Elizabeth Susan Heidrich
Cited by
Cited by
Determination of the internal chemical energy of wastewater
ES Heidrich, TP Curtis, J Dolfing
Environmental science & technology 45 (2), 827-832, 2011
Performance of a pilot scale microbial electrolysis cell fed on domestic wastewater at ambient temperatures for a 12 month period
ES Heidrich, SR Edwards, J Dolfing, SE Cotterill, TP Curtis
Bioresource technology 173, 87-95, 2014
Production of hydrogen from domestic wastewater in a pilot-scale microbial electrolysis cell
ES Heidrich, J Dolfing, K Scott, SR Edwards, C Jones, TP Curtis
Applied microbiology and biotechnology 97, 6979-6989, 2013
Avenues to the financial viability of microbial electrolysis cells [MEC] for domestic wastewater treatment and hydrogen production
DC Aiken, TP Curtis, ES Heidrich
international journal of hydrogen energy 44 (5), 2426-2434, 2019
Low Temperature Domestic Wastewater Treatment in a Microbial Electrolysis Cell with 1 m2 Anodes: Towards System Scale‐Up
SE Cotterill, J Dolfing, C Jones, TP Curtis, ES Heidrich
Fuel Cells 17 (5), 584-592, 2017
Incorporating microbial community data with machine learning techniques to predict feed substrates in microbial fuel cells
W Cai, KL Lesnik, MJ Wade, ES Heidrich, Y Wang, H Liu
Biosensors and Bioelectronics 133, 64-71, 2019
Temperature, inocula and substrate: Contrasting electroactive consortia, diversity and performance in microbial fuel cells
ES Heidrich, J Dolfing, MJ Wade, WT Sloan, C Quince, TP Curtis
Bioelectrochemistry 119, 43-50, 2018
Pilot-scale Microbial Fuel Cells (MFCs): A meta-analysis study to inform full-scale design principles for optimum wastewater treatment
H Bird, ES Heidrich, DD Leicester, P Theodosiou
Journal of Cleaner Production 346, 131227, 2022
Is bioelectrochemical energy production from wastewater a reality? Identifying and standardising the progress made in scaling up microbial electrolysis cells
D Leicester, J Amezaga, E Heidrich
Renewable and Sustainable Energy Reviews 133, 110279, 2020
Optimising the hydraulic retention time in a pilot-scale microbial electrolysis cell to achieve high volumetric treatment rates using concentrated domestic wastewater
DD Leicester, JM Amezaga, A Moore, ES Heidrich
Molecules 25 (12), 2945, 2020
Quantification of effective exoelectrogens by most probable number (MPN) in a microbial fuel cell
ES Heidrich, TP Curtis, S Woodcock, J Dolfing
Bioresource technology 218, 27-30, 2016
Determination of the relationship between the energy content of municipal wastewater and its chemical oxygen demand
Z Dai, ES Heidrich, J Dolfing, AP Jarvis
Environmental Science & Technology Letters 6 (7), 396-400, 2019
Community assembly in wastewater-fed pilot-scale microbial electrolysis cells
SE Cotterill, J Dolfing, TP Curtis, ES Heidrich
Frontiers in Energy Research 6, 98, 2018
Understanding the complexity of wastewater: the combined impacts of carbohydrates and sulphate on the performance of bioelectrochemical systems
F Zhao, ES Heidrich, TP Curtis, J Dolfing
Water Research 176, 115737, 2020
Bioelectrochemical systems for energy valorization of waste streams
MI San-Martín, DD Leicester, ES Heidrich, RM Alonso, R Mateos, ...
Energy Systems and Environment, 2018
The effect of anode potential on current production from complex substrates in bioelectrochemical systems: a case study with glucose
F Zhao, ES Heidrich, TP Curtis, J Dolfing
Applied Microbiology and Biotechnology 104, 5133-5143, 2020
Microbial electrolysis cells for hydrogen production
S Cotterill, E Heidrich, T Curtis
Microbial Electrochemical and Fuel Cells, 287-319, 2016
A scalable model of fluid flow, substrate removal and current production in microbial fuel cells
JR Day, ES Heidrich, TS Wood
Chemosphere 291, 132686, 2022
Niches for bioelectrochemical systems in sewage treatment plants
S Puig, JA Baeza, J Colprim, S Cotterill, A Guisasola, Z He, E Heidrich, ...
Innovative Wastewater Treatment & Resource Recovery Technologies; Impacts on …, 2017
Evaluation of microbial electrolysis cells in the treatment of domestic wastewate
ES Heidrich
Newcastle University, 2012
The system can't perform the operation now. Try again later.
Articles 1–20