F. GIRAUD, Z.M. SALAMEH, "Steady-State Performance of a Grid-Connected Rooftop Hybrid Wind-Photovoltaic Power System with Battery Storage", IEEE Transactions on Energy Conversion, Vol. 16, No. 1, March 2001, pp. 1-7.
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Titre : F. GIRAUD, Z.M. SALAMEH, Steady-State Performance of a Grid-Connected Rooftop Hybrid Wind-Photovoltaic Power System with Battery Storage, IEEE Transactions on Energy Conversion, Vol. 16, No. 1, March 2001, pp. 1-7.

Cité dans :[ART600]
Auteur : Francois Giraud
Auteur : Zyiad M. Salameh.

Lien : private/.pdf - Ko, pages.
Source : IEEE Transactions on Energy Conversion
Volume : 16
Numéro : 1
Pages : 1 - 7
Date : March 2001

Abstract :
This paper reports the performance of a 4-kW gridconnected
residential Wind-Photovoltaic system (WPS) with battery
storage located in Lowell, MA. The system was originally designed
to meet a typical New-England (TNE) load demand with a
loss of power supply probability (LPSP) of one day in ten years as
recommended by the Utility Company. The data used in the calculation
was wind speed and irradiance of Login Airport Boston
(LAB) obtained from the National Climate Center in North Carolina.
The present performance study is based on two-year operation.
(May 1996-Apr 1998) of the WPS.
Unlike conventional generation, the wind and the sunrays are
available at no cost and generate electricity pollution-free. Around
noontime the WPS satisfies its load and provides additional energy
to the storage or to the grid. On-site energy production is undoubtedly
accompanied with minimization of environmental pollution,
reduction of losses in power systems transmission and distribution
equipment, and supports the utility in Demand Side Management
(DSM). This paper includes discussion on system reliability, power
quality, loss of supply, and effects of the randomness of the wind
and the solar radiation on system design.

Index_Terms : Battery storage, grid-connected residential system, hybrid wind-photovoltaic system, loss of supply, system
reliability.


Bibliographie

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REFERENCES : 9
[1] B. S. Borrowsy and Z. M. Salameh, “Methodology for optimally sizing
the combination of battery bank and PV array in a wind/PV hybrid
system,” IEEE Trans. on Energy Conversion, vol. 12, no. 1, Mar. 1997.
[2] T. Hiyama and K. Kitabayashi, “Neural network based estimation of
maximum power generation from PV module using environmental information,”
in IEEE ’96 SM 550-4 EC.
GIRAUD AND SALAMEH: STEADY-STATE PERFORMANCE OF A GRID-CONNECTED ROOFTOP HYBRID WIND–PHOTOVOLTAIC POWER SYSTEM 7
[3] F. Giraud and Z. M. Salameh, “Neural networks modeling of the gusts
effects on a grid-interactive wind energy conversion system with battery
storage,” Electric Power Systems Research, to be published.
[4] , “Analysis of the effects of a passing clouds on a grid-interactive
photovoltac system with battery storage using neural networks,” IEEE
Transactions on Energy Conversion, to be published.
[5] I. Safari and Z. M. Salameh, “The effect of windmill’s parameters on
capacity factors,” IEEE Trans. on Energy Conversion, vol. 10, no. 4,
Dec. 1995.
[6] R. Ramakumar and I. Abouzhar, “Loss of supply probability of standalone
wind electric conversion systems,” IEEE Trans. on Energy Conversion,
vol. 5, no. 3, Dec. 1990.
[7] S. Rahman and R. Chedid, “Unit sizing and control of hybrid wind–solar
power systems,” in IEEE 96 Sm 572-8 EC.
[8] R. Ramakumar and I. Abouzhar, “An approach to assess the performance
of a utility interactive photovoltac systems,” IEEE Trans. on Energy
Conversion, vol. 8, no. 2, June 1993.
[9] R. Ramakhumar, I. Abouzahr, and K. Ashenayi, “A knowledge-based
approach to the design of integrated renewable energy systems,” IEEE
Trans. on Energy Conversion, vol. 7, no. 4, Dec. 1992.


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