Your search keyword '"parabolic trough technology"' showing total 9 results

1. Life cycle and environmental impact assessment of heat transfer fluids in parabolic trough CSP plants

Author

Botejara-Antúnez, Manuel, González-Domínguez, Jaime, Rebollo-Castillo, Francisco Javier, and García-Sanz-Calcedo, Justo

Published

2025

2. Corrosion Behavior of VM12-SHC Steel in Contact with Solar Salt and Ternary Molten Salt in Accelerated Fluid Conditions

Author

Gustavo García-Martin, María I. Lasanta, María T. de Miguel, Andre Illana Sánchez, and Francisco J. Pérez-Trujillo

Subjects

molten salts corrosion, VM12 steel, parabolic trough technology, CSP, pilot plant, Technology

Abstract

Ternary low melting point mixtures with the addition of LiNO3 and Ca(NO3)2 have been presented as direct system candidates for CSP technologies due to having better physical and chemical properties than those of Solar Salt. In this study, thermal, physical and chemical properties are measured as is the corrosive behavior of stainless alloy VM12 (Cr 12%) when in contact with Solar Salt, 60% NaNO3-40% KNO3 (wt.%) and ternary 46% NaNO3-19% Ca(NO3)2-35% LiNO3 (wt.%). Gravimetric weight change measurements were performed on the test specimens, which were tested under accelerated fluid conditions (0.2 m s−1) at 500 °C for 2000 h. This research confirms the potential of this novel formulation as a thermal storage medium and validates the suitability of ferritic VM12-SHC stainless steel as a structural material for CSP technology with Solar Salt. Meanwhile, the results obtained by scanning electron microscopy and X-ray diffraction indicate a reduction in the protective character of the oxide layer formed on this alloy when the medium contains calcium and lithium components.

Published

2021

3. Solar thermal power plants – A review of configurations and performance comparison.

Author

Behar, Omar

Subjects

*SOLAR power plants, *PHOTOVOLTAIC power generation, *SOLAR energy conversion, *ELECTRIC power production, *SOLAR energy, *BRAYTON cycle, *RANKINE cycle

Abstract

A detailed review and thermal performance comparison of fifteen power generation technologies including fossil, solar and hybrid options has been presented. The modeling of each part of the power plants has been carried out. For the solar field, a detailed modeling that comprises the heat transfer in the receiver tube, optics of the collector and the heat losses from the piping, has been carried out . In order to develop mathematical models for the fifteen power plants, the gas turbine and the steam turbine have been modeled and results were successively validated. Various integration of solar parabolic trough technology into the three reference Power Conversion Cycles (PCSs) including Brayton cycle, Rankine cycle and combined cycle have been considered. Six performance indicators have been used to rank the configurations. Some of these configurations are originally proposed in the present study and important findings are highlighted. [ABSTRACT FROM AUTHOR]

Published

2018

4. Performance analyses of Cu–Cl hydrogen production integrated solar parabolic trough collector system under Algerian climate.

Author

Ouagued, Malika, Khellaf, Abdallah, and Loukarfi, Larbi

Subjects

*PARABOLIC troughs, *HYDROGEN production, *CHEMICAL reactions, *SPECTRAL irradiance, *COMPUTER simulation

Abstract

The potential of hydrogen production by thermochemical cycle in Algeria using solar radiation as heat sources is estimated under the climate conditions of the country. The study analyzes an integrated copper–chlorine (Cu–Cl) thermochemical cycle with solar parabolic trough system for hydrogen production. In order to determine the most promising solar sites available for deploying the integrated system, the direct normal solar irradiance (DNI) for horizontal tracking system oriented in North-South has been estimated and compared for different locations. Heat gain from parabolic trough collector model is evaluated under Algerian conditions. To describe the different steps of the Cu–Cl cycle for hydrogen production, we perform a thermodynamic analysis accounting for relevant chemical reactions and including the determination of the energy necessary to the cycle. A parametric study is conducted to investigate the effect of heat gain from the parabolic trough collector (PTC) on the hydrogen production rate. Furthermore, the rate production of hydrogen by the Cu–Cl cycle is analyzed and compared for performance improvement of the system for different climatic regions in Algeria. Simulation results reveal great opportunities of hydrogen production using Cu–Cl cycle combined with solar PTC in the south of Algeria with annual hydrogen production exceeds 84 Tons H 2 /year (around 0,30 kg/m 2 /day). [ABSTRACT FROM AUTHOR]

Published

2018

5. Analysis of two heat storage integrations for an Organic Rankine Cycle Parabolic trough solar power plant.

Author

Chacartegui, R., Vigna, Leo, Becerra, J.A., and Verda, V.

