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Green World for INDIA. More recycling and Waste-to-Energy (WtE) will reduce net Green House Gas emissions. WtE capacity is also needed to treat residues from recycling. Recycling and WtE, both are essential pillars to steer waste from the lowest step in the hierarchy - landfilling.
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Green World for INDIA Presentation 12.11.2012
More recycling and Waste-to-Energy (WtE) will reduce net Green House Gas emissions. WtE capacity is also needed to treat residues from recycling. Recycling and WtE, both are essential pillars to steer waste from the lowest step in the hierarchy - landfilling. boost recycling and WtE Support improvement of energy efficiency of WtE plants with better infrastructure for heat and access to the grid. Recycling and Waste-to-Energy in combination for sustainable waste management Presentation 12.11.2012
Taking into account the fact that not all municipal waste is suitable for recycling, waste that can be separated easily at source should be recycled. The remaining residual waste should be transformed into energy in clean and save WtE plants, instead of being buried in landfills. Countries that have most successfully reduced dependence on landfill (3% and below) have the highest recycling rates in Europe, and have achieved this in combination with WtE (Germany,Netherlands, Sweden and Austria), proving that recycling and energy from waste which cannot be recycled properly go hand in hand in order to divert waste from landfills. To achieve this success long-term capacity planning for both, recycling and WtE is necessary.WtE capacity is also needed to treat residues from recycling. The optimum combination of recycling and WtE saves primary energy sources, combats climate change and helps to secure EU energy supply. Recycling and WtE, both are essential pillars to steer waste from the lowest step in the hierarchy - landfilling. Waste to energy benefits Presentation 12.11.2012
The energy produced in Waste-to-Energy plants also contribute to climate protection and security of energy supply, by replacing fossil fuels that would have been used to produce this energy in conventional power plants. Elimination of the methane emissions from the existing landfills. Decrease the risk for ground water contamination from the landfills Waste to Energy benefits Presentation 12.11.2012
WTE plant Presentation 12.11.2012
Waste to Energy Plant process Presentation 12.11.2012
Technology: furnace/boiler 1. Presentation 12.11.2012
Grate Presentation 12.11.2012
Steam turbine and generator From steam to electricity… The hot high-pressure steam from the boiler is directed to the turbine which drives a generator. Some of the electricity produced is used in the plant, while the rest goes onto the power distribution grid. Presentation 12.11.2012
Process Diagram Gas handling Presentation 12.11.2012
Site Plan Presentation 12.11.2012
Longitudinal Section drawing Presentation 12.11.2012
Waste loading Presentation 12.11.2012
Truck unloading Presentation 12.11.2012
Stoker capacity Presentation 12.11.2012
Contract for leasing of the land area of 8 hectares or more Contract with municipalities and others to transport the waste to the gate and pay the gatefee Contract for selling the electricity to the electric company. Pre-conditions for the Project Presentation 12.11.2012
Waste thoughput of 950 – 1060 tons/day (39,6 – 44,2 tons/hour) Hospital waste of 560 – 745 tons/year (70 – 100 kg/hour) Production focus on eletricity Concept of one combustion stream Process parameters Presentation 12.11.2012
Project Financing and permits 6 to 12 months Basic Engineering 3months Detail Engineering 10 months Civil engineering 8 moths Civil works 6 months Procurement and manufacturing 12 months Equipment, intrument and electric intallations 14 months Hot testing 28 moths Project milestones Presentation 12.11.2012
360 000 tones waste per year 326 400 MWh energy production Investment 140 million euro The basic figures Presentation 12.11.2012
Waste to energy Plant to China Presentation 12.11.2012
Erkki Krogerus Master of Science Experienced in company governess and leadership, Expertise in construction and project management in Power and waste management Some of his References Ekokem municipal waste treatment plant consulting waste to energy plant EPC Radust hazardous steel dust handling plant, burning, dust treatment and steam system with power plant optimization, EPCM and operating Consulting Turkish Steel Plant for their waste dust handling Japanese copper plant boiler system planning and consulting Operating mobile waste treatment plant Consulting Romanian plant for their boiler and power plant operation Consulting Romanian boiler plant operator on their steam system and operation Consulting Bulgarian plant for optimization of their boiler system and operation Consulting USA plant operator on their main equipment failure Indian green field plant including power plant, EPCM Ekokem waste incinerator line 2, EPCM Dutch waste treatment plant, E Site and construction manager for Turkish FeCr plant construction and commissioning Site and construction manager for Indian FeCr plant construction and commissioning Site and construction manager for Mexican plant construction and commissioning Site and construction manager for Bulgarian plant construction and commissioning 3.Laitoksen esittely 4.Pölynkäsittelykapasiteetti 5. Rahoitustilanne 6. Rahoituksen ajoituksesta Presentation 12.11.2012