Photovoltaic-thermoelectric hybrid systems: A general optimization methodology
Daniel KraemerMassachusetts Institute of Technology 1 Department of Mechanical Engineering, , Cambridge, Massachusetts 02139, USALingyu HuMassachusetts Institute of Technology 1 Department of Mechanical Engineering, , Cambridge, Massachusetts 02139, USAA. MutoMassachusetts Institute of Technology 1 Department of Mechanical Engineering, , Cambridge, Massachusetts 02139, USAXin ChenMassachusetts Institute of Technology 1 Department of Mechanical Engineering, , Cambridge, Massachusetts 02139, USAGang ChenMassachusetts Institute of Technology 1 Department of Mechanical Engineering, , Cambridge, Massachusetts 02139, USAMatteo ChiesaMasdar Institute of Science and Technology 2 Program of Mechanical Engineering, , Abu Dhabi, United Arab Emirates
2008en
ABI
Аннотация
The present work outlines a general optimization methodology for hybrid systems consisting of photovoltaic (PV) and thermoelectric (TE) modules. Exemplarily, hybrid systems with hydrogenated microcrystalline silicon, hydrogenated amorphous silicon, and bulk heterojunction polymer thin-film solar cell for different solar TE generator efficiencies are evaluated. The proposed methodology optimizes the partitioning of the solar spectrum in order to yield the maximum conversion efficiency of a PV-TE hybrid system with a solar cell operating at ambient temperature.
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