CPM Centre Energy company is set-up to build, own and operate large scale Waste to Energy (WTE) Plants in primarily the Middle-East, Asia and African regions.
The Plant and its facilities are designed to handle 550 – 1000 MT/day of Municipal Solid Waste (MSW), to be converted first to an RDF (Refuse Derived Fuel) and then Syngas a finally electrical power for sale/supply to the local power grid infrastructure; all within the confines of the WTE Plant.
The WTE Plant operates 24 hours a day 365 days a year in a 3-shift system. All maintenance is preventative and cycled throughout the plant equipment. There is no requirement for plant shutdown.
Each Plant will consist of three main facilities:
MSW Treatment and Separation Area
Ultra High Temperature Hydrology (UHTH)
Reaction Area Power Generation Area
The UHTH Technology is tried and tested and operates under one of the most stringent Environmental Certificated available in the world today, and Nothing goes to Landfill
– Recycles 100% of the MSW
– Ultra High temperature (working above 1250°C) converts more carbonaceous waste
– All valuable contents of the waste are recoverable
– Treatment of all kinds of waste, including hazardous and toxic material
– No Harmful Emissions & No Dangerous Residues
– Oxygen free operation (no incineration means no smoke stack is needed)
– Efficiently eliminates toxins and dioxins
– Meeting the highest and most severe environmental rules and regulations
– Decentralized Plants to serve communities; making the Plant a local asset
– A fraction of the size of a common waste treatment and power plant
– Can be operating in 16-18 months and fully commissioned in 21-24 months
– Will process 550MT of MSW per day. 200,000+ MT per year
– Can be sited close to urban conurbations
– Reduces road congestion and wear
– Reduces import and dependence on of other fuel types
– Employs around 150 – 200 people per Plant – 3 shift
CPM UHTG has developed the ultimate solution to treat waste without waste residues and without harmful emissions to the environment and at the same time recover all valuable constituents of the waste (and biomass) at highest economic conditions.
The CPM UHTG waste-to-energy patented technology consists of an induction heated, ultra-high temperature gasification process. At temperatures above 1’250°C it converts all the organic content of the waste stream to a high- energy synthetic gas “syngas” while the inorganic content is converted to an inert, non-leachable basalt-like material.
The ease of operation, high efficiency and productivity of the CPM UHTG thermal converter makes it the most exciting and versatile waste-to-energy unit on the market today. It is designed to be a hard working tool for governments and businesses to eradicate toxins of virtually any kind!
CPM UHTG offers the following energy recovery possibilities:
– Utilization of the syngas with an afterburner, subsequent steam turbine and electricity generator respectively
– Utilization of the syngas with a gas motor, combined with an electricity generator
– Utilization of the off-heat with a conventional heat-exchanger for heating or cooling
– Utilization of the off-heat with the CPM UHTG electro-mechanical cell for electricity production
– Utilization of the syngas for industrial applications to substitute oil and gas
– Liquefying the syngas to synthetic petroleum
CPM UHTG TECHNOLOGY
Conversion of the syngas to hydrogen and subsequent production of electricity with a fuel cell
– To safeguard – Human health and environment
– To provide – Efficient and cost-effective, environmental friendly waste management and alternative energy production
– To deliver – A thermal degradation system that completely sanitizes waste and recovers all valuable elements at the highest efficiency
– To destroy – Toxic components at ultra-high temperatures, without any harmful emissions to the environment, using state of the art technology
– To recover – and utilize the energy content of the waste
With objectives of becoming a market leader in Project Funding services and Engineering in the Middle East and Africa.