Supergen Energy Networks hub 2018
Lead Research Organisation:
University of Bristol
Department Name: Electrical and Electronic Engineering
Abstract
Energy networks are vitally important enablers for the UK energy sector and therefore UK industry and society. The energy trilemma (energy security, environmental impact and social cost) presents many complex interconnected challenges which reach beyond the UK and have huge relevance internationally. These challenges vary considerably from region to region, and change as a result of technology and society changes. Therefore, the planning, design and operation of energy networks needs to be revisited and optimised. Current energy networks research does not fully embrace a whole systems approach and is therefore not developing a deep enough understanding of the interconnected and interdependent nature of energy network infrastructure.
The Supergen Energy Networks Hub will provide leadership, a core research programme and mechanisms/funding for the energy networks community to grow and come together to develop this deeper understanding and explore opportunities to shape energy networks which are fit for the future.
The research component of the Hub's activities comprises an interconnected and complementary series of work packages. The work packages are: WP1: Understanding, Shaping and Challenging; WP2: Energy Network Infrastructure; WP3: ICT and Data; WP4: Policy and Society; WP5: Markets and Regulation; WP6: Risk and Uncertainty. WP1 incorporates a co-evolutionary approach and brings the other work packages together in a structured way. WP2 is the backbone of the research, dealing with the physical infrastructure in a multi vector manner from the outset. WP3 to WP6 deal with aspects of energy networks that cut across, and are equally valid, for all vectors and have the ability to integrate and modernise network infrastructures. All work packages will consider both planning and design as well as operational aspects. Experimental work and demonstrators will be essential to progress in energy networks research and the Hub will bring these facilities to bear through WP1.
The Hub will engage with the energy networks communities throughout the research programme, to ensure that the work is informed by best practice and that the findings are widely visible and understood.
The main objectives of the communication and engagement activities will be to ensure the energy networks academic community are connected and coherent, and that their work has a high profile and deep level of understanding in the relevant Industrial, Governmental and Societal communities both nationally and internationally. This will maximise the chances of high impact outcomes in the energy networks space as well as promoting energy networks as an exciting and dynamic area to carry out research, thus attracting the brightest minds to get involved.
Communication and engagement activities will be a constant feature of the Hub and will be particularly energetic during the first twelve months in order to rapidly establish a brand, and an open and supportive culture within the relevant communities. Engagement activities will as far as possible be carried out in conjunction with other key organisations in the energy space, to maximise the value of the engagement activities.
The Hub aims to become a beacon for equality, diversity and inclusion. Our mission is to enhance equality of opportunity and create a positive, flourishing, safe and inclusive environment for everyone associated with the Hub, from staff, students, Advisory Board members and general Hub representation (at conferences, workshops and reviews). We recognise the need and the challenges to support early career researchers, and improve the balance of protected characteristics across the entire Hub community, such as race or ethnicity, gender reassignment, disability, sex, sexual orientation, age, religion or belief, pregnancy or maternity status, marital status or socio-economic background.
The Supergen Energy Networks Hub will provide leadership, a core research programme and mechanisms/funding for the energy networks community to grow and come together to develop this deeper understanding and explore opportunities to shape energy networks which are fit for the future.
The research component of the Hub's activities comprises an interconnected and complementary series of work packages. The work packages are: WP1: Understanding, Shaping and Challenging; WP2: Energy Network Infrastructure; WP3: ICT and Data; WP4: Policy and Society; WP5: Markets and Regulation; WP6: Risk and Uncertainty. WP1 incorporates a co-evolutionary approach and brings the other work packages together in a structured way. WP2 is the backbone of the research, dealing with the physical infrastructure in a multi vector manner from the outset. WP3 to WP6 deal with aspects of energy networks that cut across, and are equally valid, for all vectors and have the ability to integrate and modernise network infrastructures. All work packages will consider both planning and design as well as operational aspects. Experimental work and demonstrators will be essential to progress in energy networks research and the Hub will bring these facilities to bear through WP1.
The Hub will engage with the energy networks communities throughout the research programme, to ensure that the work is informed by best practice and that the findings are widely visible and understood.
The main objectives of the communication and engagement activities will be to ensure the energy networks academic community are connected and coherent, and that their work has a high profile and deep level of understanding in the relevant Industrial, Governmental and Societal communities both nationally and internationally. This will maximise the chances of high impact outcomes in the energy networks space as well as promoting energy networks as an exciting and dynamic area to carry out research, thus attracting the brightest minds to get involved.
