Abstract
The disadvantages of conventional biodiesel synthesis trigger the birth of new biodiesel synthesis methods using the DBD plasma reactor. The conventional methods with homogeneous and heterogeneous catalysts have significant constraints that the formation of glycerol compounds in large enough quantities that require considerable energy. The aim of present experiment is to design DBD non-thermal plasma reactor coaxial pipe type and to do its performance test in converting biodiesel The feed stock used are palm oil, ethanol, and argon gas as plasma carrier. Such a chemical reactor, this plasma reactor is also influenced by reaction kinetics and hydrodynamic factors. From this research, it can be seen that the optimum feed and gas flowrate being operated is 1.64 and 41.67 mL/s. The plasma reactor is used in the form of a quartz glass tube surrounded by a SS-314 spiral coil as an outer electrode. The applied operating conditions are 1 : 1 molar ratio of methanol/oil, ambient temperature of 28 - 30 °C, and pressure 1 bar. From this performance test, it is found that this plasma reactor can be used to synthesize biodiesel from palm oil and methanol without catalyst, no formation of soap, and minimal byproducts.
Highlights
Indonesia's reliance on fossil energy has made domestic oil production decline drastically since 2001 ago
In the coming 2025s, Indonesia is expected to experience a solar deficit of about 35 million kiloliters if no other energy source can replace it
Biodiesel is defined as mono-alkyl esters of long chain fatty acids derived from renewable sources, primarily as triglyceride compounds in the form of vegetable oils and animal fats
Summary
Indonesia's reliance on fossil energy has made domestic oil production decline drastically since 2001 ago. This situation is driven by the growing needs of the industrial sector in Indonesia. [1] The decline in oil production encourages the development of alternative energy, one of which is biodiesel. In this case, biodiesel is chosen to be an alternative fuel because of the large amount of biodiesel feedstock available in Indonesia. Biodiesel is defined as mono-alkyl esters of long chain fatty acids derived from renewable sources, primarily as triglyceride compounds in the form of vegetable oils and animal fats. Indonesia is one of the largest palm oil producers in the world accompanied by Malaysia as the
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