Bioelectrochemical Systems: Microbiology, Catalysts, Processes and Applications

Yuan, Heyang

01 November 2017

The treatment of water and wastewater is energy intensive, and there is an urgent need to develop new approaches to address the water-energy challenges. Bioelectrochemical systems (BES) are energy-efficient technologies that can treat wastewater and simultaneously achieve multiple functions such as energy generation, hydrogen production and/or desalination. The objectives of this dissertation are to understand the fundamental microbiology of BES, develop cost-effective cathode catalysts, optimize the process engineering and identify the application niches. It has been shown in Chapter 2 that electrochemically active bacteria can take advantage of shuttle-mediated EET and create optimal anode salinities for their dominance. A novel statistical model has been developed based on the taxonomic data to understand and predict functional dynamics and current production. In Chapter 3, 4 and 5, three cathode catalyst (i.e., N- and S- co-doped porous carbon nanosheets, N-doped bamboo-like CNTs and MoS2 coated on CNTs) have been synthesized and showed effective catalysis of oxygen reduction reaction or hydrogen evolution reaction in BES. Chapter 6, 7 and 8 have demonstrated how BES can be combined with forward osmosis to enhance desalination or achieve self-powered hydrogen production. Mathematical models have been developed to predict the performance of the integrated systems. In Chapter 9, BES have been used as a research platform to understand the fate and removal of antibiotic resistant genes under anaerobic conditions. The studies in this dissertation have collectively demonstrated that BES may hold great promise for energy-efficient water and wastewater treatment. / Ph. D.

environmental engineering

bioelectrochemical systems

wastewater treatment

desalination

microbial community

antibiotic resistance genes

catalytic materials

Investigating the Electrochemical Conversion of Carbon Dioxide to Fuels

Billy, Joshua Thomas, Billy

24 May 2018

No description available.

Chemistry

Energy

Materials Science

electrochemistry

chemistry

carbon dioxide

CO2

electrocatalysis

materials

copper

CO2 conversion

catalytic materials

catalysis

Swellable Organically Modified Silica as a Novel Catalyst Scaffold for Catalytic Treatment of Water Contaminated with Trichloroethylene

Celik, Gokhan

11 September 2018

No description available.

Chemical Engineering

Swellable Organically Modified Silica

SOMS

Hydrodechlorination

Trichloroethylene

Organosilicate

Swelling

Smart Catalytic Materials

Stimuli-Induced Materials

Palladium

Pd-Al2O3

Deactivation

Hydrophobicity

Groundwater remediation

Polymer Templating Synthesis, Adsorption and Structural Properties of Alumina-Based Ordered Mesoporous Materials

Grant, Stacy M.

03 October 2011

No description available.

Chemistry

Materials Science

ordered mesoporous materials

polymer templated

alumina

aluminum oxide

alumina-based oxides

mesoporous oxides

high surface area catalytic materials