Communication and engagement activities will be a constant feature of the Hub and will be particularly energetic during the first twelve months in order to rapidly establish a brand, and an open and supportive culture within the relevant communities. Engagement activities will as far as possible be carried out in conjunction with other key organisations in the energy space, to maximise the value of the engagement activities.
The Hub aims to become a beacon for equality, diversity and inclusion. Our mission is to enhance equality of opportunity and create a positive, flourishing, safe and inclusive environment for everyone associated with the Hub, from staff, students, Advisory Board members and general Hub representation (at conferences, workshops and reviews). We recognise the need and the challenges to support early career researchers, and improve the balance of protected characteristics across the entire Hub community, such as race or ethnicity, gender reassignment, disability, sex, sexual orientation, age, religion or belief, pregnancy or maternity status, marital status or socio-economic background.
Planned Impact
The scientific goal of Supergen Energy Networks Hub is to advance the UK strengths in whole-systems energy networks through a balanced effort between high-impact user-driven research and fundamental discovery-driven research. The Hub's Pathway to Impact will ensure these scientific developments lead to material impacts to the UK businesses, key industries, academic community, energy policies and the wider society in accessing clean, affordable and secure energy.
Impact beneficiaries:
A. Industry and Public Sector
The Hub shall undertake the following specific pathways to impact for industry and public sector stakeholders:
1. Translating research into applications. We will mobilise demonstrators across multiple sites, each with unique research, development and capabilities to suit business and the industry's diverse needs.
2. Clear dissemination of research outputs. Newcastle University's Urban Observatory and Decision Theatre, that consolidate and manipulate energy data and visualise integrated systems, will be used to disseminate findings through online and face-to-face workshops, to enable the Hub to maximise the routes to impact.
3. Case studies. Case study outputs from the 'shaping' and 'challenging' stages shall bring our cutting-edge research closer to real life energy issues. This will enable the key stakeholders to understand and access the relevant research and innovation. These case studies shall be disseminated through industry events.
B. Policy and Society
The Hub shall undertake the following specific pathways to impact for policy and society stakeholders:
1. Policy briefings will be disseminated to decision makers through our networks, and will be supplemented by face-to-face, tailored briefings with key partners such as BEIS, Ofgem, DfT.
2. Decision makers will be invited to planned workshops, where further information on policy briefings will also be provided.
3. Quarterly joint briefings by the Bio, Offshore and Energy Networks Hubs held in London, covering different themes, aimed at policy makers.
3. Academic Hub members will be supported in applying to the Royal Society Westminster and MEP-Scientist Pairing Schemes. These mechanisms will increase our engagement with policy makers and increase the impact of our work.
4. Policy impact will be enabled by our collaboration with other networks who engage with policy makers, such as the Energy Systems Catapult, UKERC and UKCRED.
5. The Hub's work touches on societal challenges such as big data challenges, energy security, air quality, energy equity and justice. As a result, we expect the research to be of interest to local media and will work with the partner Universities to publicise the outputs of the research to the local communities.
C. People
To cement the necessary cross-disciplinary methods of working, Hub researchers and PhD students are encouraged to spend time at other academic institutions and/or with our industrial and government partners. The involvement of Early Career Researchers will enable their development as highly skilled researchers with the theoretical and practical skills needed to transform organisations, addressing a recognised engineering skills gap. We intend to provide added training and education to both students and RAs, to give them appropriate skills in accordance with the Vitae Researcher Development Framework.
D. International stakeholders
The UK is internationally leading in smart energy systems research, and the UK industry is advanced in demonstrating new technologies, disruptive business models and markets to renovate legacy infrastructure. The Hub will promote the international applicability of UK energy networks research, through keynote and research presentations at academic and industry conferences overseas.
Impact beneficiaries:
A. Industry and Public Sector
The Hub shall undertake the following specific pathways to impact for industry and public sector stakeholders:
1. Translating research into applications. We will mobilise demonstrators across multiple sites, each with unique research, development and capabilities to suit business and the industry's diverse needs.
2. Clear dissemination of research outputs. Newcastle University's Urban Observatory and Decision Theatre, that consolidate and manipulate energy data and visualise integrated systems, will be used to disseminate findings through online and face-to-face workshops, to enable the Hub to maximise the routes to impact.
