Performance assessment of an improved gasifier stove using biomass pellets: An experimental and numerical investigation

[Display omitted] •Numerical modelling indicates that heat loss through outer wall is predominant.•Model FD 2.2 exhibits better combustion characteristics in contrast to traditional cookstoves.•Controlled airflow rates during initial & last phases facilitates clean combustion.•CO emission could...

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Bibliographic Details
Published inSustainable energy technologies and assessments Vol. 53; p. 102432
Main Authors Himanshu, Kurmi, O.P., Jain, Sanjeev, Tyagi, S.K.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2022
Subjects
Emission reduction potential
Forced draft
Heat loss
Pellets
Thermal performance
Heat loss
Emission reduction potential
Forced draft
Thermal performance
Pellets
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Summary:[Display omitted] •Numerical modelling indicates that heat loss through outer wall is predominant.•Model FD 2.2 exhibits better combustion characteristics in contrast to traditional cookstoves.•Controlled airflow rates during initial & last phases facilitates clean combustion.•CO emission could be reduced in the range of 95.91–98.58%•Emission of PM2.5 could be lowered by 96.50–99.31% This article presents an experimental and computational study of a forced draft cookstove having separate primary and secondary air fans, while utilizing pellets as fuel. A two-dimensional axisymmetric computational fluid dynamics model of the developed cookstove has been created in ANSYS Fluent to analyze the fluid flow, temperature distribution and heat loss from the different parts of the cookstove. The simulation results showed that more than one fourth of the total heat produced by the burning of fuel was being lost to the ambient environment through the outermost wall of cookstove. Also, the temperature of the outer wall of the cookstove was found to be higher than the temperature of secondary air being preheated in the annulus chamber. Therefore, the developed model was further modified by using glass wool insulation which resulted in an increment of 5.7% in thermal efficiency, while the emissions of CO and PM2.5 were reduced by 7.1% and 25.9%, respectively. The performance of the developed models have also been compared with other pellet based forced draft models available globally, and the thermal efficiency of the Mimi Moto cookstove was found to be highest followed by FD 2.2 model.
ISSN:2213-1388
DOI:10.1016/j.seta.2022.102432