Solugas - Comprehensive analysis of the solar hybrid Brayton plant

被引:93
作者
Korzynietz, R. [1 ]
Brioso, J. A. [2 ]
del Rio, A. [2 ]
Quero, M. [2 ]
Gallas, M. [2 ]
Uhlig, R. [3 ]
Ebert, M. [3 ]
Buck, R. [3 ]
Teraji, D. [4 ]
机构
[1] Abengoa, Rambla Obispo Orbera 11,1, Almeria 04001, Spain
[2] Abengoa, Campus Palmas Altas, Seville 410140, Spain
[3] German Aerosp Ctr DLR, Inst Solar Res, Pfaffenwaldring 38-40, D-70569 Stuttgart, Germany
[4] Solar Turbines Inc, San Diego, CA USA
来源
SOLAR ENERGY | 2016年 / 135卷
关键词
Solar thermal electricity; Gas turbine; Solar hybrid; Brayton cycle; Pressurised air receiver; High temperature;
D O I
10.1016/j.solener.2016.06.020
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
This article presents the first megawatt scale solar-hybrid plant with a solarized gas turbine. The works and improvements that made the Solugas project succeed during design, construction and long-term solar operation are described and explained. More than 1000 operation hours and receiver outlet temperatures of 800 degrees C were achieved. The operation behaviour and performance of the key components - the solar pressurised air receiver and the gas turbine - are presented here as a proof of the high potential of the technology. (C) 2016 Elsevier Ltd. All rights reserved.
引用
收藏
页码:578 / 589
页数:12
相关论文
共 50 条
  • [41] Effect of the ratio of specific heats on a small scale solar Brayton cycle
    Riazi, H.
    Ahmed, N. A.
    INTERNATIONAL ENERGY CONGRESS 2012, 2012, 49 : 263 - 270
  • [42] COMPARATIVE STUDY OF SOLAR THERMAL BRAYTON CYCLES OPERATED WITH HELIUM OR ARGON
    Kusterer, Karsten
    Braun, Rene
    Moritz, Norbert
    Sugimoto, Takao
    Tanimura, Kazuhiko
    Bohn, Dieter
    PROCEEDINGS OF THE ASME TURBO EXPO: TURBINE TECHNICAL CONFERENCE AND EXPOSITION, 2013, VOL 4, 2013,
  • [43] Thermoeconomic investigation and multi-objective optimization of a novel efficient solar tower power plant based on supercritical Brayton cycle with inlet cooling
    Zhou, Jincheng
    Ali, Masood Ashraf
    Zeki, Firas Muhammad
    Dhahad, Hayder A.
    THERMAL SCIENCE AND ENGINEERING PROGRESS, 2023, 39
  • [44] Numerical investigation of pitch value on thermal performance of solar receiver for solar powered Brayton cycle application
    Daabo, Ahmed M.
    Mahmoud, Saad
    Al-Dadah, Raya K.
    Ahmad, Abdalqader
    ENERGY, 2017, 119 : 523 - 539
  • [45] Dynamic modeling and response characteristics of a solar-driven fuel cell hybrid system based on supercritical CO2 Brayton cycle
    Han, Xinrui
    Zhou, Yunlong
    Wang, Di
    Zhang, Yuxin
    Si, Long
    APPLIED THERMAL ENGINEERING, 2024, 252
  • [46] Solar driven carbon dioxide Brayton cycle power generation with thermal compression
    Kumar, Pramod
    Dutta, Pradip
    Murthy, Stikantiah Srinivasa
    Srinivasan, Kandadai
    APPLIED THERMAL ENGINEERING, 2016, 109 : 854 - 860
  • [47] Effect of a novel cooling window on a recuperated solar-dish Brayton cycle
    de Beer, J. H.
    le Roux, W. G.
    Sciacovelli, A.
    Meyer, J. P.
    RENEWABLE ENERGY, 2023, 208 : 465 - 480
  • [48] Effect of Inlet Air Humidity on Performance of Solar Hybrid Combined Cycle Power Plant
    Samuel V.
    Srinivas T.
    Reddy B.V.
    Applied Solar Energy (English translation of Geliotekhnika), 2018, 54 (03): : 213 - 219
  • [49] Direct solar production of medium temperature hot air for industrial applications in linear concentrating solar collectors using an open Brayton cycle. Viability analysis
    Famiglietti, Antonio
    Lecuona-Neumann, Antonio
    Nogueira, Jose
    Rahjoo, Mohammad
    APPLIED THERMAL ENGINEERING, 2020, 169
  • [50] Proposal and Study of a Pumped Thermal Energy Storage to Improve the Economic Results of a Concentrated Solar Power That Works with a Hybrid Rankine-Brayton Propane Cycle
    Subires, Antonio Jesus
    Rovira, Antonio
    Munoz, Marta
    ENERGIES, 2024, 17 (09)
12345