Information profile @ a Glance
- 95% of the global warming inputs to the system are associated with
the Paddy cultivation process, 2% with the harvesting process and 2%
with the seeding and milling processes
- To reduce methane emissions from paddy
fields, the options include using enhanced rice production technology
such as minimizing the use of green manure and substituting
pre-fermented compost from farm residues, adding nitrate or sulfate
containing nitrogen fertilizer to suppress methane gas production or;
change rice cultivation practices
- The rice mills having longer hulling period and additional revenue
from ash sale could attract the
investors in rice husk fired power plant
- Most of existing rice mills are of small capacity, efficient
transportation would be very important in
collecting rice husk from rice mills and supplying it to a big power
plant.
- Typical Installed capacity of the rice husk fired power station can
be 500 kW, of which 320 kW can be used for rice milling process and
surplus amount of 180 kW can be supplied to the power grid or
neighboring consumers.
- Cogeneration plant consists of rice husk storehouse, conveying and
automatic boiler feeding
systems, furnace/boiler
- The use of steam at low pressure generated by the project for paddy
drying instead of using coal will result in reduction of nonbiogenic
CO2 emission
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Basic Information
Companies - Case Studies
India Scenario
- Rice Milling Industry - Cogeneration
- Potential for reducing GHG emissions
- Bengal Intiative
Market
- Trends
- Rice Processing Industry - Bangladesh
- Rice Hull Stove
- China's Performance
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Technology Information
- CO2 emission reduction from residues of crops
- Rice Husk Combustion
- Rice Husk Energy Technologies
Project / Business Plan
- A Sample pre-feasibility Report
- CDM - Project Document example
- 5MW Rice Hull-Fired Project
- CDM Feasibility Study for Rice Husk-based Power Generation in the
Philippine
- Consultancy services
- Project Reviewed
- Guide Book
- Japan Consultant
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