STUDY OF METHANOL AND DME PROCESS PRODUCTION FROM COAL GAS SYNTHESIS RESULTS
One candidate for a substitute for petroleum-based fuels is dimethyl ether (DME). LPG imports in Indonesia are projected to increase to 13.2 million tonnes in 2050. DME can be used as a mixture of LPG because it has physical properties that resemble LPG. Apart from the ever-increasing imports of...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/55043 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One candidate for a substitute for petroleum-based fuels is dimethyl ether (DME).
LPG imports in Indonesia are projected to increase to 13.2 million tonnes in 2050.
DME can be used as a mixture of LPG because it has physical properties that
resemble LPG. Apart from the ever-increasing imports of LPG, the need for
methanol every year in Indonesia is also increasing. The coal downstream program
is a program to convert coal into final products, namely methanol and DME.
Methanol and DME synthesis technology is divided into two methods. The direct
synthesis method is carried out in one step, namely from the synthesis gas directly
to DME (model-1). The indirect synthesis method is a two-stage synthesis
technology of methanol synthesis followed by methanol dehydration to produce
DME (model-2). These two synthesis methods have been widely studied by several
process technology licensors such as JFE Group, Haldor Topsoe, TEC, and Lurgi.
The purpose of this research is to conduct a techno-economic study for two models
of methanol and DME production processes. The aspects studied in this study are
expected to help, especially for coal mining producers to be able to implement the
coal downstream program as a program for converting coal into final products such
as DME.
The selection of technology is conducted by group discussions with members of the
laboratory of the thermofluid and system utility ITB and advisers who are indeed
expertise in this field. The wto types of production process flow resulting from the
selection of this technology will be compared based on technical aspects and
economic aspects to get the most suitable production process flow.
The equilibrium reactor modeling to resemble a real reactor can be validated using
a known feed base whose product composition is known. The validation results to
obtain value of temperature approach to equilibrium (?Tap). The parameter values
will follow the equation for the reaction involved. The ?Tap parameters for
methanol synthesis and methanol dehydration reaction were -20.21 and 10.17 ?.
Evaluation of the effect of variable operating conditions on process performance
parameters is needed to determine the optimum operating conditions. The effect of
temperature has a tendency for the lower the better and vice versa for the effect of pressure. The optimum operating conditions for model-1 are a temperature of 200
?, a pressure of 45 bar, and a recycling ratio of 0.65. Meanwhile, for model-2, the
temperature is 200 ?, pressure is 75 bar, and the recycling ratio is 0.7
This study uses Aspen HYSYS process simulation software as a tool to obtain
comparison parameters for the type of production process flow. Economic
evaluation is carried out based on the minimum feasibility estimate for class V with
an accuracy of -30% / + 50% using Excel and Aspen Icarus software to obtain
comparative parameters in economic aspects.
Overall CO conversion can be achieved for both models up to 97%. The yield of
DME for model-1 is 15,7% and for model-2 is 20,5%. The daily production of DME
for model-1 reached 34.9 tons and for model-2 was 46.2 tons. The heat demand per
DME product in MMBtu produced for model-1 is 9.0 and for model-2 is 10.3. The
electricity demand per DME product in kW for model-1 is 14.9 and for model-2 is
15.1.
The capital value for model-1 is 9.37 million USD and for model-2 is 8.72 million
USD. Operating costs per tonne of DME product are 210 USD for model-1 and
USD 147 for model-2. The IRR eligibility parameter for model-1 is 21.37% with
NPV of 8.66 million USD and for model-2 is 68.54% with NPV of 28.82 million
USD
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