DEVELOPMENT OF HYBRID COAL PRODUCTION PROCESS
Coal is one of the abundant sources of fossil energy in Indonesia. Until now its use is still one of the main choices, regardless of the use of coal, there are problems, namely the high amount of CO2 emissions, coal is considered an energy source that is not environmentally friendly, so it is nec...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/71852 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Coal is one of the abundant sources of fossil energy in Indonesia. Until now its use
is still one of the main choices, regardless of the use of coal, there are problems,
namely the high amount of CO2 emissions, coal is considered an energy source that
is not environmentally friendly, so it is necessary to carry out processing that is
able to overcome these problems. Meanwhile, biomass waste in Indonesia is very
abundant, and it is known that biomass as an environmentally friendly fuel because
it has a neutral carbon footprint value, so that if coal and biomass are combined in
the co-torefaction process it can produce a new product, namely hydride coal which
is has a neutral carbon footprint value than the original coal. This research is a
continuation of research on hybrid coal which previously used a rotating drum
reactor with a capacity of 1 kg.
The purpose of this study was to evaluate the performance of the hybrid coal cotorrefaction
process in the rotary drum reactor that occurred during the
experimental process, with the specific objective of knowing the results of the
reactor performance by modifying the reactor so that the heat generated during the
torrefaction process can be more evenly distributed and determine the quality of
the resulting hybrid coal products. The reactor operates at atmospheric pressure
in which there are two chambers, namely the drum as the co-torofaction chamber
and the shell as the combustion chamber. Process variables were varied, namely
the feed:fuel ratio and the feeding process with a ratio of 1:3, 1:4, and 1:5. The
energy source uses biomass heat, sub-bituminous coal and pine sawdust with a
mixture composition of 30%.
The development of hybrid coal production is capable of producing a calorific
value of 6947-7959 cal/g with energy and mass gains, namely in the range of 77-
86% and 78.63-89.20%. The mass and energy gains have decreased from previous
studies because the fuel was overloaded in the combustion chamber, requiring
further study on the intermittent fuel feeding process. With this research, it is hoped
that it can provide answers about a good system to meet energy needs in the
manufacture of hybrid coal which can later be applied on a larger scale in the
industry and be able to compete with raw coal as a start towards environmentally
friendly technology.
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