3. Case studies. Case study outputs from the 'shaping' and 'challenging' stages shall bring our cutting-edge research closer to real life energy issues. This will enable the key stakeholders to understand and access the relevant research and innovation. These case studies shall be disseminated through industry events.
B. Policy and Society
The Hub shall undertake the following specific pathways to impact for policy and society stakeholders:
1. Policy briefings will be disseminated to decision makers through our networks, and will be supplemented by face-to-face, tailored briefings with key partners such as BEIS, Ofgem, DfT.
2. Decision makers will be invited to planned workshops, where further information on policy briefings will also be provided.
3. Quarterly joint briefings by the Bio, Offshore and Energy Networks Hubs held in London, covering different themes, aimed at policy makers.
3. Academic Hub members will be supported in applying to the Royal Society Westminster and MEP-Scientist Pairing Schemes. These mechanisms will increase our engagement with policy makers and increase the impact of our work.
4. Policy impact will be enabled by our collaboration with other networks who engage with policy makers, such as the Energy Systems Catapult, UKERC and UKCRED.
5. The Hub's work touches on societal challenges such as big data challenges, energy security, air quality, energy equity and justice. As a result, we expect the research to be of interest to local media and will work with the partner Universities to publicise the outputs of the research to the local communities.
C. People
To cement the necessary cross-disciplinary methods of working, Hub researchers and PhD students are encouraged to spend time at other academic institutions and/or with our industrial and government partners. The involvement of Early Career Researchers will enable their development as highly skilled researchers with the theoretical and practical skills needed to transform organisations, addressing a recognised engineering skills gap. We intend to provide added training and education to both students and RAs, to give them appropriate skills in accordance with the Vitae Researcher Development Framework.
D. International stakeholders
The UK is internationally leading in smart energy systems research, and the UK industry is advanced in demonstrating new technologies, disruptive business models and markets to renovate legacy infrastructure. The Hub will promote the international applicability of UK energy networks research, through keynote and research presentations at academic and industry conferences overseas.
Organisations
Publications
Jiang X
(2023)
Feasible operation region of an electricity distribution network
in Applied Energy
Carvallo C
(2023)
A multi-energy multi-microgrid system planning model for decarbonisation and decontamination of isolated systems
in Applied Energy
Neaimeh M
(2023)
Democratizing electricity distribution network analysis
in Data-Centric Engineering
Rafferty M
(2022)
Sequential feature selection for power system event classification utilizing wide-area PMU data
in Frontiers in Energy Research
Liu X
(2022)
Simultaneous Estimation of Behind-the-Meter Solar and Wind Power at the Bulk Supply Point
in IEEE Access
Duggan C
(2022)
Very Low-Frequency Oscillation Source Localization on Ireland's Power System
in IEEE Open Journal of Industry Applications
Yu R
(2023)
Measurements and Review of Failure Mechanisms and Reliability Constraints of 4H-SiC Power MOSFETs Under Short Circuit Events
in IEEE Transactions on Device and Materials Reliability
Xu Y
(2023)
Optimization-based Ramping Reserve Allocation of BESS for AGC Enhancement
in IEEE Transactions on Power Systems
Yin G
(2023)
Online State Estimation of the Integrated Electricity and Gas System Based on the Gaseous Circuit Method
in IEEE Transactions on Smart Grid
Xu Y
(2023)
Data-Driven Load-Current Sharing Control for Multi-Stack Fuel Cell System with Circulating Current Mitigation
in IFAC-PapersOnLine
Cetenovic D
(2021)
An adaptive method for tuning process noise covariance matrix in EKF-based three-phase distribution system state estimation
in International Journal of Electrical Power & Energy Systems
Souto L
(2023)
Probabilistic impact assessment of lightning strikes on power systems incorporating lightning protection design and asset condition
in International Journal of Electrical Power & Energy Systems
Taylor P
(2022)
An interdisciplinary research perspective on the future of multi-vector energy networks
in International Journal of Electrical Power & Energy Systems
Veerakumar N
(2023)
PMU-based Real-time Distribution System State Estimation Considering Anomaly Detection, Discrimination and Identification
in International Journal of Electrical Power & Energy Systems
Vargas-Ferrer P
(2023)
Integration of high levels of electrolytic hydrogen production: Impact on power systems planning
in Journal of Cleaner Production
Shen C
(2024)
Electrothermal power cycling of 15 kV SiC PiN diodes
