News

Techno-economic-environmental evaluation framework for integrated gas and electricity distribution networks considering impact of different storage configurations

25.09.2020

blog image
square

Researchers and Academics from the EPSRC funded Supergen Energy Networks Hub and the National Centre for Energy Systems Integration (CESI), Dr Adib Allahham, Dr Hamid Hosseini, Dr Vahid Vahidinasab, Dr Sara Walker & Professor Phil Taylor, recently published their journal paper in the International Journal of Electrical Power and Energy Systems.

About the Author

Dr Adib Allahham is a Research Associate within the Power Systems Research Team, School of Engineering, Newcastle University and currently works on several projects including the Supergen Energy Networks Hub and EPSRC National Centre for Energy Systems Integration (CESI).  Adib received his PhD from the University of Joseph Fourier in the field of control engineering. His research involves projects around the electricity distribution and off-grid power sector and multi-vector energy systems. These projects are addressing the need to cost efficiently decarbonise the energy sector over the next thirty years by facilitating innovative network integration of new generation, and the integration of different energy vectors (electricity, gas, and heat). Computer simulation, laboratory investigation and demonstration projects are used together to produce new knowledge that delivers this requirement. He has published more than 25 technical papers in leading journals and conferences.

Adib Allahham contact details: adib.allahham@ncl.ac.uk @adiballahham and profile details

About the Paper
Governments around the world are working hard to reduce their Greenhouse Gas (GHG) emissions. In the UK, the government has set a target of “Net Zero” GHG emissions by 2050 in order to reduce contribution to global warming [1]. This necessitates the integration of more Renewable Energy Sources (RESs) into the energy networks and consequently reduction in the use of fossil fuels while meeting and reducing energy demand.

To achieve this objective flexibly and reliably, it may be necessary to couple the energy networks using several network coupling components such as gas turbine (GT), power-to-gas (P2G) and Combined Heat and Power (CHP) [2]. Also, the energy networks may benefit from different types of Energy Storage Systems (ESSs) in order to be able to compensate for any energy carrier deficit or other constraints in energy supply in any of the networks [3].

In order to comprehensively study multi-vector integrated energy systems and analyse ESS potentials, a Techno-Economic-Environmental (TEE) evaluation framework needs to be designed to investigate the mutual impacts of each of the networks on the operational, economic and environmental performance of others. This is the main aim of this study.

The paper divides ESS into two different categories of Single Vector Storage (SVS) and Vector Coupling Storage (VCS).

Figure 1: A conceptual representation of SVS and VCS storage devices in an Integrated Gas and Electricity Distribution Network (IGEDN)

A literature review looked at models which have been used to perform planning of the whole energy system of several countries taking into account all layers of the energy system, as well as different types of energy storage in multi-vector energy networks. As well as using a case study from a rural area in Scotland which is connected to the electricity distribution network only, also benefitting from a small wind farm and roof-top PV’s.

Fig. 2. The schematic of the studied rural area in Scotland including the separate gas and electricity networks (without considering P2G and VCS) and IGEDN (with considering P2G and VCS) [4].

A framework was developed as a result of the literature review carried out and this was tested on the real-world rural area in Scotland.  The evaluation framework provides the ability to perform TEE operational analysis of future scenarios of Integrated Gas and Electricity Distribution Networks (IGEDN).  Several specifications and achievements from this study are identified in the paper which is available to read online and will be published in the November issue of the Journal.



References

[1] Committee on Climate Change. Net Zero – The UKś contribution to stopping global warming, 2019. Google Scholar

[2] S. Clegg, P. MancarellaIntegrated electrical and gas network flexibility assessment in low-carbon multi-energy systems IEEE Trans Sustainable Energy, 7 (2) (2016), pp. 718-731 CrossRefView Record in ScopusGoogle Scholar

[3] S.H.R. Hosseini, A. Allahham, P. TaylorTechno-economic-environmental analysis of integrated operation of gas and electricity networks 2018 IEEE International Symposium on Circuits and Systems (ISCAS) (2018), pp. 1-5 CrossRefView Record in ScopusGoogle Scholar

[4] EPSRC National Centre for Energy Systems Integration (CESI). https://www.ncl.ac.uk/cesi/, 2017.

green box

Latest

News & Events

4.10.2024

Decision Making in Energy Networks

Event Featured News

blog image

27.09.2024

Future of Energy Network Regulation

Featured News

Colleagues from the Supergen Energy Networks Hub, host a roundtable in London with key stakeholders from across the energy landscape.

blog image

27.09.2024

Phil Taylor elected a Fellow of the Royal Academy of Engineering

Featured News

Phil Taylor elected Fellow of the Royal Academy of Engineering

blog image

27.09.2024

UK-China Visit to University of Bath

Featured News

University of Bath hosts UK-China visit

blog image

27.09.2024

Participation in the International Youth Conference on Energy

Blog Featured News Publication

Bouthaina is a PhD student at Mohammadia School of Engineering in Morocco and a member of the SEN ECR Committee.

blog image

27.09.2024

Blog-Wei Gan

Blog Featured News

Wei Gan, currently a Research Associate in the School of Engineering at Cardiff University, working under the supervision of Prof. Jianzhong Wu. My research is primarily focused on the co-optimization of electric and transport networks, as well as peer-to-peer energy trading.

blog image

27.09.2024

Blog-Natalia Zografou Barredo

Blog Featured News

Natalia is a researcher at the School of Engineering, Newcastle University, U.K. and is part of the Electrical Power Research group. Her research focus is on whole energy systems (including hydrogen), energy systems resilience and mathematical optimisation with applications in electricity distribution.

blog image

19.08.2024

Transitioning Power Systems to Net Zero

Event Featured News

The next of many future interviews with Supergen members that looks at the diverse challenges and solutions that face Energy…

blog image

20.06.2024

Community and Networks- An interview with Dr Sam Williamson

News

The next of many future interviews with Supergen members that looks at the diverse challenges and solutions that face Energy…

blog image