Toggle Main Menu Toggle Search

Open Access padlockePrints

Browsing publications by Dr Matthew Deakin.

Newcastle AuthorsTitleYearFull text
Dr Matthew Deakin
Professor Phil Taylor
$\beta$-Ga2O3 in Power Electronics Converters: Opportunities & Challenges2024
Dr Matthew Deakin
Multiplexing Power Converters for Cost-Effective and Flexible Soft Open Points2024
Dr Matthew Deakin
Dr Xu Deng
Reconfigurable power converters with increased utilization for unbalanced power distribution system applications2024
Dr Matthew Deakin
Dr Xu Deng
Reconfigurable power converters with increased utilization for unbalanced power distribution system applications2024
Dr Matthew Deakin
Dr Ilias Sarantakos
Dr David Greenwood
Professor Janusz Bialek
Professor Sara Walker
et al.
Comparative analysis of services from soft open points using cost–benefit analysis2023
Dr Myriam Neaimeh
Dr Matthew Deakin
Democratizing electricity distribution network analysis2023
Dr Ilias Sarantakos
Dr Meltem Peker Sarhan
Dr Natalia Zografou-Barredo
Dr Matthew Deakin
Professor Haris Patsios
et al.
A Robust Mixed-Integer Convex Model for Optimal Scheduling of Integrated Energy Storage – Soft Open Point Devices2022
Professor Phil Taylor
Dr Matthew Deakin
Professor Sara Walker
An interdisciplinary research perspective on the future of multi-vector energy networks2022
Dr David Greenwood
Dr Matthew Deakin
Dr Ilias Sarantakos
Dr Hannah Bloomfield
Capacity Value of Interconnectors for Resource Adequacy Assessment in Multi-Region Systems2022
Dr Matthew Deakin
Professor Phil Taylor
Professor Janusz Bialek
Design and operation of Hybrid Multi-Terminal Soft Open Points using Feeder Selector Switches for flexible distribution system interconnection2022
Dr Hannah Bloomfield
Dr Matthew Deakin
Dr David Greenwood
Hourly historical and near-future weather and climate variables for energy system modelling2022
Dr Matthew Deakin
Dr Ilias Sarantakos
Dr David Greenwood
Professor Janusz Bialek
Hybrid Open Points: an Efficient Tool for Increasing Network Capacity in Distribution Systems2022
Dr Matthew Deakin
Dr David Greenwood
Professor Phil Taylor
Professor Sara Walker
Analysis of Network Impacts of Frequency Containment provided by Domestic-Scale Devices using Matrix Factorization2021
Dr Matthew Deakin
Dr Hannah Bloomfield
Dr David Greenwood
Sarah Sheehy
Professor Sara Walker
et al.
Impacts of Heat Decarbonization on System Adequacy Considering Increased Meteorological Sensitivity2021
Dr Matthew Deakin
Sarah Sheehy
Dr David Greenwood
Professor Sara Walker
Professor Phil Taylor
et al.
Calculations of System Adequacy Considering Heat Transition Pathways2020
Dr Matthew Deakin
Professor Sara Walker
Professor Phil Taylor
Flexibility from multi-vector systems: Beyond low-voltage network modelling2020
Dr Matthew Deakin
Professor Sara Walker
Professor Phil Taylor
Flexibility from Multi-Vector Systems: Beyond LV Network Modelling2020