in Microelectronics Reliability
Gunaydin Y
(2022)
Unclamped inductive stressing of GaN and SiC Cascode power devices to failure at elevated temperatures
in Microelectronics Reliability
Shen C
(2022)
FEM-based analysis of avalanche ruggedness of high voltage SiC Merged-PiN-Schottky and Junction-Barrier-Schottky diodes
in Microelectronics Reliability
Oduro R
(2023)
Future pathways for energy networks: A review of international experiences in high income countries
in Renewable and Sustainable Energy Reviews
Asefi S
(2023)
Anomaly Detection, Classification and Identification Tool (ADCIT)
in Software Impacts
Asefi S
(2023)
Anomaly detection and classification in power system state estimation: Combining model-based and data-driven methods
in Sustainable Energy, Grids and Networks
Title | Generic MATLAB code to obtain trends in power system failures and weather patterns by season in the UK |
Description | Overview This folder contains a generic MATLAB code to obtain trends in power system failures reported to NaFIRS and the Met Office set of weather patterns by season in the UK. It is divided in 4 parts described as follows: Part 1 obtains weather-induced power system failures and daily weather patterns by season. Part 2 obtains trends in weather patterns and weather induced power system failures a few days before a power system failure occurs. Part 3 generates 2-D histograms showing the frequency of power system failures caused by specific weather phenomena by weather pattern and season. Part 4 generates Sankey diagrams showing the strength of trends in weather patterns and power system failures caused by specific weather phenomena by season. License and use permissions The code available through 10.5281/zenodo.10476553 is licensed as Creative Commons Attribution 4.0 International (CC BY 4.0), meaning you are free to copy, redistribute and adapt them, provided you give appropriate credit. Note that the code is made available as-is and without warranty. We cannot guarantee its accuracy, and accept no responsibility for any liability arising from its use. You are advised to examine the quality of the code for your intended purposes, and to consult the publications linked on this page. Attribution Please cite the paper describing our methods [1] and, if possible, link to 10.5281/zenodo.10476553. [1] Souto, L., Neal, R., Pope, J. O., Gonzalez, P. L. M., Wilkinson, J., Taylor, P. C. (2024): " Identification of weather patterns and transitions likely to cause power outages in the United Kingdom", Nature Communications Earth & Environment, DOI: 10.1038/s43247-024-01217-w. |
Type Of Technology | Software |
Year Produced | 2024 |
Open Source License? | Yes |
URL | https://zenodo.org/doi/10.5281/zenodo.10476552 |
Description | EPSRC Net Zero Week |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Industry/Business |
Results and Impact | EPSRC Net Zero Week - Poster prize winner |
Year(s) Of Engagement Activity | 2022 |
Description | EPSRC Net Zero Week |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Hosted a XSupergen Webinar as part of NetZero Week |
Year(s) Of Engagement Activity | 2022 |
Description | Gave an invited talk at Women in Power Global Summit on Nov 17, 2021 on 'From Smart Data to Smart Customers and Smart Cities'. (Professor Furong Li) |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Professor Furong Li gave an invited talk at Women in Power Global Summit on Nov 17, 2021 on 'From Smart Data to Smart Customers and Smart Cities'. |
Year(s) Of Engagement Activity | 2021 |
Description | Keynote Speaker at India's 21st National Power Systems Conference (NPSC 2020) (Furong Li) |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Keynote Speaker at India's 21st National Power Systems Conference (NPSC 2020) December 17-19, 2020, IIT Gandhinagar, Gujarat. |
Year(s) Of Engagement Activity | 2020 |
Description | Professor Furong Li chaired a tutorial session "Network charges for smart distribution networks" at International Conference for Electricity Distribution |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Industry/Business |
Results and Impact | Professor Furong Li chaired a tutorial session "Network charges for smart distribution networks" at International Conference for Electricity Distribution - September 2021 |
Year(s) Of Engagement Activity | 2021 |
Description | Professor Furong Li delivered lecture on 'Market Reform and Low Carbon Transition' as part of the UK/China Energy High-level Dialogue. |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Professor Furong Li delivered one of the three workshops with University of Cambridge in the 28th September 2021, 'Market Reform and Low Carbon Transition' as part of the UK/China Energy High-level Dialogue, on behalf of British Embassy in Beijing and Chinese Embassy in London. |
Year(s) Of Engagement Activity | 2021 |
Description | UK/China Workshop |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Presenting at UK-China Net Zero Energy and Power Workshop |
Year(s) Of Engagement Activity | 2022 |