Development and Operation Results of Low NOx-High Efficiency Coal Fired New CUF Boiler

Development and Operation Results of Low NOx-High Efficiency Coal Fired New CUF Boiler

In response to recent demands for effective use of energy and increased awareness of environmental protection, MHI has developed a new CUF boiler capable of ensuring a low NOx emission and burning coal stably at a low air ratio. In the CUF type boiler, its burner is installed at the four surrounding...

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Bibliographic Details
Published in:JSME International Journal Series B Fluids and Thermal Engineering Vol. 41; no. 4; pp. 1050 - 1054
Main Authors: TOKUDA, Kimishiro, OKAMOTO, Akiyasu, FUKUDA, Hideo, ARAKAWA, Yoshihisa, NAGAI, Masaaki, UCHIMURA, Noriaki
Format: Journal Article Conference Proceeding
Language:English
Published: Tokyo The Japan Society of Mechanical Engineers 1998
Japan Society of Mechanical Engineers
Japan Science and Technology Agency
Subjects:
Applied sciences
Boilers
Burner
Burning Velocity
Chemical Reaction
Combustion
Diffusion
Energy
Energy Saving
Energy. Thermal use of fuels
Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc
Exact sciences and technology
Solid Fuel
Thermal Radiation
Nitrogen oxide
Boiler
Air pollution control
Operating experience
Coal
Combustion
Performance
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Summary:In response to recent demands for effective use of energy and increased awareness of environmental protection, MHI has developed a new CUF boiler capable of ensuring a low NOx emission and burning coal stably at a low air ratio. In the CUF type boiler, its burner is installed at the four surrounding walls having high radiative intensity and the fuel and the air are injected slightly downwards to be fired while they are made to swirl over the entire furnace. Becauce this boiler type is excellent in fuel ignitability and can maintain a sufficient fuel residence time in its reduction zone, its development has always been oriented towards combustion of hard-to-burn coals such as anthracite. In the CUF boiler newly developed, those features have been adopted towards low NOx and high efficiency. For further decrease of the NOx level, optinum conditions of the burner location and the fuel injection direction were found out using a 1 / 15 scale cold model test, which made it possible to achieve coal firing at a lower NOx and higher effeciency than ever. Based on these results, a CUF boiler of evaporation 350t / h was made and this boiler has successfully been operating. Combustion state in the furnace has been found very stable and operation of this boiler using a low air ratio of excess O2 obout 1% is made available. Comparison with the conventional boiler of the same scale shows that there is the effect of NOx decrease by about 30% on a basis of the same unburned carbon ratio in ash.
ISSN:1340-8054
1347-5371
DOI:10.1299/jsmeb.41.1050