Subjects

*SOLAR power plants, *HEAT storage, *HEAT transfer, *ELECTRIC rates, *RANKINE cycle, *ENERGY management

Abstract

Among the concentrated solar power technologies, those based on Organic Rankine Cycles have a very low market presence. However they have favorable characteristics for applications with low temperature and small/medium size (<10 MW), such as off-grid applications or distributed power generation. In this paper is analyzed a 5 MW parabolic trough plant integrated with an Organic Rankine cycle power block and thermal storage. On this purpose, two different thermal storage integrations are analyzed. They are based on two different heat storage layouts: direct system using Hitec XL both as Heat Transfer Fluid and as storage medium; indirect system using Therminol VP-1 as Heat Transfer Fluid and Hitec XL as storage medium. Full system performance at rated and off-design conditions is presented operating with different organic working fluids. Its potential application and main challenges for its development are discussed in terms of performance and costs. Among the analyzed working fluids, the best results were obtained for the cycle working with Toluene with an efficiency at the power block of 31.5% and an estimated power block cost of 825 €/kW. The indirect storage layout was the most interesting from the point of view of Levelized Electricity Cost (16.19 c€/kW) and productivity (28.2 GW h/y for a 5 MW el plant) for 10 h of storage However, it results in a storage tanks volume 26% greater than the obtained for the equivalent direct storage layout. The results show the competitiveness and the potential of the proposed integrated small size parabolic trough designs for isolated applications as mines or for some distributed generation uses where grid capacity is limited. [ABSTRACT FROM AUTHOR]

Published

2016

6. Corrosion Behavior of VM12-SHC Steel in Contact with Solar Salt and Ternary Molten Salt in Accelerated Fluid Conditions

Author

García-Martin, Gustavo, Lasanta, María Isabel, Miguel, Maria T. de, Illana Sánchez, Andrea, Pérez-Trujillo, Francisco J., García-Martin, Gustavo, Lasanta, María Isabel, Miguel, Maria T. de, Illana Sánchez, Andrea, and Pérez-Trujillo, Francisco J.

Abstract

Ternary low melting point mixtures with the addition of LiNO3 and Ca(NO3)2 have been presented as direct system candidates for CSP technologies due to having better physical and chemical properties than those of Solar Salt. In this study, thermal, physical and chemical properties are measured as is the corrosive behavior of stainless alloy VM12 (Cr 12%) when in contact with Solar Salt, 60% NaNO3-40% KNO3 (wt.%) and ternary 46% NaNO3-19% Ca(NO3)2-35% LiNO3 (wt.%). Gravimetric weight change measurements were performed on the test specimens, which were tested under accelerated fluid conditions (0.2 m s−1) at 500 °C for 2000 h. This research confirms the potential of this novel formulation as a thermal storage medium and validates the suitability of ferritic VM12-SHC stainless steel as a structural material for CSP technology with Solar Salt. Meanwhile, the results obtained by scanning electron microscopy and X-ray diffraction indicate a reduction in the protective character of the oxide layer formed on this alloy when the medium contains calcium and lithium components., Ministerio de Ciencia, Innovación, Depto. de Ingeniería Química y de Materiales, Fac. de Ciencias Químicas, TRUE, pub

Published

2021

7. A review of integrated solar combined cycle system (ISCCS) with a parabolic trough technology.

Author

Behar, Omar, Khellaf, Abdallah, Mohammedi, Kamal, and Ait-Kaci, Sabrina

Subjects

*SOLAR energy, *COMBINED cycle power plants, *RESEARCH & development, *RENEWABLE energy sources, *HYBRID systems

Abstract

The huge amount of solar energy available on Earth׳s surface has heightened awareness in Concentrating Solar Power, and more particularly in hybrid concepts. The integrated solar combined cycle system (ISCCS) is one of the more promising hybrid configurations for converting solar energy into electricity and it might become the technology of choice in the near future. This article reviews the R&D activities and published studies since the introduction of such a concept in the 1990s. The review includes the current status and describes different hybridizations of solar energy with natural gas, coal and other renewable energy sources. Furthermore, it provides in-depth analysis of real and expected R&D finding. [ABSTRACT FROM AUTHOR]

