THURSDAY 13 SEPTEMBER 2018, 9.00AM - 5.00PM
LECTURE THEATRE E, STAG HILL CAMPUS, UNIVERSITY OF SURREY,
GUILDFORD GU2 7XH
PROGRAMME
09:00-09:25 REGISTRATION TEA/COFFEE Lower Concourse
Lecture Theatre E:
09:25-09:30 Dr Constantina Lekakou, University of Surrey:
Welcome and introductory remarks
09:30-10:00 Dr Duo Zhang, University of Surrey:
Toward electrode design for redox flow batteries using a 3D pore-scale lattice Boltzmann model
10:00-10:30 Dr Constantina Lekakou, University of Surrey:
Modelling of electrochemical transport in supercapacitors
A continuum, volume-averaged model will be presented including pore size distribution of the electrode material. Simulation results will be compared against experimental data.
10:30-11:00 TEA/COFFEE Lower Concourse
Lecture Theatre E:
11:00-11:30 Ms Dina Ibrahim Abouelamaiem, University College London (UCL):
Establishing an equivalent series circuit for porous carbon-based supercapacitors
using a truncated version of the standard transmission line model.
11:30-12:00 Dr Teng Zhang, University of Surrey:
"Mechanistic modelling of Li-S batteries
12:00-12:30 Mr Josh Bates, PhD student, University of Surrey:
Modelling of electrochemical transport in a Li-S battery
using a continuum, volume-averaged model with a pore size distribution of the electrode material.
12:30-13:30 LUNCH Lower Concourse
Lecture Theatre E:
13:30-14:00 Mr Josh Bates, PhD student, University of Surrey:
Modelling of electrochemical transport in a Li-O2 battery
using a continuum, volume-averaged model with a pore size distribution of the electrode material.
14:00-14:30 Dr Emilia Olson, University of Surrey:
First principle simulations of the adsorption, intercalation, and migration of alkaline metals (Li/Na/K) in carbon-based battery electrode materials
14:30-15:00 Dr Benjamin Morgan, University of Bath:
DFT molecular dynamics simulations of solid-lithium-ion electrolytes: Understanding structure-conductivity relationships
15:00-15:30 TEA/COFFEE Lower Concourse
Lecture Theatre E:
15:30-16:00 Dr Edmund Dickinson, National Physical Laboratory (NPL):
Continuum modelling of electrochemical impedance spectroscopy (EIS) using Li-ion test cells
16:00-16:30 Dr Matthew Phillips, University of Surrey:
Modelling and design of a LiFePO4 battery-supercapacitor hybridised at material level using equivalent electrical circuit models.
16:30-17:00 t.b.a. talk on the modelling / simulations of the aging of batteries
LECTURE THEATRE E, STAG HILL CAMPUS, UNIVERSITY OF SURREY,
GUILDFORD GU2 7XH
PROGRAMME
09:00-09:25 REGISTRATION TEA/COFFEE Lower Concourse
Lecture Theatre E:
09:25-09:30 Dr Constantina Lekakou, University of Surrey:
Welcome and introductory remarks
09:30-10:00 Dr Duo Zhang, University of Surrey:
Toward electrode design for redox flow batteries using a 3D pore-scale lattice Boltzmann model
10:00-10:30 Dr Constantina Lekakou, University of Surrey:
Modelling of electrochemical transport in supercapacitors
A continuum, volume-averaged model will be presented including pore size distribution of the electrode material. Simulation results will be compared against experimental data.
10:30-11:00 TEA/COFFEE Lower Concourse
Lecture Theatre E:
11:00-11:30 Ms Dina Ibrahim Abouelamaiem, University College London (UCL):
Establishing an equivalent series circuit for porous carbon-based supercapacitors
using a truncated version of the standard transmission line model.
11:30-12:00 Dr Teng Zhang, University of Surrey:
"Mechanistic modelling of Li-S batteries
12:00-12:30 Mr Josh Bates, PhD student, University of Surrey:
Modelling of electrochemical transport in a Li-S battery
using a continuum, volume-averaged model with a pore size distribution of the electrode material.
12:30-13:30 LUNCH Lower Concourse
Lecture Theatre E:
13:30-14:00 Mr Josh Bates, PhD student, University of Surrey:
Modelling of electrochemical transport in a Li-O2 battery
using a continuum, volume-averaged model with a pore size distribution of the electrode material.
14:00-14:30 Dr Emilia Olson, University of Surrey:
First principle simulations of the adsorption, intercalation, and migration of alkaline metals (Li/Na/K) in carbon-based battery electrode materials
14:30-15:00 Dr Benjamin Morgan, University of Bath:
DFT molecular dynamics simulations of solid-lithium-ion electrolytes: Understanding structure-conductivity relationships
15:00-15:30 TEA/COFFEE Lower Concourse
Lecture Theatre E:
15:30-16:00 Dr Edmund Dickinson, National Physical Laboratory (NPL):
Continuum modelling of electrochemical impedance spectroscopy (EIS) using Li-ion test cells
16:00-16:30 Dr Matthew Phillips, University of Surrey:
Modelling and design of a LiFePO4 battery-supercapacitor hybridised at material level using equivalent electrical circuit models.
16:30-17:00 t.b.a. talk on the modelling / simulations of the aging of batteries
