|
Performance study and analysis of an inclined concentrated photovoltaic-phase change material system
|
|
Cooling concentrator photovoltaic systems using various configurations of phase-change material heat sinks
|
|
Performance analysis of a new concentrator photovoltaic system integrated with phase change material and water jacket
|
|
Performance Enhancement of Concentrated Photovoltaic System Using Phase-Change Material
|
|
Cooling of Concentrated Photovoltaic System Using Various Configurations of Phase-Change Material Heat Sink
|
|
Analysis of a New Hybrid Water-Phase Change Material Heat Sink for Low Concentrated Photovoltaic Systems
|
|
Chapter 2.15 - Comparative Study of Active and Passive Cooling Techniques for Concentrated Photovoltaic Systems
|
|
An Investigation of a Novel Structure Polycrystalline Silicon Solar Cell for Concentrated Solar Power
|
|
|
Thermal management of concentrator photovoltaic systems using new configurations of phase change material heat sinks
|
|
|
Performance evaluation of concentrator photovoltaic systems integrated with a new jet impingement-microchannel heat sink and heat spreader
|
|
|
Optimization and parametric analysis of a multi-junction high-concentrator PV cell combined with a straight fins heat sink
|
|
|
Performance assessment of a novel integrated concentrator photovoltaic system with encapsulated phase change materials
|
|
|
Thermal control of temperature-sensitive electronic components using a vapor chamber integrated with a straight fins heat sink: An experimental investigation
|
|
|
Passive cooling of highly-concentrator triple-junction solar cell using a straight-finned heat sink: An experimental investigation
|
|
|
Performance improvement of single-junction photovoltaic systems using a new design of a heat pipe-based heat sink: Experimental study
|
|
|
Passive thermal control of a triple-junction solar cell at high concentrations using various finned heat sink configurations
|
|
|
Studying the Coupling of a Concentrator Photovoltaic Cell with Thermoelectric Generator
|
|
|
The Potential and Limitations of Using Geothermal-Sourced Chiller Plants to Eliminate Cooling Towers
|
|