Margam Green Energy Plant
Magram Green Enegry Plant Operational | |
See Biomass EfW → page for a larger UK Wide map. | |
Operator | Margam Green Energy Ltd |
Capacity | 40 MWe |
Feedstock | Waste Wood |
EPR (Waste Licence) | DP3137EG |
ROC | No |
CfD | |
CHP | Unkwn |
Operators Annual Report
Input Data
Year | Wood | Litter | RDF | Other | Total |
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Output Data
Year | IBA | IBA %ge of Tot IN | APC | APC %ge of Tot IN |
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Summary
A Biomass Waste EFW located near Port Talbot, South Wales, generating c. 40 MW[1] based on an annual combustion rate of c.335,000 tonnes of wood waste per annum[2].
The plant is owned by Glennmont Partners, a specialist clean energy investment fund which focuses on investment in clean energy infrastructure. Originally the Margam project was a joint venture between Cardiff based energy development company, Eco2 Ltd and a local company, Western Logs Group. Eco2 Ltd now has responsibility for the plants overall operations and fuel management supply[1]. The project was one of the final of its type to be supported under the Renewables Obligation [3].
The plant became operational in 2019 at a cost of c.£160m[1].
The Margam plant takes waste wood that is supplied by Stobart Biomass on a long term contract. The waste wood is sourced and supplied by Stobart from across the country at a rate of approximately 6,000 tonnes per week[1]. The plant is also capable of processing contaminated wood and fuel containing metals with no pre-treatment required. The facility is also able to take municipal waste as a fuel source in the future if required[2].
Plant
The main EPC contractor was the consortium of Babcock Wilcox VØlund a/s (BWV) and Interserve Construction Ltd. VØlund is part of the Babcock & Wilcox Group, and provided the process equipment whilst Interserve (Wales) undertook the civil engineering and building. BWV now has responsibility for the plant’s operations and maintenance[1] for the next 15 years[2].
The plant features the patented advanced DynaGrate® technology which can handle all types of biomass and waste and is based on the Bruun & Sørensen technology.[2].