The complex of recycling of a firm household waste the introduction of medical in the military-industrial complex
Complex utilization of municipal solid waste using high-temperature fast pyrolysis.
Disposal of all types of environmentally hazardous solid waste (including organic) to produce heat energy. High energy efficiency (up to 95%), which allows to process materials with low content of combustible components (ash content with up to 90%) or high humidity (60%).
Technical characteristics of the complexes of thermochemical TBO
Description:
Complex utilization of municipal solid waste (MSW) using high-temperature fast pyrolysis.
Advantages:
– recycling of all types of environmentally hazardous solid waste (including organic) to produce heat energy
– partial decomposition of nitrogen-containing organic compounds in oxygen-free environment
– a significant reduction of nitrogen oxides in the flue gas
– significant reduction or elimination of dioxin formation by combustion in two stages,
– low content of dust particles in the flue gas
– high energy efficiency (up to 95%), which allows to process materials with low content of combustible components (ash content with up to 90%) or high humidity (60%),
– the use of thermal energy for heating, steam generation, electricity, heating water, etc. purposes
– discharged from the reactor ash has a small volume (less than 1%), low temperature and practically does not contain unburned carbon
– ability to extract from the pyrolysis gas of the materials for further processing (e.g. petroleum products, oligomers, olefins,etc.)
– significant reduction of capital costs of gas and energy equipment
– the possibility of application of gas turbines and power diesel engines.
Burning the following fuels:
– the oil sludge from oil storage tanks, contaminated soil with oil and oil products, waste oil refineries,
– carbonaceous materials with carbon content from 10% to 40%,
– waste timber, pulp and paper, forestry,
– different types of sludge treatment plants, filtration fields, sludge after mahantango emissions from biological treatment,etc.
– wastes from paint production and paint industry,
– agricultural residues,
– old tires, waste rubber products, waste polymer,
– waste of pharmaceutical industry (activated carbon after use,etc.)
– soil contaminated with various organic substances
– all types of solid waste.
Technical characteristics of the complexes of thermochemical TBO:
No. | The name of the parameter | PBP-1000 | Bbs-5000 |
1 | Productivity, tons/hour | 1 | 5 |
2 | Heat power, MW | 2,35 | 11,75 |
3 | Air consumption cubic meter/hour | 4 000 | 20 000 |
4 | Electricity, kW | 12-25 | 35-55 |
5 | Total floor area, sq. meter | 30-60 | 60-90 |
6 | The height of reactor, m | 4 | 5 |
7 | The concentration of dioxins in emissions | traces | traces |
8 | Waste water, cu. m/hour | no | no |
9 | Ash, % | less than 0.6 | less than 0.6 |
Components:
– line sorting of MSW
– shredder is a small,
– screw feeder,
– vibrosieve furnace fast pyrolysis,
– Dorogova camera disposal of biological waste
– plasmatron “backlight” combustion of pyrolysis gas,
– chimney
– control system and automation.
Note: the description of technology on the example of complexes of thermochemical TBO GPW-1000 and GPW-5000.