Z-Scheme Microbial Photoelectrochemical System (MPS) For Wastewater-To-Chemical Fuel Conversion

The device combines a biophotoanode with a semiconductor photocathode. When light shines on the photocathode, a sufficient voltage is produced to facilitate electrohydrogenesis by electrogenic bacteria in the biophotoanode that generate electrons from …

The device combines a photoanode with a semiconductor photocathode. When light shines on the photocathode, a sufficient voltage is produced to facilitate electro hydro genesis by electrogenic bacteria in the photoanode that generate electrons from organic waste. The photocathode and photoanode are separated by a photon exchange membrane. The device directly interfaces the photoanode with the photocathode forming what is known as a Z-scheme microbial photoelectrochemical system.

A proof of concept of the device was able to achieve 1% solar conversion efficiency as well as a soluble chemical oxygen demand (SCOD) removal rate of 200 mg/L/day and conversion of near opaque wastewater to nearly clear water.

Abstract

With the drastic increase in the human population, there is an ever-growing demand for energy and clean water. Distinct strategies have been used to address these two needs separately; municipal wastewater is collected by local wastewater plants for purification and subsequent reuse as reclaimed water, while energy is produced largely by burning hydrocarbons.

Millions of tons of wastewater are produced from industrial and agricultural operations each year and about 25 billion US dollars are spent annually for wastewater treatment in the United States alone. Meanwhile, the use of natural gas/petroleum generates greenhouse gases and toxic chemicals. There is an urgent need to employ energy-efficient processes for wastewater treatment, and simultaneously recover the energy stored in organic matter in wastewater.

Website

https://techtransfer.universityofcalifornia.edu/NCD/25599.html?utm_source=AUTMGTP&utm_medium=webpage&utm_term=ncdid_25599&utm_campaign=TechWebsites

Advantages

Efficiently produces hydrogen gas from solar energy while in turn remediating organic waste from wastewater.

Potential Applications

  • Bioproduction of hydrogen gas 
  • Water bioremediation

Contact Information

Name: Jeff Jackson

Email: jjackso6@ucsc.edu

Phone: (831) 459-3976