Techno-economic performance analysis and environmental impact assessment of small to medium scale SRF combustion plants for energy production in the UK

This paper investigates a techno-economic analysis on small and medium scales: 50 kilo tonnes per annum (ktpa) and 100 ktpa combustion plants with steam turbine technology utilising solid recovered fuel (SRF). Energy and efficiency calculations for the technical assessment are performed. The economic viability of the two processes is investigated through a discounted cash flow analysis. The levelised cost is used to calculate the cost of production of one unit of electricity. A life cycle assessment (LCA) of the 100 ktpa scale SRF plant is performed, where the foundations of LCA calculations reside in energy calculations carried out for the technical analysis. Life cycle inventories were developed using inventory analysis and impact assessment. The results of the LCA are compared with those from equivalent scale coal, natural gas and electricity-mix plants. The LCA is also compared with a landfill reference system. Both scales are economically and technically viable. The SRF plant has a lower global warming potential emission (EGWP) compared with the coal, natural gas and electricity-mix plants and the reference landfill system.

► We examine two combustion plants for energy recovery from solid recovered fuels SRF.
► We perform a techno-economic and environmental assessment of the plants using LCA.
► Environmental burdens are compared with coal, natural gas and electricity-mix plants.
► SRF combustion is environmentally promising compared with non renewable alternatives.