|Energy recovery from human faeces via gasification: a thermodynamic equilibrium modelling approach|
T Onabanjo, K Patchigolla, ST Wagland, B Fidalgo, A Kolios, E McAdam, ...
Energy conversion and management 118, 364-376, 2016
|State-level assessment of the waste-to-energy potential (via incineration) of municipal solid wastes in Nigeria|
TO Somorin, S Adesola, A Kolawole
Journal of Cleaner Production 164, 804-815, 2017
|An experimental investigation of the combustion performance of human faeces|
T Onabanjo, AJ Kolios, K Patchigolla, ST Wagland, B Fidalgo, N Jurado, ...
Fuel 184, 780-791, 2016
|Thermodynamic analysis of a gamma type Stirling engine in an energy recovery system|
A Sowale, AJ Kolios, B Fidalgo, T Somorin, A Parker, L Williams, ...
Energy conversion and management 165, 528-540, 2018
|Conceptual energy and water recovery system for self-sustained nano membrane toilet|
DP Hanak, AJ Kolios, T Onabanjo, ST Wagland, K Patchigolla, B Fidalgo, ...
Energy Conversion and Management 126, 352-361, 2016
|Life-cycle assessment of self-generated electricity in Nigeria and Jatropha biodiesel as an alternative power fuel|
TO Somorin, G Di Lorenzo, AJ Kolios
Renewable energy 113, 966-979, 2017
|Faecal-wood biomass co-combustion and ash composition analysis|
TO Somorin, AJ Kolios, A Parker, E McAdam, L Williams, S Tyrrel
Fuel 203, 781-791, 2017
|Conceptual environmental impact assessment of a novel self-sustained sanitation system incorporating a quantitative microbial risk assessment approach|
A Anastasopoulou, A Kolios, T Somorin, A Sowale, Y Jiang, B Fidalgo, ...
Science of the Total Environment 639, 657-672, 2018
|Drying characteristics of faecal sludge from different on-site sanitation facilities|
S Getahun, S Septien, J Mata, T Somorin, I Mabbett, C Buckley
Journal of environmental management 261, 110267, 2020
|Non-isothermal thermogravimetric kinetic analysis of the thermochemical conversion of human faeces|
B Fidalgo, M Chilmeran, T Somorin, A Sowale, A Kolios, A Parker, ...
Renewable energy 132, 1177-1184, 2019
|Probabilistic performance assessment of complex energy process systems–the case of a self-sustained sanitation system|
A Kolios, Y Jiang, T Somorin, A Sowale, A Anastasopoulou, EJ Anthony, ...
Energy conversion and management 163, 74-85, 2018
|Design and commissioning of a multi-mode prototype for thermochemical conversion of human faeces|
N Jurado, T Somorin, AJ Kolios, S Wagland, K Patchigolla, B Fidalgo, ...
Energy conversion and management 163, 507-524, 2018
|Prospects of deployment of Jatropha biodiesel-fired plants in Nigeria’s power sector|
TO Somorin, AJ Kolios
Energy 135, 726-739, 2017
|Energy efficiency and environmental life cycle assessment of jatropha for energy in nigeria: a “well-to-wheel” perspective|
T Onabanjo, G Di Lorenzo
Energy Sustainability 56840, V001T06A004, 2015
|Pyrolysis characteristics and kinetics of human faeces, simulant faeces and wood biomass by thermogravimetry–gas chromatography–mass spectrometry methods|
T Somorin, A Parker, E McAdam, L Williams, S Tyrrel, A Kolios, Y Jiang
Energy Reports 6, 3230-3239, 2020
|Non-isothermal drying kinetics of human feces|
T Somorin, B Fidalgo, S Hassan, A Sowale, A Kolios, A Parker, L Williams, ...
Drying technology 38 (14), 1819-1827, 2020
|Valorisation of human excreta for recovery of energy and high-value products: a mini-review|
Valorization of Biomass to Value-Added Commodities, 341-370, 2020
|Modelling of microbial fuel degradation in liquid fuels for a gas turbine engine application|
T Onabanjo, G Di Lorenzo, E Goodger, Y Somorin
International Biodeterioration & Biodegradation 109, 191-201, 2016
|The development of a model for the assessment of biofouling in gas turbine system|
T Onabanjo, G Di Lorenzo, E Goodger, P Pilidis
Journal of engineering for gas turbines and power 136 (6), 2014
|Isothermal drying characteristics and kinetics of human faecal sludges|
T Somorin, S Getahun, S Septien, I Mabbet, A Kolios, C Buckley
Gates Open Research 4, 2020