A €9.39million energy sustainability project, known as GenComm and delivered by 10 European partners, including NUIG, is meeting in Galway this week to launch the first of its White Papers on smart hydrogen. Read More
GENCOMM: GENerating energy secure COMMunities through Smart Renewable Hydrogen
GENCOMM will address the energy sustainability challenges of NWE communities through the implementation of smart hydrogen-based energy matrixes. The project validates the maturity of hydrogen technologies by implementing 3 pilot plants that link the 3 main northwest European renewable sources (Solar Power, Wind Power, and Bioenergy) with energy storage and the main forms of energetic demand (Heat, Power and Transportation fuels). Based on the pilot plants; integrated technical and financial simulation models will be developed. Together, both models will form a Decision Support Tool (DST) that provides a roadmap for communities to transition to renewable, hydrogen-based energy matrixes. The final goal of the project is, through the combination of sources and forms of demand, to lead NWE’s road to sustainability while granting hydrogen its position as a commercially viable energy medium for the future.
Project General Objective
GENCOMM aims to technically and financially validate the renewable H2 value chain and adapt it to a DST that leads NWE communities into sustainable, local and autonomous energy matrixes. The DST is directed to community energy stakeholders (utilities, policy-makers, and private firms in the energy sector), as the key agents to implement the proposed matrix. The project will first engage energetically and territorial remote communities to then address the rest of NWE.
Project Specific Objectives
- Empower communities to implement hydrogen-based energy matrixes to sustainably satisfy their energy demand.
- Stimulate the uptake of renewable hydrogen-based technologies by successfully running 3 demonstration facilities.
- Establish a strong group of energy stakeholders devoted to, through the use of hydrogen, “sustainabilise” the energy matrix of the NWE region.
The following chart links the Hydrogen Value Chain and the Project's work packages.
Viridian Energy Supply Limited
62 62 New Forge Land, Belfast,
10 Hydepark Rd, Newtownabbey
Pure Energy Centre
3 Hagdale Industrial Estate, Baltasound,
National University of Ireland Galway
1 University Road
17 Altenkesseler Str.
6 Boulevard Maréchal Juin
INSA Rouen Normandie
685 Avenue de l'Université - BP 08
Saint Etienne du Rouvray
52 Station Rd
BURN Joint Research Group, Vrije Universiteit Brussel
VUB Vrije Universiteit Brussel Building Z, Pleinlaan
Belfast Metropolitan College
398 Springfield Road
|Belfast Metropolitan College||
398 Springfield Road
|Viridian Energy Supply Limited||Mark Welshfirstname.lastname@example.org||United Kingdom|
|Hy Energy||Ian Williamsonemail@example.com||United Kingdom|
|Pure Energy Centre||Elizabeth Johnsonfirstname.lastname@example.org||United Kingdom|
|National University of Ireland Galway||Rory Monaghanemail@example.com||Ireland|
|IZES gGmbH||Bodo Großfirstname.lastname@example.org||Germany|
|INSA Rouen Normandie||Isabelle Polaertemail@example.com||France|
|TK Renewables||Kieran Mc Laughlinfirstname.lastname@example.org||United Kingdom|
|BURN Joint Research Group, Vrije Universiteit Brussel||Francesco Continoemail@example.com||Belgium|
Belfast Metropolitan College’s Springvale Campus played host today to the official launch of the North West Europe Interreg funded €9.39M GenComm project. Read More
An energy sustainability project led by Belfast Met has been given the green light after winning an Interreg North-West Europe funding bid for the €9.39million Gencomm Project. Read More
This new report has been prepared by NUI Galway with partners Hy Energy Consultancy and DCU.
The new paper 'Decarbonising city bus networks in Ireland with renewable hydrogen' authored by Tubagus Aryandi Gunawan, Rory Monaghan, Ian Williamson and Diana Raine from the GenComm partners NUIG and Hy Energy respectively has been published in the Science Direct Journal.
An INSA authored paper produced in March 2019.
Proceedings from the HEEP Conference in Hungary in May 2019.
Newsletter 14-December 2020
Lead Partner on 2 work packages Management and Communication. Project lead, management and administration, skills development and training. Core link with all other partners in the work packages and also linking in with associate partners in the UK in the public sector, communities and industry.
Energia will lead WP 7 project managing the planning, design, construction, testing and commissioning of large (500kW) hydrogen production facility pilot from wind energy. They will also have input in other work packages. Key expertise from Viridian includes renewable operations, energy trading and wind curtailment and modelling of the wind turbines.
Pure Energy are the Work Package lead for WP I3 the biogas/anaerobic digester to hydrogen pilot. They will deliver the design, supply and delivery of hydrogen system at a biogas plant site in the Western Isle
NUI Galway will manage Work Package 8 "Long term Effects" They are the partner in charge of the delivery of the Decision Support Tool (DST). NUI Galway is a member organisation of MaREI (Marine and Renewable Energy Ireland), a €30M Research Centre backed by industry partners and Science Foundation Ireland (SFI). Dr Monaghan will leverage his role as a Funded Investigator in MaREI to avail of expertise and synergies with other EU and industry-funded projects.
IZES will be the lead in WPI2 encompassing the SOLH2TRANSP route encompassing a pilot Solar-fueled H2 Refueling Station (HRS). The partner’s main role is then to examine and solve 4 different issues:  Validate renewable hydrogen production from solar power,  Quantify the power demand of a semi-autonomous HRS for hydrogen-fueled vehicles (HFCV),  Study the optimal capacities and operation parameters a commercial refueling station should fulfill to supply HFCVs and,  create the PPRM.
Expertise in catalysis and catalytic processes development for smart hydrogen processes. Methanation pilot development, pilot scale up in WPI1, and technical process modeling in WPT1. Economical analysis of methanation, financial implications, cost benefits, carbon savings calculations in WPT2 that will serve in WPLT assisting with the delivery of Decision Support Tool.
INSA Rouen Normandie have extensive expertise in implementing a new energy-efficient technical model, hydrogen based, including renewable sources (solar, wind, biogas), hydrogen production, storage and methanation. Expertise in catalytic processes development for methanation: pilot development, pilot scale up, technical and economical process modeling. They will work as a partner in WPI3,the biogas to hydrogen plant developing the methanation process as well as working on WP1, WP2 and WP3.
TK Renewables will bring their mechanical, electrical and technical expertise to the project working with the partners. They will lead WP4 the Implementation Commercial package to develop and validate the market for the pilot plant outputs.
The BURN (comBUstion and Robust optimizatioN) joint research group is part of the Vrije Universiteit Brussel and contribute to this project as a partner involved in several work packages.
Paul Mc Cormack, GenComm Programme Manager, +44 (0)2890 265076 PaulMcCormack@belfastmet.ac.uk
Anne Artt, GenComm Operations and Communications Manager, +44 (0)2890 265276 firstname.lastname@example.org
Peter Smyth, GenComm Finance Manager, +44 (0)2890 265474 PSmyth@belfastmet.ac.uk
Mark Welsh, Energia
Elizabeth Johnston, Pure Energy Centre, Stornoway
REPUBLIC OF IRELAND
Dr Rory Monaghan, NUI Galway
Bodo, IZES gGmbH
Justine Delarogue, Eniscaen
Isabelle Polaert, INSA Rouen Normandie
Kieran Mc Laughlin, TK Renewables
Francesso Contino, University Brussel
Ian Williamson, Hy Energy, Berkshire, England