Published

2014

8. Analysis of two heat storage integrations for an Organic Rankine Cycle Parabolic trough solar power plant

Author

Vittorio Verda, Leo Vigna, Ricardo Chacartegui, and J.A. Becerra

Subjects

Engineering, CSP, ORC, Organic Rankine cycle, Parabolic trough technology, Solar energy, Thermal energy storage, Renewable Energy, Sustainability and the Environment, Nuclear Energy and Engineering, Fuel Technology, Energy Engineering and Power Technology, 020209 energy, 02 engineering and technology, 020401 chemical engineering, Concentrated solar power, 0202 electrical engineering, electronic engineering, information engineering, Parabolic trough, Renewable Energy, 0204 chemical engineering, Process engineering, Degree Rankine, Waste management, Sustainability and the Environment, business.industry, Distributed generation, Storage tank, business

Abstract

Among the concentrated solar power technologies, those based on Organic Rankine Cycles have a very low market presence. However they have favorable characteristics for applications with low temperature and small/medium size ( In this paper is analyzed a 5 MW parabolic trough plant integrated with an Organic Rankine cycle power block and thermal storage. On this purpose, two different thermal storage integrations are analyzed. They are based on two different heat storage layouts: direct system using Hitec XL both as Heat Transfer Fluid and as storage medium; indirect system using Therminol VP-1 as Heat Transfer Fluid and Hitec XL as storage medium. Full system performance at rated and off-design conditions is presented operating with different organic working fluids. Its potential application and main challenges for its development are discussed in terms of performance and costs. Among the analyzed working fluids, the best results were obtained for the cycle working with Toluene with an efficiency at the power block of 31.5% and an estimated power block cost of 825 €/kW. The indirect storage layout was the most interesting from the point of view of Levelized Electricity Cost (16.19 c€/kW) and productivity (28.2 GW h/y for a 5 MW el plant) for 10 h of storage However, it results in a storage tanks volume 26% greater than the obtained for the equivalent direct storage layout. The results show the competitiveness and the potential of the proposed integrated small size parabolic trough designs for isolated applications as mines or for some distributed generation uses where grid capacity is limited.

Published

2016

9. Optimization of design radiation for concentrating solar thermal power plants without storage

Author

Santanu Bandyopadhyay, Nishith B. Desai, and Shireesh B. Kedare

Subjects

Performance Evaluation, Power station, Computer science, Concentrating Solar Power, Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Parabolic Trough Collector, Molten-Salt, Receiver, Design objective, Optics, Exergetic Analysis, Conceptual design, Parabolic trough, General Materials Science, Direct Steam-Generation, Parabolic Trough Technology, Process engineering, Solar power, Renewable Energy, Sustainability and the Environment, business.industry, Energy Storage, Collectors, Sizing, Design Radiation, Power rating, Linear Fresnel Reflector, Organic Rankine Cycles, business, Simulation

Abstract

Prior to the detailed design of a concentrating solar power (CSP) plant, it is necessary to develop a conceptual design of the plant. Conceptual design activities help in screening of various design objectives prior to the detailed design of the overall power plant. Conceptual design of a CSP plant includes type and size of solar field, power generating cycle and the working fluid, sizing of the power block, etc. One of the most important parameters for conceptual design of a CSP plant is to determine the design radiation of the plant. Design radiation for a CSP plant is the direct normal irradiance (DNI) at which the plant produces the rated power output. Due to daily and seasonal variation of radiation, determining appropriate design radiation is extremely important; low design radiation results in excessive unutilized energy and high design radiation results in low capacity factor of the plant. In this paper, a methodology is proposed to determine the thermodynamically and the cost optimum design radiation for CSP plants without hybridization and storage. The proposed methodology accounts for the characteristics of the collector field as well as turbine characteristics. There is no such analytical methodology reported in the literature. Applicability of the proposed methodology is demonstrated through illustrative case studies incorporating parabolic trough collectors (PTC) as well as linear Fresnel reflectors (LFR). Design radiations for ten different places in India are also reported. However, the proposed methodology is not restricted to India only. (C) 2014 Elsevier Ltd. All rights reserved.

Published

2014