1 |
Lund H, Mathiesen BV, "Energy system analysis of 100% renewable energy systems-the case of Denmark in years 2030 and 2050", Energy 2009;34:524e31.
|
2 |
Schucan T, "Case Studies of Integrated Hydrogen Energy Systems", Report, IEA/H2/T11/FR1-2000, International Energy Agency Hydrogen Implementing Agreement Task 11. Integrated Systems Operating agent: National Renewable Energy Laboratory, Golden, Colorado, 1999.
|
3 |
H.S. Ko, T. Niimura, K.Y. Lee, An intelligent controller for a remote wind-diesel power system-design and dynamic performance analysis, in: IEEE PES, 2003, pp. 2147-2152.
|
4 |
W.P. Hong, "Power control and modeling of solar-hydrogen hybrid energy system for stand-alone applications in building", 16th International Conference on Electrical Engineering, July 11-14, 2010 Busan Korea.
|
5 |
R.W. Wies, R.A. Johnson, A.N. Agrawal, T.J. Chubb, Simulink model for economic analysis and environmental impacts of a PV with diesel-battery system for remote villages, IEEETrans. Power Syst. 20 (2) (2005) 692-700.
DOI
ScienceOn
|
6 |
E.S. Abdin, A.M. Osheiba, M.M. Khater, Modeling and optimal controllers design for a stand-alone photovoltaic-diesel generator unit, IEEE Trans. Energy Conver. 14 (3) (1999) 560-565.
DOI
ScienceOn
|
7 |
Ulleberg, O. and Pryor T.L., Optimization of Integrated Renewable Energy Hydrogen Systems in Diesel Engine Mini-Grids. WHEC 2002 - 14th World Hydrogen Energy Conference, Montreal, 9-14 June 2002.
|
8 |
Federal Energy Technology Center Fuel Cells - Opening new frontiers in power generation, US Department of Energy, Office of Fossil Energies, Federal Energy Technology Center, Morgatown, USA, 2000.
|
9 |
E.I. Zoulias, "Hydrogen-based Autonomous Power System", 2008 Springer.
|
10 |
Won-Pyo Hong, "The Energy Performance Analysis of Large Scale Store Using Dynamic Thermal Analysis Simulation Program", Journal of The Korean Solar Energy Society, Vol. 30, No. 6, pp. 44-49, 2011.
과학기술학회마을
|
11 |
Ulleberg O, "Stand-alone power systems for the future: optimal design, operation and control of solar hydrogen energy system", ph.D dissertation, Norwegian University of Science and Technology, 1998.
|
12 |
Lehman, P. A. Chamberlin, C. E., Pauletto, G.and Rocheleau, M. A., Operating Experience with A Photovoltaic-Hydrogen Energy System, Published in the proceedings of: Hydrogen '94: The 10th World Hydrogen Energy Conference Cocoa Beach, Florida, June 20-24, 1994.
|
13 |
T.E., Zawodzinski, T.A. and Gottesfeld, S., Polymer Electrolyte Fuel Cell Model, Journal of Electrochemical Society, vol.138, no.8, pp.2334-2342, 1991, Springer.
DOI
|
14 |
TRNSYS 16 User Manual Volume 5 Mathematical Reference, Solar Energy Laboratory, University of Wisconsin-Madison, 2004.
|
15 |
Ding, J.J and Buckeridge, J.S., Design Considerations for a Sustainable Hybrid Energy System, IPENZ Transactions, 2000, Vol. 27, No.1, EMCh, 2000.
|
16 |
Altmann, M., Niebauer, P., Pschorr-Schoberer, E. and Zittel, W., Wind-Hydrogen Supply of Electricity Markets - Technology - Economics, Wind Power for the 21st Century, Kassel, Germany, 25-27 September 2000.
|
17 |
Federal Energy Technology Center Fuel Cells Opening new frontiers in power generation, US Department of Energy, Office of Fossil Energies, Federal Energy Technology Center, Morgantown, USA, 2000.
|
18 |
Jennings, W. and Green, J., Optimization of Electric Power Systems for Off-Grid Domestic Applications: an Argument for Wind/Photovoltaic Hybrids, U.S. Department of Energy Undergraduate Research Journal, 2002.
|
19 |
Byung-Soo Kim, Won-Pyo Hong, Young-Wok Gil, "The Energy Performance & Economy Efficiency Evaluation Mictoturbine Installed Hospital Building", Journal of KIIEE, Vol. 23, No. 12, pp. 176-183, 2009.
과학기술학회마을
DOI
ScienceOn
|
20 |
John L. S., Liquid Hydrogen As A Propulsion Fuel, The NASA History Series, Scientific and Technical Information Office, National Aeronautics and Space Administration, Washington, D.C., 1978.
|