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The microbial electrochemical Peltier heat: an energetic burden and engineering chance for primary microbial electrochemical technologies
Journal article   Peer reviewed

The microbial electrochemical Peltier heat: an energetic burden and engineering chance for primary microbial electrochemical technologies

Benjamin Korth, Thomas Maskow, Cristian Picioreanu and Falk Harnisch
Energy & environmental science, Vol.9(8), pp.2539-2544
01/08/2016

Abstract

Chemistry Chemistry, Multidisciplinary Energy & Fuels Engineering Engineering, Chemical Environmental Sciences Environmental Sciences & Ecology Life Sciences & Biomedicine Physical Sciences Science & Technology Technology
Bioelectrocalorimetry allows assessing the heat (enthalpy) balance and revealing the microbial electrochemical Peltier heat of biofilm electrodes. This effect accounts for a heat formation of 27 +/- 6 kJ mol(-1) of electrons transferred and represents a significant energy loss for primary microbial electrochemical technologies.

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