Electrode Separation and Operating Orientation: Mechanisms for Maximizing Performance of Cu/Cu2+ Aqueous Thermogalvanic Cells

Date Published	11/2013
Publication Type	Conference Paper

Authors	Hechao Li Andrey Gunawan Patrick E Phelan Daniel A Buttry Vladimiro Mujica Robert A Taylor Ravi S Prasher
DOI	10.1115/IMECE2013-66106
Abstract	Aqueous thermogalvanic cells have been studied since 1825, and have largely been explored in the past two decades because of their potential to convert low-temperature waste heat to electricity [1, 2]. However, even though these cells have long been known in the electrochemistry community, they have not received much attention from the thermal transport community. This is surprising given that their performance is highly dependent on controlling both thermal and mass (ionic) transport.
Conference Name	ASME 2013 International Mechanical Engineering Congress and Exposition
Year of Publication	2013
Pagination	V06AT07A074–V06AT07A074
Publisher	American Society of Mechanical Engineers
Keywords	Electrochemistry Electrodes Low temperature Separation (Technology) Waste heat
Organizations	Energy Technologies Area Energy Storage and Distributed Resources Division Thermal Energy Group
Research Areas	Prasher Lab
Download citation	DOI \| Google Scholar \| BibTeX \| Endnote tagged