Hydrogen Economy: Reassessing Approaches to Connecting Large Electrolyser Sites (HERACLES)

Objective(s)

•    Understand the current and future development of the hydrogen economy in the UK.
•    Understand the technical and operational characteristics of hydrogen electrolysers.
•    Develop an understanding of how electrolyser connections to distribution networks may be optimised.
 

Problem(s)

The UK’s Hydrogen Strategy sets a target for 5 GW of hydrogen production capacity in the UK by 2030. It is anticipated that the majority of hydrogen will be produced via electrolysis, which means adding a sizeable amount of demand to electricity networks.

Innovation projects investigating hydrogen electrolyser connections have focused on the use case for hydrogen plants as enablers of storage solutions for renewable generation, or developments informed entirely by uptake of fuel cell electric vehicles. This is distinct from the growth of the hydrogen production economy in its own right, and there is a need to ensure electricity networks would not be a blocker to increased hydrogen production uptake. Furthermore, it is not well known what the likely operating behaviour and demand characteristics of electrolysers will be, and how they will interact with electricity networks.

Movement to grow capacity in the wake of the Hydrogen Strategy is already being seen in the UK. For example, the HyDEX project seeks to make the Midlands a world leading hub for the hydrogen economy. National Grid must be in a position to meet the challenges of this growth and ensure that the electricity network is not an obstacle for the successful deployment of this technology.

Method(s)

The HERACLES project will pioneer the development of solutions to this problem by developing an understanding of how DNOs might strategically address connecting electrolytic hydrogen plants to their networks and ensure their optimum operation. The project will consist of the following work packages:

Work Package 1: Discovery and criteria development

This work package will capture existing knowledge gaps on hydrogen electrolysers and the wider hydrogen economy, existing connection assessment processes and the tools currently used to optimise connections (e.g. capacity maps) and the requisite answers for developing a hydrogen strategy for electricity distribution. It will assess the current UK landscape for the development of the hydrogen economy to understand in detail the problem as described above and develop the criteria for identifying optimum location for hydrogen electrolyser connections.

Work Package 2: Network investigation

This work package will carry out a network investigation to test implementation of the criteria developed in WP1 on a section of National Grid’s network and identify optimum deployment locations in this area based on the expected operating behaviour identified in the discovery phase. The selected network area will be around two BSPs in National Grid’s licence areas. If possible, selection of this network area will leverage knowledge of UK hydrogen economy growth gleaned through discovery activities in WP1. Otherwise, an area in National Grid’s South West region will be the default study location.

Work Package 3: Hydrogen electrolyser connection considerations document

This work package will collate the find of the previous work packages to outline at high-level the considerations for assessing the impact of hydrogen electrolyser connections to the distribution network and discuss the factors most important for optimising connection locations. It will contextualise this discussion with recommendations and next steps for DNOs to develop an electricity distribution hydrogen strategy.

• Scope

  Hydrogen will likely play a prominent role in the decarbonisation of UK plc, due to the UK’s extensive gas infrastructure. It will contribute to the decarbonisation of transport, through hydrogen fuel cells or hydrogen combustion, and heating, through hydrogen boilers or hybrid heat pumps. Taking a Whole System approach to decarbonisation means that electricity networks should ensure that they are not the barrier to the growth of green hydrogen.

  The UK Hydrogen Strategy released in September 2021 has committed the UK government to a target of 5 GW of low carbon hydrogen production, around of half of which is expected to be produced via electrolysis. The UK gas industry, local authorities (especially those in rural locations), academia and innovators (including multiple UKRI and SIF funded projects) are working to grow the hydrogen economy in the UK to meet this strategic ambition Hydrogen electrolysers which will produce the hydrogen are electrically powered, and will require sizeable electrical demand connections in order to function effectively. Furthermore, it is anticipated that the burden for connection reinforcement will be shifted further towards networks in the ED2 period. It is important therefore to optimise the capacity available on electricity networks for the uptake of electrolysers and reduce reinforcement costs funded by network customers.

  The growth of hydrogen production also presents new opportunities to provide benefits for customers. For example, new PEM (variously Proton Exchange Membrane or Polymer Electrolyte Membrane) electrolysers can be dynamically controlled with fast response times and high energy efficiency. There is significant potential for these electrolysers to offer new types of flexibility and interoperability and to embed these in connection agreements. Even conservatively estimating that if 1% of the new hydrogen capacity could be made available as flexibility, and 1% of that capacity aligned with constrain management zones could unlock over 600 MWh of flexibility capacity across National Grid Electricity Distribution’s licence areas.

  National Grid’s procurement of flexibility in RIIO-1 has so far deferred more than £40m of reinforcement for more than 590 MWh of flexibility.

  Based on this ratio, the estimated value of the flexibility unlocked would be £42m.

  Additional reinforcement deferment benefits may also be seen in the use of hydrogen for transport. Hydrogen may prove to be a more cost-effective low carbon transport option for rural and heavy industry applications than electric vehicles, and the growth in hydrogen transport would obviate the need to provide network infrastructure for EV charging in those areas.

• Success Criteria

  •    The current and future landscape of development of the hydrogen economy, both commercially and technologically, will be captured.
  •    The operating profile of hydrogen electrolysers will be captured at a high level.
  •    A set of criteria will be developed and trialled for optimising large hydrogen electrolyser connections to the network.
   

• Potential for New Learning

  Parties are expected to learn from this project the potential growth and impact of hydrogen electrolysers on distribution networks.

  Furthermore, it will develop understanding of how best to strategically optimise those connections.

  Learning from this project will be published within the WP3 considerations report. This report will contain a summary of the outcomes of all project work packages and a discussion of the approaches considered within the project. The learning will also be presented at National Grid Innovation Showcase events. This knowledge and information will allow other LNOs to inform their own approach to electrolyser connections.

• Documents and Links

  NIA Project Registration and PEA Document

  Hydrogen Electrolyser Study WP1 Report

  Hydrogen Electrolyser Study WP2 Report

  Hydrogen Electrolyser Study WP3 Report

• Monthly updates

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