Conrad Donovan scite author profile

Sediment microbial fuel cells (SMFCs) are considered to be an alternative renewable power source for remote monitoring. There are two main challenges to using SMFCs as power sources: 1) a SMFC produces a low potential at which most sensor electronics do not operate, and 2) a SMFC cannot provide continuous power, so energy from the SMFC must be stored and then used to repower sensor electronics intermittently. In this study, we developed a SMFC and a power management system (PMS) to power a batteryless, wireless sensor. A SMFC operating with a microbial anode and cathode, located in the Palouse River, Pullman, Washington, U.S.A., was used to demonstrate the utility of the developed system. The designed PMS stored microbial energy and then started powering the wireless sensor when the SMFC potential reached 320 mV. It continued powering until the SMFC potential dropped below 52 mV. The system was repowered when the SMFC potential increased to 320 mV, and this repowering continued as long as microbial reactions continued. We demonstrated that a microbial fuel cell with a microbial anode and cathode can be used as an effective renewable power source for remote monitoring using custom-designed electronics.

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Power management system for a 2.5W remote sensor powered by a sediment microbial fuel cell

Donovan

Dewan

Peng

et al. 2011

Journal of Power Sources

204

130

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Three-dimensional biofilm structure quantification

Beyenal

Donovan

Lewandowski

et al. 2004

Journal of Microbiological Methods

194

120

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Evaluating the performance of microbial fuel cells powering electronic devices

Dewan

Donovan

Heo

et al. 2010

Journal of Power Sources

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Sediment microbial fuel cell powering a submersible ultrasonic receiver: New approach to remote monitoring

Donovan

Dewan

Heo

et al. 2013

Journal of Power Sources

114

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Conrad Donovan

Batteryless, Wireless Sensor Powered by a Sediment Microbial Fuel Cell

Power management system for a 2.5W remote sensor powered by a sediment microbial fuel cell

Three-dimensional biofilm structure quantification

Evaluating the performance of microbial fuel cells powering electronic devices

Sediment microbial fuel cell powering a submersible ultrasonic receiver: New approach to remote monitoring

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