In the last few decades world scarr

In the last few decades world scarred by dwindling of fossil fuels
and its limited resources for future. The world’s energy consumption
mainly depends on the liquid and solid fossil fuels. Fossil fuel
reserves are few in numbers and they are already reaching their
peak production. These non-renewable resource consumption rates
are faster than the production. To save the world for future energy
crises the renewable energy sources are more attractive option [1].
All the renewable energy technologies are eco-friendly and sustainable.
Currently renewable energy source adoption faced hurdles
because of economic problems, shortage of supply, and lack of technical
aspects [2]. The fossil fuels and their products are the major
contributors of the greenhouse gases, global warming, air pollution,
incomplete burning of hydrogen, carbon and particulate matter.
Renewable energy sources are the ideal solution of these problems
[3]. Biodiesel is defined by the ASTM as a liquid fuel that composed
of the fatty acid alkyl ester of the long chain fatty acid derived from
the vegetable oil and animal fat. Generally there are four major
types of feedstock available for the biodiesel production including
oil seed (vegetable oil), animal fats, algae and different low quality
material such as waste cooking oil, greases and soap stock [1,4].
Biodiesel production at industrial scale mostly utilized oil such as
soybean, palm and canola. But the excess use of these vegetable oils
(edible oil) leads to food versus fuel crisis. The high cost of biodiesel
is one of the major hurdles towards its large scale commercialization.
About 80% or more of biodiesel cost is altered by its feedstock
price [5]. Present researchers are focusing on the non-edible oil
sources for the biodiesel production, such as jatropha, Moringa
oleifera, Pongamia pinnata and camelina sativa [6–9].
Current study utilizes the non-edible rubber seed oil for the biodiesel
production. Rubber tree (Hevea brasiliensis) belongs to the
family of euphorbiaceous. The oil content in rubber seed is
between 40% and 50% [10]. Malaysia in one of the major rubber
producing country in the world, according to Association of Natural
Rubber Producing countries with an estimated rubber seed production
in Malaysia to be 1.2 million metric tons [11,12]. The rubber
seed oil has free fatty acid contents as described by Ramdhas
et al. [13]. Rubber seed oil has the potential to be used as biodiesel
feedstock for the biodiesel production. Parametric study of the
effect of process variables on acid esterification and base transesterification
of rubber seed oil was done using the Design Expert 8.0
software. The RSM (Response Surface Methodology) that includes
a statistical and a mathematical tool was used to analyze and optimize
the reaction parameters. The experimental design employed
CCD (Central Composite Design) which is an effective, efficient
and economical way of experimental techniques [14]. The present
study findings was compared with the previous researchers work
and shows better results in terms of the fuel properties.