ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR

ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR

The uncontrolled use of oil-based fuels for transportation, household, and industrial purposes was the main cause of the depletion of oil and gas in Indonesia. Besides, the large amount of LPG imports that exceed 50% of domestic LPG production in Indonesia was encouraging the government to obtain...

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Main Author: Retno Wulandary, Indah
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/49747
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:49747
spelling id-itb.:497472020-09-18T21:58:16ZACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR Retno Wulandary, Indah Indonesia Theses direct dimethyl ether synthesis, synthetic gas, bifunctional catalyst, coprecipitation. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/49747 The uncontrolled use of oil-based fuels for transportation, household, and industrial purposes was the main cause of the depletion of oil and gas in Indonesia. Besides, the large amount of LPG imports that exceed 50% of domestic LPG production in Indonesia was encouraging the government to obtain alternative energy. One of the government's innovations was producing dimethyl ether (DME) from synthetic gas obtained through the coal gasification process. In this study, DME was obtained directly from synthetic gas using CuO-ZnO-Al2O3 (CZA) and CuO-ZnO-MgOAl2O3 (CZMA5) bifunctional catalysts. The objective of this research was to develop of CZA bifunctional catalyst and its modifying used the co-precipitation method. The research was carried out in three steps: (1) the synthesis of catalysts, (2) activation of catalyst, and (3) catalyst activity tests. In this research, bifunctional catalyst was modified with an additional MgO of 5% (by weight) on the CZA catalyst. The co-precipitation method formed a raw catalyst. The next step was activated raw catalyst using reducing gas that contained 5% H2, 95% N2 and produced Cu-ZnO-Al2O3 and Cu-ZnO-MgO-Al2O3 bifunctional catalysts. After that, the catalyst was tested for its activity for the direct synthesis of DME. The feed of the reactor was syngas that contains 65% H2, 28% CO, 7% N2. A fixed bed tubular reactor with a diameter of 2,4 cm and a height of 43,4 cm was used for the activity test of the catalyst. DME direct synthesis was carried out at 260?280?, and 10?20 bar. The downstream of the reactor was analyzed using gas chromatography. The experiment showed the activity of the CZA catalyst was better than CZMA5. The maximum CO and H2 conversions obtained were 91,01% and 82,90% at 280?, 15 bar using the CZA bifunctional catalyst. Yield DME obtained was also low, amounting to 0,12% by using the CZA bifunctional catalyst at 260?, 15 bar. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description The uncontrolled use of oil-based fuels for transportation, household, and industrial purposes was the main cause of the depletion of oil and gas in Indonesia. Besides, the large amount of LPG imports that exceed 50% of domestic LPG production in Indonesia was encouraging the government to obtain alternative energy. One of the government's innovations was producing dimethyl ether (DME) from synthetic gas obtained through the coal gasification process. In this study, DME was obtained directly from synthetic gas using CuO-ZnO-Al2O3 (CZA) and CuO-ZnO-MgOAl2O3 (CZMA5) bifunctional catalysts. The objective of this research was to develop of CZA bifunctional catalyst and its modifying used the co-precipitation method. The research was carried out in three steps: (1) the synthesis of catalysts, (2) activation of catalyst, and (3) catalyst activity tests. In this research, bifunctional catalyst was modified with an additional MgO of 5% (by weight) on the CZA catalyst. The co-precipitation method formed a raw catalyst. The next step was activated raw catalyst using reducing gas that contained 5% H2, 95% N2 and produced Cu-ZnO-Al2O3 and Cu-ZnO-MgO-Al2O3 bifunctional catalysts. After that, the catalyst was tested for its activity for the direct synthesis of DME. The feed of the reactor was syngas that contains 65% H2, 28% CO, 7% N2. A fixed bed tubular reactor with a diameter of 2,4 cm and a height of 43,4 cm was used for the activity test of the catalyst. DME direct synthesis was carried out at 260?280?, and 10?20 bar. The downstream of the reactor was analyzed using gas chromatography. The experiment showed the activity of the CZA catalyst was better than CZMA5. The maximum CO and H2 conversions obtained were 91,01% and 82,90% at 280?, 15 bar using the CZA bifunctional catalyst. Yield DME obtained was also low, amounting to 0,12% by using the CZA bifunctional catalyst at 260?, 15 bar.
format Theses
author Retno Wulandary, Indah
spellingShingle Retno Wulandary, Indah
ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
author_facet Retno Wulandary, Indah
author_sort Retno Wulandary, Indah
title ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
title_short ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
title_full ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
title_fullStr ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
title_full_unstemmed ACTIVITY TEST OF CUO-ZNO-AL2O3 (CZA) CATALYST FOR DIRECT SYNTHESIS OF DME IN BATCH REACTOR
title_sort activity test of cuo-zno-al2o3 (cza) catalyst for direct synthesis of dme in batch reactor
url https://digilib.itb.ac.id/gdl/view/49747
_version_ 1822000458964664320

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