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Thermally regenerative electrochemical cycle on supercapacitors

wangxun - Posted on 19 February 2016

Project Description: 

When heating supercapacitor to a higher temperature, ion distribution in electric double layer will change. In this case, a carnot-like cycle can be designed. Low temperature heat can be harvested and turned into electricity. This thermally regenerative electrochemical cycle gives a new trail of thinking in utilizing waste heat, which might relieve the pressure from energy shortage.

Research Project Details
Project Duration: 
09/2016 to 12/2017
Project Significance: 
As worldwide energy demand increases rapidly and the concerns towards fossil fuels depletion explode, thermal energy is becoming one of the most promising alternatives, especially low grade heat which is abundantly released from industrial wasted process, solar thermal energy and geothermal energy. This project proposes a new way to generate electricity from heat energy based on thermal effect in electrochemical properties.
Results Achieved: 
No result has been published yet.
Remarks: 
Molecular dynamic simulation will be used in our case. HPC will be significant in computing and analyzing.