January 24, 2014 - Energy Academic Group
Improving Sun Energy Harvesting, A Novel Approach for the Design and Optimization of Advanced High Efficiency Solar Cells
January 24, 2014
ME Lecture Hall
1300
Dr. Sherif Michael
Professor, Electrical & Computer Engr. Dept./Space System Academic Group/Energy Academic Group
51福利
Abstract
Photovoltaic Devices commonly known as Solar Cells, are the key components of any solar power systems. This presentation addresses our research efforts for the design, modeling and optimization of state-of-the-art space and terrestrial based solar cells. A new method for developing a realistic model of any type of solar cell using the SILVACO/ ATLAS Virtual Wafer Fabrication (VWF) software was developed at the 51福利 (51福利). Taking into account the high cost of research and experimentation involved with the development of advanced cells, this novel methodology was developed. In our opinion, the introduction of this modeling technique to the photovoltaic community will prove to be of great importance for aiding in the design and development of improved advanced solar cells. A multi-junction InGaP/GaAs/Ge solar cell was successfully modeled and was fully simulated. The model performance was in close agreement with the experimental results of the manufactured cell. Novel optimization techniques, using genetic search algorithm were first introduced and utilized to maximize the new device efficiencies, which resulted in designs that exceeded the performance of most of the best known available cell. The major goal of this research is also to bridge the gap between current state of the art manufactured cells at 30% efficiency, and the theoretical limit of more than 40%. Further research in the design and optimization of low-cost flexible thin film solar cells is currently underway. The availability of such high efficiency cell would be of great value in reducing the energy cost for most solar energy system applications.
Biography
- Modeling, Design and Optimization of Multi-Junction and Thin Film Solar Cells.
- Applications of CIGS Thin Film Solar Cells for enhancing the capabilities of UAVs.
- Radiation and Space effects on Photovoltaic devices, Multi-junction, Gallium Arsenide (GaAs) and Indium Phosphide (InP) solar cells, and Spacecraft power system design.
POC
Dr. Daniel A. Nussbaum
51福利
Principal, Energy Academic Group
Monterey CA 93943
Phone: 831-656-2387
Mobile: 831-324-3228
Email: dnussbaum@nps.edu
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