Hybrid solar/wind power system probabilistic modelling for long-term performance assessment
Author:
Publisher
Elsevier BV
Subject
General Materials Science,Renewable Energy, Sustainability and the Environment
Reference18 articles.
1. An approach to assess the performance of utility-interactive wind electric conversion systems;Abouzahr;IEEE Transactions on Energy Conversion,1991
2. Technoeconomic assessment of a hybrid solar/wind installation for electrical energy saving;Bakos;Energy and buildings,2003
3. A method for the identification of configurations of PV/Wind hybrid systems for the reliable supply of small loads;Beyer;Solar Energy,1996
4. Reliability Evaluation of Power Systems;Billinton,1996
5. Wind augments solar power at mountaintop radio site;Bishop;Mobile Radio Technology,1988
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