Flow field optimization for the solar parabolic trough receivers in direct steam generation systems by the variational principle

The DISS (DIrect Solar Steam) project is a complete R+TD program aimed at developing a new generation of solar thermal power plants with direct steam generation (DSG) in the absorber tubes of parabolic trough collectors. During the first phase of the project (1996-1998), a life-size test facility was implemented at the Plataforma Solar de Almerı´a (PSA) to investigate the basic DSG processes under real solar conditions and evaluate the unanswered technical questions concerning this new technology. This paper updates DISS project status and explains O&M-related experience (e.g., main problems faced and solutions applied) with the PSA DISS test facility since January 1999.

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Modelling and simulation tools for direct steam generation in parabolic-trough solar collectors: A review

Renewable and Sustainable Energy Reviews ◽

10.1016/j.rser.2019.06.033 ◽

2019 ◽

Vol 113 ◽

pp. 109226 ◽

Cited By ~ 15

Author(s):

Antonio Sandá ◽

Sara L. Moya ◽

Loreto Valenzuela

Keyword(s):

Modelling And Simulation ◽

Solar Collectors ◽

Steam Generation ◽

Parabolic Trough ◽

Simulation Tools ◽

Direct Steam

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Direct steam generation in parabolic trough solar collector: Analytical modelling for prediction of flow pattern

10.1063/1.5096497 ◽

2019 ◽

Author(s):

Shamimun Nisha ◽

Ram Kumar Pal ◽

K. Ravi Kumar

Keyword(s):

Flow Pattern ◽

Solar Collector ◽

Analytical Modelling ◽

Steam Generation ◽

Parabolic Trough ◽

Direct Steam ◽

Parabolic Trough Solar Collector

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Yield Analysis of a Power Plant with Parabolic-Trough Collectors and Direct Steam Generation (DSG) Using a Quasi-Dynamic Simulation Model in TRNSYS

Proceedings of EuroSun2016 ◽

10.18086/eurosun.2016.02.05 ◽

2016 ◽

Cited By ~ 2

Author(s):

Mario Biencinto ◽

L González ◽

L Valenzuela

Keyword(s):

Power Plant ◽

Simulation Model ◽

Dynamic Simulation ◽

Steam Generation ◽

Parabolic Trough ◽

Yield Analysis ◽

Direct Steam ◽

Dynamic Simulation Model

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Development of a Thermal Energy Storage System for Parabolic Trough Power Plants With Direct Steam Generation

Journal of Solar Energy Engineering ◽

10.1115/1.4001472 ◽

2010 ◽

Vol 132 (2) ◽

Cited By ~ 27

Author(s):

Doerte Laing ◽

Thomas Bauer ◽

Dorothea Lehmann ◽

Carsten Bahl

Keyword(s):

Heat Transfer ◽

Power Plants ◽

Storage System ◽

Thermal Power ◽

Sensible Heat ◽

Steam Generation ◽

Parabolic Trough ◽

Two Phase ◽

Solar Thermal Power ◽

Direct Steam

For future parabolic trough plants direct steam generation in the absorber pipes is a promising option for reducing the costs of solar thermal power generation. These new solar thermal power plants require innovative storage concepts, where the two-phase heat transfer fluid poses a major challenge. A three-part storage system is proposed where a phase change material (PCM) storage will be deployed for the two-phase evaporation, while concrete storage will be used for storing sensible heat, i.e., for preheating of water and superheating of steam. A pinch analysis helps to recognize interface constraints imposed by the solar field and the power block and describes a way to dimension the latent and sensible components. Laboratory test results of a PCM test module with ∼140 kgNaNO3, applying the sandwich concept for enhancement of heat transfer, are presented, proving the expected capacity and power density. The concrete storage material for sensible heat was improved to allow the operation up to 500°C for direct steam generation. A storage system with a total storage capacity of ∼1 MWh is described, combining a PCM module and a concrete module, which will be tested in 2009 under real steam conditions around 100 bars.

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Solar selective coating optimization for direct steam generation parabolic trough designs

Solar Energy ◽

10.1016/j.solener.2015.12.006 ◽

2016 ◽

Vol 124 ◽

pp. 82-88 ◽

Cited By ~ 3

Author(s):

Kyle D. Olson ◽

Joseph J. Talghader

Keyword(s):

Steam Generation ◽

Parabolic Trough ◽

Selective Coating ◽

Direct Steam

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Modelling and Design of Direct Solar Steam Generating Collector Fields

Journal of Solar Energy Engineering ◽

10.1115/1.1849225 ◽

2005 ◽

Vol 127 (3) ◽

pp. 371-380 ◽

Cited By ~ 66

Author(s):

M. Eck ◽

W.-D. Steinmann

Keyword(s):

Power Plants ◽

Thermal Power ◽

Solar Thermal ◽

Steam Generation ◽

Parabolic Trough ◽

Final Project ◽

Direct Steam ◽

Attractive Option ◽

The Stability ◽

Eu Project

The direct steam generation (DSG) is an attractive option regarding the economic improvement of parabolic trough technology for solar thermal electricity generation in the multi megawatt range. According to Price, H., Lu¨pfert, E., Kearney, D., Zarza, E., Cohen, G., Gee, R. Mahoney, R., 2002, “Advances in Parabolic Trough Solar Power Technology,” J. Sol. Energy Eng., 124 and Zarza, E., 2002, DISS Phase II-Final Project Report, EU Project No. JOR3-CT 980277 a 10% reduction of the LEC is expected compared to conventional SEGS like parabolic trough power plants. The European DISS project has proven the feasibility of the DSG process under real solar conditions at pressures up to 100 bar and temperatures up to 400°C in more than 4000 operation hours (Eck, M., Zarza, E., Eickhoff, M., Rheinla¨nder, J., Valenzuela, L., 2003, “Applied Research Concerning the Direct Steam Generation in Parabolic Troughs,” Solar Energy 74, pp. 341–351). In a next step the detailed engineering for a precommercial DSG solar thermal power plant will be performed. This detailed engineering of the collector field requires the consideration of the occurring thermohydraulic phenomena and their influence on the stability of the absorber tubes.

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