In conjunction with an appropriate waste conversion technology module (e.g. gasifier/pyrolysis/anaerobic digestor), we generate power (together with heat/chilling and, where practicable, clean water) using biomass feedstocks - such as coconut shell, palm oil EfB, energy crops, rice husk, etc. - and plastics, tyres, waste oils and other carbon based waste streams.
In
recent years, small-scale gasification and pyrolysis technology solutions have become more
mature, and project developments using these have begun to gather pace as
operators recognise the enhanced efficiencies (and, often, lower capex and opex
costs) available from gasifier/pyrolysis units and internal combustion gensets, and their ability to deliver viable solutions to off-grid and other disadvantaged communities.
Taken
together with increasing demands for renewable/sustainable and low carbon based
fuelled generation, a significant global market exists for distributed generation-sized
(generally, up to 5MWe) power and CHP generation packaged solutions, based on
prime movers with a capability to run on a range of simple and accessible fuels
without
requiring significant technical modification and/or operational downtime when
adjusting to variable fuel characteristics.
The EECL design has been developed specifically to meet the demands of the new developments in low-carbon heat and power generation and renewable fuels technologies, and to address the prime mover requirements of project developers and operators seeking to enter the growing market in the delivery of renewable energy fuelled heat and power, in particular at the distributed generation level using biomass and other Energy from Waste (EfW) derived fuels.
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