Circulating fluidized bed is a relatively new technology with the ability to achieve lower emission of pollutants. Extensive research has been conducted on this technology for the past 10 years because pollution in the world is getting more serious by the day and clean practice will be very crucial for the sustainability of the earth. The importance of this technology has grown recently because of tightened environmental regulations for pollutant emission.
Over the past two decades, CFB technology—including CFB boiler operation and CFB boiler design—has demonstrated its ability to efficiently utilize a wide variety of fuels while still meeting stringent stack emission limits.Our CFB boiler technology allows for a wide range of fuels to be burned efficiently. This includes low-grade and difficult-to-burn fuels such as anthracite, lignite, petroleum coke, oil shale, discarded coal, and biomass within a wide range of mixing rates.Selective non-catalytic reduction (SNCR) systems can be added to our CFB boilers, leading to even lower NOx emissions.
Project: ZG-35 / 3.82-M, Circulating Fluidized Gas Plant Boiler
Area of application: thermal power plant
Project site: India
To promote production and change the current situation of power shortage, a power plant in India commissioned a 35-tonne CFB alternating current boiler from our company, which has high efficiency and savings energy. The workers of our company have accelerated the progress of production and installation, have put the equipment in place and put into operation on time.
Circulating Fluid Power Plant Boiler
Nominal vapor capacity: 35t / h
Nominal steam pressure: 3.82MPa
Nominal steam temperature: 450
Supply water temperature: 104
Design Fuel: Lignite Coal
Benefits of the BFC Power Plant Boiler
The boiler at the BFC’s power plant has many advantages, such as coal economy, low wear, low strength, high efficiency and environmental protection. The patented rear feed and the very high efficiency cyclone separator can greatly save energy consumption for customers. Advanced membrane wall water structure improves efficiency. Under the operating conditions of the low air pressure of the chamber, it can save more than 5% of the power consumption. There is practically no wear on the heating surface, the annual operating time has been up to 8000 hours, which can ensure the use of electricity from production and life.
