Advanced solar panel concentrator experiment (ASPaCE)

被引:0
|
作者
Whalen, BP [1 ]
机构
[1] Alliedsignal Tech Serv Corp, NRL, Washington, DC 20375 USA
来源
IECEC-97 - PROCEEDINGS OF THE THIRTY-SECOND INTERSOCIETY ENERGY CONVERSION ENGINEERING CONFERENCE, VOLS 1-4: VOL.1: AEROSPACE POWER SYSTEMS AND TECHNOL; VOL 2: ELECTROCHEMICAL TECHNOL, CONVERSION TECHNOL, THERMAL MANAGEMENT; VOLS 3: ENERGY SYSTEMS, RENEWABLE ENERGY RESOURCES, ENVIRONMENTAL IMPACT, POLICY IMPACTS ON ENERGY; VOL 4: POST DEADLINE PAPERS, INDEX | 1997年
关键词
D O I
暂无
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
The U.S. Naval Research Laboratory (NRL) is beginning Phase II development for the Advanced Solar Panel Concentrator Experiment (ASPaCE). Phase I showed that flexible thin film reflectors can work successfully in a deployable trough concentrator. Thin film reflectors add several advantages to this concentrator including compact stowage, increase power from conventional fold-out solar panels, and solar cell exposure during orbit transfer, Testing on a proof-of-concept model has been completed (Phase I) and correlation to a large scale flight model is under way. In Phase II a large scale reflector on the order of 6 meters by 2.5 meters is being built for deployment and deformation testing and a flight quality array is being designed.
引用
收藏
页码:391 / 394
页数:4
相关论文
共 50 条
  • [21] Low Band Gap Perovskite Concentrator Solar Cells: Physics, Device Simulation, and Experiment
    Ma, Tianshu
    An, Yidan
    Li, Sheng
    Zhao, Yue
    Wang, Huayang
    Wang, Changlei
    Maier, Stefan A.
    Li, Xiaofeng
    ACS APPLIED MATERIALS & INTERFACES, 2022, 14 (26) : 29856 - 29866
  • [22] An ADvanced SOLar probe experiment module (AD SOLEM)
    McNutt, RL
    Gold, RE
    Keath, EP
    Rust, DM
    Krimigis, SM
    Zanetti, LJ
    Willey, CE
    Williams, BD
    Kurth, WS
    Gurnett, DA
    Acuna, MH
    Burlaga, LF
    Gloeckler, G
    Ipavich, FM
    Lazarus, AJ
    Steinberg, JT
    Brueckner, G
    Socker, D
    Holzer, TE
    Bochsler, PA
    Kallenbach, R
    Roux, A
    MISSIONS TO THE SUN, 1996, 2804 : 2 - 13
  • [23] Luminescent Solar Concentrator with Advanced Structure for Reabsorption Loss Suppression and Synergistic Energy Harvesting
    Xia, Pengfei
    Sun, Hongcan
    Guo, Haotian
    Zhao, Kaitian
    Liang, Cai
    Lu, Changgui
    Wang, Zhuyuan
    Xu, Shuhong
    Wang, Chunlei
    ADVANCED FUNCTIONAL MATERIALS, 2024, 34 (36)
  • [24] Wind loadings on dish solar concentrator based on virtual wind tunnel experiment with constant wind
    E, Jiaqiang
    Wang, Honglin
    Liu, Teng
    Zuo, Wei
    Zhang, Qingling
    Su, Xiuchao
    Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), 2015, 46 (12): : 4700 - 4706
  • [25] Presentation of a solar reflectometer coupled with a solar concentrator
    Hernandez, D
    Olalde, G
    Gineste, JM
    Antoine, D
    Seimpère, P
    Clément, M
    JOURNAL DE PHYSIQUE IV, 1999, 9 (P3): : 611 - 616
  • [26] Experimental investigation on paraboloid solar concentrator with a conical secondary concentrator
    Alami, Abdul Hai
    INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2014, 38 (14) : 1896 - 1902
  • [27] Laser on the big solar concentrator
    Bakhramov, SA
    Payziyev, SD
    Klychev, SI
    Kasimov, AK
    Abdurakhmanov, AA
    CAOL 2005: PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON ADVANCED OPTOELECTRONICS AND LASERS, VOL 1, 2005, : 109 - 111
  • [28] The Genesis solar wind concentrator
    Nordholt, JE
    Wiens, RC
    Abeyta, RA
    Baldonado, JR
    Burnett, DS
    Casey, P
    Everett, DT
    Kroesche, J
    Lockhart, WL
    MacNeal, P
    McComas, DJ
    Mietz, DE
    Moses, RW
    Neugebauer, M
    Poths, J
    Reisenfeld, DB
    Storms, SA
    Urdiales, C
    SPACE SCIENCE REVIEWS, 2003, 105 (3-4) : 561 - 599
  • [29] GAAS CONCENTRATOR SOLAR CELL
    JAMES, LW
    MOON, RL
    APPLIED PHYSICS LETTERS, 1975, 26 (08) : 467 - 470
  • [30] SOLAR CONCENTRATOR SURFACE CONTOUR
    KELLER, BE
    IEEE TRANSACTIONS ON AEROSPACE, 1965, AS 3 (02): : 88 - &
12345