Process intensification of biodiesel production by using microwave and ionic liquids as catalyst

The energy crisis pushes the development and intensification of biodiesel production process. Biodiesel is produced by transesterification of vegetable oils or animal fats and conventionally produced by using acid/base catalyst. However, the conventional method requires longer processing time and ob...

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Hauptverfasser:	Handayani, Prima Astuti, Chemical Engineering Program, Faculty of Engineering, Semarang State University, Abdullah, Hadiyanto, Dan
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	09 BIOMASS FUELS ANIMALS BIODIESEL FUELS Catalysis CATALYSTS CHEMICAL INDUSTRY COMPARATIVE EVALUATIONS CORROSION Corrosion effects FATS Innovations INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY Ionic liquids Ions IRRADIATION LIQUIDS MICROWAVE RADIATION Organic chemistry POTENTIALS Process intensification PROCESSING Solvents Transesterification VEGETABLE OILS WASTE FORMS YIELDS
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creator	Handayani, Prima Astuti Chemical Engineering Program, Faculty of Engineering, Semarang State University Abdullah Hadiyanto, Dan
description	The energy crisis pushes the development and intensification of biodiesel production process. Biodiesel is produced by transesterification of vegetable oils or animal fats and conventionally produced by using acid/base catalyst. However, the conventional method requires longer processing time and obtains lower yield of biodiesel. The microwave has been intensively used to accelerate production process and ionic liquids has been introduced as source of catalyst. This paper discusses the overview of the development of biodiesel production through innovation using microwave irradiation and ionic liquids catalyst to increase the yield of biodiesel. The potential microwave to reduce the processing time will be discussed and compared with other energy power, while the ionic liquids as a new generation of catalysts in the chemical industry will be also discussed for its use. The ionic liquids has potential to enhance the economic and environmental aspects because it has a low corrosion effect, can be recycled, and low waste form.
doi_str_mv	10.1063/1.4938303
format	Conference Proceeding
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Biodiesel is produced by transesterification of vegetable oils or animal fats and conventionally produced by using acid/base catalyst. However, the conventional method requires longer processing time and obtains lower yield of biodiesel. The microwave has been intensively used to accelerate production process and ionic liquids has been introduced as source of catalyst. This paper discusses the overview of the development of biodiesel production through innovation using microwave irradiation and ionic liquids catalyst to increase the yield of biodiesel. The potential microwave to reduce the processing time will be discussed and compared with other energy power, while the ionic liquids as a new generation of catalysts in the chemical industry will be also discussed for its use. 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Biodiesel is produced by transesterification of vegetable oils or animal fats and conventionally produced by using acid/base catalyst. However, the conventional method requires longer processing time and obtains lower yield of biodiesel. The microwave has been intensively used to accelerate production process and ionic liquids has been introduced as source of catalyst. This paper discusses the overview of the development of biodiesel production through innovation using microwave irradiation and ionic liquids catalyst to increase the yield of biodiesel. The potential microwave to reduce the processing time will be discussed and compared with other energy power, while the ionic liquids as a new generation of catalysts in the chemical industry will be also discussed for its use. 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The ionic liquids has potential to enhance the economic and environmental aspects because it has a low corrosion effect, can be recycled, and low waste form.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4938303</doi></addata></record>
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subjects	09 BIOMASS FUELS ANIMALS BIODIESEL FUELS Catalysis CATALYSTS CHEMICAL INDUSTRY COMPARATIVE EVALUATIONS CORROSION Corrosion effects FATS Innovations INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY Ionic liquids Ions IRRADIATION LIQUIDS MICROWAVE RADIATION Organic chemistry POTENTIALS Process intensification PROCESSING Solvents Transesterification VEGETABLE OILS WASTE FORMS YIELDS
title	Process intensification of biodiesel production by using microwave and ionic liquids as catalyst
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