Concentrated Solar Power Generation in a Remote Island

被引:0
|
作者
Chowdhury, Muhammad Sifatul Alam [1 ]
Uddin, Md. Arman [2 ]
Al Mamun, Khandakar Abdulla [2 ]
Liang, Xiaodong [1 ]
Ahadi, Amir [1 ]
机构
[1] Mem Univ Newfoundland, Dept Elect & Comp Engn, St John, NF, Canada
[2] Int Islamic Univ Chittagong, Dept Elect & Elect Engn, Chittagong, Bangladesh
来源
2018 IEEE CANADIAN CONFERENCE ON ELECTRICAL & COMPUTER ENGINEERING (CCECE) | 2018年
关键词
Concentratded solar power; parabolic trough system; renewable enrgy sources; System Advisor Model (SAM);
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
The concentrated solar power (CSP) generation is a promising type of renewable energy sources. The islands of Bangladesh are yet to connect with the national grid, key requirements to install CSP based power plant in Sandwip Island is investigated in this paper. After analyzing environmental conditions, economic prospect and demand data, a 20 megawatt parabolic trough CSP plant for the island is proposed through this research. The System Advisor Model (SAM) is used to prepare the simulation model. The simulation is conducted based on real environmental conditions of Sandwip Island. Simulation results indicate that the generated power is sufficient to supply the entire island. A cost comparison is carried out among different renewable energy sources to ensure the economic feasibility of the proposed system.
引用
收藏
页数:4
相关论文
共 50 条
  • [1] The Use of Concentrated Solar Power for Heat Generation
    Fieducik, Jolanta
    [J]. RENEWABLE ENERGY SOURCES: ENGINEERING, TECHNOLOGY, INNOVATION, 2018, : 221 - 231
  • [2] Solar Power Generation Using Concentrated Technology
    Elahi, Engr. Tehseen
    Mushtaq, Mian Haseeb
    Shafique, H. M. Usman
    Ali, Syed Ahsan
    [J]. 2015 12TH INTERNATIONAL CONFERENCE ON HIGH-CAPACITY OPTICAL NETWORKS AND ENABLING/EMERGING TECHNOLOGIES (HONET), 2015, : 102 - 105
  • [3] AMTEC CLUSTERS FOR POWER GENERATION IN A CONCENTRATED SOLAR POWER PLANT
    Onea, A.
    Ramos, N. Diez de los Rios
    Hering, W.
    Palacios, J. L.
    Stieglitz, R.
    [J]. MAGNETOHYDRODYNAMICS, 2015, 51 (03): : 495 - 507
  • [4] Concentrated solar power in the future of electricity generation: a synthesis of reasons
    Rubbia, Carlo
    [J]. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, 2013, 371 (1996):
  • [5] Materials compatibility for the next generation of Concentrated Solar Power plants
    Sarvghad, Madjid
    Maher, Salar Delkasar
    Collard, David
    Tassan, Matthew
    Will, Geoffrey
    Steinberg, Theodore A.
    [J]. ENERGY STORAGE MATERIALS, 2018, 14 : 179 - 198
  • [6] Performance and Economic Analysis of Concentrated Solar Power Generation for Pakistan
    Soomro, Mujeeb Iqbal
    Mengal, Abdullah
    Memon, Yasir Aftab
    Khan, Muhammad Waris Ali
    Shafiq, Qadir Nawaz
    Mirjat, Nayyar Hussain
    [J]. PROCESSES, 2019, 7 (09)
  • [7] ADVANCED LOW PRESSURE CYCLE FOR CONCENTRATED SOLAR POWER GENERATION
    Garg, Pardeep
    Krishna, Sriram Hebbalguppe
    Kumar, Pramod
    Conboy, Thomas
    Ho, Clifford
    [J]. PROCEEDINGS OF THE ASME 8TH INTERNATIONAL CONFERENCE ON ENERGY SUSTAINABILITY, 2014, VOL 1, 2014,
  • [8] Concentrated Solar Power Generation: Firm and Dispatchable Capacity for Brazil's Solar Future?
    Tomaschek, Jan
    Haasz, Thomas
    Fahl, Ulrich
    [J]. SOLARPACES 2015: INTERNATIONAL CONFERENCE ON CONCENTRATING SOLAR POWER AND CHEMICAL ENERGY SYSTEMS, 2016, 1734
  • [9] Solid particle solar receivers in the next-generation concentrated solar power plant
    Nie, Fuliang
    Bai, Fengwu
    Wang, Zhifeng
    Li, Xiaobo
    Yang, Ronggui
    [J]. ECOMAT, 2022, 4 (05)
  • [10] A novel active volumetric rotating disks solar receiver for concentrated solar power generation
    Randez, X.
    Zaversky, F.
    Astrain, D.
    [J]. APPLIED THERMAL ENGINEERING, 2022, 206
12345