Abstract:
Energy demand is increasing worldwide with expected fossil fuel shortages, alternative
energy resources need to be explored. Moreover, the high fossil energy utilization with its
unfavorable impact on environment and climate changes entitle for bio-fuels. In
Bangladesh energy consumption is increasing at a rapid rate due to rapid industrialization,
transportation and mechanization. Increasing pressure of population and increasing use of
energy in agriculture, industrial, domestic and public sectors is an area of concern. At the
same time, the need to meet energy demand has created huge capital requirements needed
for setting up power plants, pipe-lines, ports, terminals, railway tracks to move fuel etc.
Biodiesel fuel can be defined as medium length (C16 to C18) chains of fatty acids, and is
comprised mainly of mono-alkyl fatty acid esters. It is made through a chemical process
called transesterification where by the glycerin is separated from the fat or vegetable oil.
The process leaves behind two products: methyl esters (biodiesel) and glycerin.
In the present work the production of biodiesel from castor oil by transesterification of the
raw oil with methanol in the presence of H2SO4 and NaOH as catalyst. Castor oil (Ricinus
Communis L.) enclosed high value of fatty acid which makes transesterification process be
converted into methyl esters (biodiesel) due to high solubility in methanol. Biodiesel
produced from castor oil has been one of the most significant studies for current
researcher. Also methyl esters are transformed from castor oil by etherification process.
Various fuel properties of biodiesel produced from castor oil like density, viscosity, flash
point, fire point, pour point, calorific value were characterized and compared with the
properties of standard petro-diesel. It could be concluded that these oil from castor oil can
be used as a viable alternative to the diesel fuel.
Description:
This thesis is submitted to the Department of Energy Science and Engineering, Khulna University of Engineering & Technology in partial fulfillment of the requirements for the degree of Master of Science in Energy Science and Engineering, February, 2017.
Cataloged from PDF Version of Thesis.
Includes bibliographical references (pages 74-78).