EcoProcess
EcoProcess
Alternative Energy Strategies
EcoProcess
Energy from Waste Consulting and Project Management
Spinning off from our work designing and implementing projects for the pulp and paper industry CoProcess has developed an entire department specializing in transforming industrial and also urban waste into energy.
Our highly experienced team has worked with international partners to set up projects to transform all waste into a reusable commodity, inert filler or energy.
The first step is the reliable and cost effective separation of the different value streams contained within every day waste. (MSW - Municipal Solid Waste)
MSW Sorting
Together with our technological partners CoProcess takes the lead in project managing the implementation urban waste separation techniques.Depending on the fuel and energy source required or the product desired for recycling Eco Process can design together with our global partners the ideal set up for your needs tailored to your location.
Hydrocarbon Pyrolysis
Energy is the "Holy Grail" industry as we are discovering.Together with our technological partners CoProcess takes the lead in project managing the implementation of specialized RDF / SDF pyrolysis plants whose oil can be used for producing energy in many different forms as well as contributing to environmental clean-up.
Biomass Fast Pyrolysis
The largest single component of Municipal waste is the organic component and it is with this in mind that EcoProcess has searched out the state of the art in fast pyrolysis. Using organic waste as well as other biomass we offer turnkey solutions to our customers so as to avoid the use of landfill for any organic matter whatsoever.
Pyrolysis Oil Refinery
Pure pyrolysis oil is an excellent substitute for many fuel oils but is not necessarily suitable for highly tuned modern engines.EcoProcess is able to offer pyrolysis oil refining technology which results in much more pure fuels such as low/no sulfur diesel to aviation fuel.
RDF / Biomass / Oil Power Generation
Power generation derived from alternative fuels has to contemplate flexibility as well as efficiency.
The state of the art in this sector is linked to the primary energy use of energy combustion and specifically energy recovery, which conventionally, would be discarded.
Our vision is the maximum utilization of primary fuels using modern power generation techniques from combined cycle driving forces and heat