Archimede Solar Energy molten salt parabolic trough demo plant: a step ahead towards the new frontiers of CSP

被引:50
|
作者
Maccari, A. [1 ]
Bissi, D. [2 ]
Casubolo, G. [3 ]
Guerrini, F. [4 ]
Lucatello, L. [5 ]
Luna, G. [6 ]
Rivaben, A. [7 ]
Savoldi, E. [8 ]
Tamano, S. [9 ]
Zuanella, M. [10 ]
机构
[1] Archimede Solar Energy, Voc Pisciarello, I-06056 Massa Martana, PG, Italy
[2] AXEL, I-33030 Buja, UD, Italy
[3] SQM Europe NV, B-2030 Antwerp, Belgium
[4] Meccanotecn Umbra, I-06042 Campello Sul Clitunno, PG, Italy
[5] REFLEX, I-31056 Biancade Di Roncade, TV, Italy
[6] Costruz Elettromeccan Umbre, I-06135 Balanzano, PG, Italy
[7] BFR Meccan, I-31040 Cessalto, TV, Italy
[8] Techint E&C, I-20149 Milan, Italy
[9] Chiyoda Corp, Nishi Ku, Yokohama, Kanagawa 2208765, Japan
[10] RDM, I-33042 Buttrio, Ud, Italy
来源
INTERNATIONAL CONFERENCE ON CONCENTRATING SOLAR POWER AND CHEMICAL ENERGY SYSTEMS, SOLARPACES 2014 | 2015年 / 69卷
关键词
Concentrating Solar Power Planr; Molten Salt; Parabolic Trough; Solar Receiver;
D O I
10.1016/j.egypro.2015.03.122
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
Since July 2013 the first stand-alone Molten Salt Parabolic Trough (MSPT) plant, located adjacent to the Archimede Solar Energy (ASE) manufacturing plant in Massa Martana (Italy), is in operation. After one year of operation, the management of the ASE demonstration plant has shown that MSPT technology is a suitable and reliable option. Several O& M procedures and tests have been performed, always with very good results confirming that this approach can be easily scaled up to realize standard size CSP plants without any concern, if the plant design takes into account molten salt peculiarities. In this paper a brief description of the plant and the overall and main plant operation figures will be presented. (C) 2015 The Authors. Published by Elsevier Ltd.
引用
收藏
页码:1643 / 1651
页数:9
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    [J]. SOLARPACES 2015: INTERNATIONAL CONFERENCE ON CONCENTRATING SOLAR POWER AND CHEMICAL ENERGY SYSTEMS, 2016, 1734
  • [2] Molten salt receivers operated on parabolic trough demo plant and in laboratory conditions
    Matino, F.
    Maccari, A.
    [J]. INTERNATIONAL CONFERENCE ON CONCENTRATING SOLAR POWER AND CHEMICAL ENERGY SYSTEMS, SOLARPACES 2014, 2015, 69 : 481 - 486
  • [3] MOLTEN NITRATE SALT DEVELOPMENT FOR THERMAL ENERGY STORAGE IN PARABOLIC TROUGH SOLAR POWER SYSTEMS
    Bradshaw, Robert W.
    Cordaro, Joseph G.
    Siegel, Nathan P.
    [J]. ES2009: PROCEEDINGS OF THE ASME 3RD INTERNATIONAL CONFERENCE ON ENERGY SUSTAINABILITY, VOL 2, 2009, : 615 - 624
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