CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer

Classification of fine coal dust is very important in thermal power plant, in order to ensure complete combustion of fuel in the burner. Fine coal particulate is able to provide higher combustion efficiency as compared to coarse coal particulate, due to high surface area. In this investigation, modi...

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Main Authors: Why E.S.K., Ismail F.B., Hasini H., Nasif M.S.
Other Authors: 57204703890
Format: Conference Paper
Published: American Institute of Physics Inc. 2023
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spelling my.uniten.dspace-235582023-05-29T14:50:14Z CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer Why E.S.K. Ismail F.B. Hasini H. Nasif M.S. 57204703890 58027086700 6507435998 55188481100 Classification of fine coal dust is very important in thermal power plant, in order to ensure complete combustion of fuel in the burner. Fine coal particulate is able to provide higher combustion efficiency as compared to coarse coal particulate, due to high surface area. In this investigation, modification of coal pulverizer classifier with new geometries were proposed, by extending the classifier blade into four different lengths: 4.36", 8.36", 12.36" and 16.36". Computational fluid dynamics (CFD) modelling was used to investigate the effects of classifier blade length to coal particles size distribution at outlet. CFD simulation of coal classifier model based on original design was initially done and validated by plant data. Next, four different blade length at a common fixed angle of 40�were tested, and the effects to resulting coal fineness were recorded. The simulation studies showed that the optimum blade length was found to be 12.36". The simulated classifier is able to achieve 71.5% of particles passing 75 ?m sieve, with 57% classifier efficiency. A coal fineness improvement of 11% is achieved by the new design as compared to original design of the classifier model. � 2018 Author(s). Final 2023-05-29T06:50:14Z 2023-05-29T06:50:14Z 2018 Conference Paper 10.1063/1.5075565 2-s2.0-85057317585 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85057317585&doi=10.1063%2f1.5075565&partnerID=40&md5=a949aa097726233e1ad81d7f8855282b https://irepository.uniten.edu.my/handle/123456789/23558 2035 40001 American Institute of Physics Inc. Scopus
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description Classification of fine coal dust is very important in thermal power plant, in order to ensure complete combustion of fuel in the burner. Fine coal particulate is able to provide higher combustion efficiency as compared to coarse coal particulate, due to high surface area. In this investigation, modification of coal pulverizer classifier with new geometries were proposed, by extending the classifier blade into four different lengths: 4.36", 8.36", 12.36" and 16.36". Computational fluid dynamics (CFD) modelling was used to investigate the effects of classifier blade length to coal particles size distribution at outlet. CFD simulation of coal classifier model based on original design was initially done and validated by plant data. Next, four different blade length at a common fixed angle of 40�were tested, and the effects to resulting coal fineness were recorded. The simulation studies showed that the optimum blade length was found to be 12.36". The simulated classifier is able to achieve 71.5% of particles passing 75 ?m sieve, with 57% classifier efficiency. A coal fineness improvement of 11% is achieved by the new design as compared to original design of the classifier model. � 2018 Author(s).
author2 57204703890
author_facet 57204703890
Why E.S.K.
Ismail F.B.
Hasini H.
Nasif M.S.
format Conference Paper
author Why E.S.K.
Ismail F.B.
Hasini H.
Nasif M.S.
spellingShingle Why E.S.K.
Ismail F.B.
Hasini H.
Nasif M.S.
CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
author_sort Why E.S.K.
title CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
title_short CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
title_full CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
title_fullStr CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
title_full_unstemmed CFD based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
title_sort cfd based investigation on effect of classifier blade length to coal particle distribution in coal pulverizer
publisher American Institute of Physics Inc.
publishDate 2023
_version_ 1806427835364016128
score 13.222552