mapping systems. For many years, we have been investigating the accuracy of these devices and have undertaken several efforts to check their performance. Furthermore, we developed new instruments and compared these devices to the existent ones. The most recent measurements were collected within the frame of an international campaign, called Intercomp 2000, located at the DLR Solar Furnace in Cologne. This was the opportunity to test our own flux gauges, the 10000 suns Kendall radiometer, the 5000 suns SunCatch calorimeter, 2 HyCal circular foil radiometers for 3000 suns and 2 more HyCal radiometers for 11000 suns. About 100 measurements were taken in the range from 0,5 MW/m2 up to 5 MW/m2. The Kendall radiometer and the SunCatch calorimeter agreed well within the 2% margin. The circular foil HyCal radiometers showed significantly larger deviations. This leads to the conclusion that we have to change the manufacturer-given calibration constants of the HyCal radiometers by using the data collected with either the SunCatch or the Kendall flux gauge.

Print ISSN: 0199-6231

Electronic ISSN: 1528-8986

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by American Society of Mechanical Engineers

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Measurement of High Temperatures in the DLR Solar Furnace by UV-B Detection (2003)

Rohner, Nicola ; Neumann, Andreas

American Society of Mechanical Engineers

In: Journal of Solar Energy Engineering. 2003; 125(2): 152-158. Published 2003 May 01. doi: 10.1115/1.1562949.

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Publication Date: 2003-05-01

Description: The correct selection of the operating wavelength is essential for a precise pyrometric temperature measurement on solar irradiated samples, as the measurement may be disturbed by reflected solar radiation. Atmospheric conditions and particularly the material emissivity have an impact on these measurements. As an approach to solve this problem, we developed a new system that uses the UV-B wavelength range for pyrometry. Simulations and measurements on blackbodies and on real hot bodies heated in the DLR Solar Furnace specified the final measurement wavelength to be in the range of 280–292 nm. A sensitive monochromator system for this UV-B pyrometry was developed and experimentally tested. Measurements in the range of 1320-1500°C on a blackbody without solar irradiation and measurements from 1500°C to about 2400°C on a real solar heated sample are presented and discussed. Final calibration was performed by using blackbody radiation of 1500°C. Two calculation methods are compared. The influence of the calibration temperature on the quality of the measurement is shown. In this first approach, the resolution of the system turned out to be in the order of magnitude of 1 K and the accuracy in the order of magnitude of 10 K.

Print ISSN: 0199-6231

Electronic ISSN: 1528-8986

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by American Society of Mechanical Engineers

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