Lizhe Chen scite author profile

Using a phase-Doppler anemometry (PDA) on a two-phase small-scale model for a down-fired 600-MWe supercritical utility boiler, experiments were conducted to compare the gas/particle flow characteristics between the prior and newly designed deep-air-staging combustion systems. The distributions of mean velocity, particle volume flux, and particle number concentration along several cross sections were compared between the two combustion systems, in addition to the decay and trajectory of the downward gas/particle flow. With the prior combustion system, asymmetric gas/particle flow characteristics appear in the furnace, with the gas/particle flows in the front-half of the furnace penetrating greatly further and occupying much more furnace volume than those in the rear-half of the furnace. The longitudinal gas/particle velocity components, particle volume flux, particle number concentration, decay curve, and trajectory of the downward gas/particle flow all display a severe asymmetric pattern along the furnace center. In applying the deep-air-staging combustion technology as a replacement for the prior art, the original asymmetric gas/particle flow characteristics that are seen in the furnace all develop a symmetric pattern. Industrial-sized measurements performed within the full-scale furnace uncovered that asymmetric combustion characterized by gas temperatures being much higher near the rear wall than near the front wall, developed in the boiler with the prior art. In comparison with the boiler with the prior art, the newly designed boiler applying the deep-air-staging combustion system achieved perfectly symmetric combustion, NO x emission reduction by around 40%, and large improvement in burnout.

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Gas/particle flow characteristics of a centrally fuel rich swirl coal combustion burner

Chen

Wang

et al. 2008

Fuel

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Experimental gas/particle flow characteristics of a down-fired 600 MWe supercritical utility boiler at different staged-air ratios

Kuang

Zhu

et al. 2012

Energy

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Gas/particle flow characteristics of two swirl burners

Chen

Jing

et al. 2009

Energy Conversion and Management

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Lizhe Chen

Influence of vent air valve opening on combustion characteristics of a down-fired pulverized-coal 300 MWe utility boiler

Gas/Particle Flow Characteristics, Combustion and NO_x Emissions of Down-Fired 600 MW_e Supercritical Utility Boilers with Respect to Two Configurations of Combustion Systems

Gas/particle flow characteristics of a centrally fuel rich swirl coal combustion burner

Experimental gas/particle flow characteristics of a down-fired 600 MWe supercritical utility boiler at different staged-air ratios

Gas/particle flow characteristics of two swirl burners

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Lizhe Chen

Influence of vent air valve opening on combustion characteristics of a down-fired pulverized-coal 300 MWe utility boiler

Gas/Particle Flow Characteristics, Combustion and NOx Emissions of Down-Fired 600 MWe Supercritical Utility Boilers with Respect to Two Configurations of Combustion Systems

Gas/particle flow characteristics of a centrally fuel rich swirl coal combustion burner

Experimental gas/particle flow characteristics of a down-fired 600 MWe supercritical utility boiler at different staged-air ratios

Gas/particle flow characteristics of two swirl burners

Contact Info

Product

Resources

About

Gas/Particle Flow Characteristics, Combustion and NO_x Emissions of Down-Fired 600 MW_e Supercritical Utility Boilers with Respect to Two Configurations of Combustion Systems