STUDY OF THE EFFECT OF PARAMETERS ON THE COGASIFICATION OF LIGNITE AND BIOMASS USING DOWNDRAFT GASIFIER: A CRITICAL REVIEW
Gasification is a coal downstream technology that is being developed in an effort to fulfill energy in Indonesia. The majority of coal in Indonesia is low and medium quality coal with a relatively high content of ash, moisture and sulfur. Meanwhile, biomass as a renewable energy source has abunda...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/56275 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Gasification is a coal downstream technology that is being developed in an effort
to fulfill energy in Indonesia. The majority of coal in Indonesia is low and
medium quality coal with a relatively high content of ash, moisture and sulfur.
Meanwhile, biomass as a renewable energy source has abundant potential, but its
calorific value is lower and its tar content is higher than coal. In the utilization of
national energy fulfillment, co-gasification between the two carbon sources is
necessary to produce high quality syngas and extend the life of coal reserves. The
downdraft gasifier reactor was chosen because it can produce gas with low tar
content and can use raw materials with high ash content. In this study, the effect
of biomass type and its mixing ratio with coal on gasification performance is
studied and analyzed. The synergistic effect of gasification of three types of
biomass with lignite was observed, besides that, the process parameters were also
reviewed because they had an effect on the composition of the gas produced.
In this literature study, the collection of literature sources was carried out with the
keywords lignite, biomass, gasification, and downdraft gasifier. Each literature
source is analyzed and conclusions are drawn. Three types of biomass analyzed
for synergistic effects with lignite are corn cobs, rice straw, and oil palm shells.
While the process parameters reviewed are particle size, mixing ratio, and
temperature. The results of each experiment were in the form of gas product
composition, carbon conversion, weight loss, and differences in experimental and
calculated values to observe the synergy effect that occurred.
The results of the review show that the synergistic effect in the gasification
process of a mixture of lignite and biomass is largely determined by the main
chemical components of the biomass used. The synergistic effect occurs in the
gasification of the mixture of lignite-rice straw and lignite-palm shell, whereas in
the mixture of lignite-corn cobs there is no synergy, this difference occurs because
the volatile components in corncobs are more than in other biomass. The optimum
particle size of the mixture of lignite and biomass is 1-3 mm. Mixing of biomass
to lignite was found to be optimal at a ratio of 50%. The optimum temperature
occurs in the temperature range of 800-900 oC. Temperature has the most
significant influence on the gasification product. Meanwhile, particle size has a
very small effect compared to other parameters. |
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