Thermo-chemical power generation integrated with forced convection cooling

One specific method for converting wasted heat — the heat that doesn’t need to be actively removed — into electrical energy through liquid chemical reactions has been studied for several decades. This method, called thermo-electrochemical conversion, involves the submergence of two electrodes held at different temperatures in a liquid electrolyte encased in a closed vessel, where a reversible reduction-oxidation (“redox”) reaction occurs. This reaction generates an electric current through an external circuit. Research on thermo-electrochemical conversion has been mostly carried out for static fluids.

In this study, a team of researchers from Tokyo Institute of Technology integrated thermo-electrochemical conversion with forced convection cooling to partly recover the aforementioned free-energy portion, presently lost during forced-convection cooling, in the form of electric power. In the cell developed by these researchers, the electrolyte liquid is flown as a coolant between two parallel electrodes, one of which is a heat-releasing object to be cooled. The redox reaction occurring in the cell generates electricity; this electricity can be used to drive the coolant flow through the cell. This work delves into uncharted territory, as the concept and feasibility of self-sustaining liquid-cooling system have not been previously demonstrated.

The researchers carried out detailed studies to elucidate how the cooling and power generation works in this type of forced-flow thermo-electrochemical system. These novel findings are expected to provide a basic strategy for scaled-up future applications. “Although the prototype cell developed in this study was small and thus the power generation performance was limited, this technology has much scope for improvement through optimizing the geometry of the liquid channel, electrode material, and the redox chemicals,” remarks Prof. Yoichi Murakami, the principle investigator of this project.

Through further studies, this concept proposed by the researchers can hopefully find its application in near future, providing a new technological platform for forced convection cooling. “Through this approach, we can partially recover the free energy portion of the thermal energy currently lost during forced convection cooling, and this acquired electric power can be used for pumping the coolant in forced convection cooling,” concludes Prof. Murakami.

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