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Biodiesel and Its Importance as an Alternative Energy Source for the Fuel Crisis

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dc.contributor.author Perera, B.S.S.
dc.contributor.author Kadigamuwa, C.C.
dc.date.accessioned 2023-10-31T04:55:24Z
dc.date.available 2023-10-31T04:55:24Z
dc.date.issued 2023
dc.identifier.citation Perera B.S.S., Kadigamuwa C.C. (2023). Biodiesel and Its Importance as an Alternative Energy Source for the Fuel Crisis, Multisectoral Approaches to Accelerate Economic Transformation in the Face of Crisis in Sri Lanka, Young Scientists Forum (YSF) National Science and Technology Commission Sri Lanka, 242 - 254 en_US
dc.identifier.uri http://repository.kln.ac.lk/handle/123456789/26815
dc.description.abstract Upsurging of the population throughout the world has given a negative effect on daily energy consumption. Fossil fuel reserves are decreasing gradually due to the energy demand and the need of finding alternatives is growing. Biodiesel is such an alternative that derived from crops and animals. It is also contributing to the green environment as it does not emit carbon dioxides, carbon monoxides, hydrocarbons and particulate matter comparative to petroleum diesel. There are several types of oils and fats that are used in deriving biodiesel such as edible oil and non-edible oils. Palm oil, jatropha oil, soybean oil, castor oil, algae and animal fats are some of the feedstocks used in producing biodiesel. Waste cooking oil is an economical alternative for the sources of biodiesel. The triglycerides of oils and fats are used to produce alcohols and esters which could be result from catalytic or non- catalytic reactions. Biodiesel is composed of mono-alkyl esters of long-chain fatty acids and is synthesized mainly by pyrolysis, microemulsion and transesterification. The transesterification is the most common and widely used method of manufacturing biodiesel. Acid catalyzed transesterification, alkali catalyzed transesterification, enzyme catalyzed transesterification and non-catalytic esterification are broadly used in the transesterification process. Properties, such as, cetane number, cloud and pour point, density and viscosity have an enormous impact on the quality of biodiesel. This chapter provides an overview of the manufacturing process and characteristics of biodiesel. en_US
dc.publisher Young Scientists Forum (YSF) National Science and Technology Commission Sri Lanka en_US
dc.subject Alternatives, Biodiesel, Edible and non-edible oils, Transesterification en_US
dc.title Biodiesel and Its Importance as an Alternative Energy Source for the Fuel Crisis en_US


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