The present technology of transesterification of vegetable oils to produce biodiesel, which is suited to replace petrodiesel, has economic challenges, and therefore, alternative sources are being explored. Microalgae, a renewable, third-generation biofuel resource, have the potential to become a viable feedstock due to their high oil content and environmentally friendly nature. The present study investigates the effect of microwave irradiation on the simultaneous extraction and transesterification of algae lipids to produce fatty acid methyl ester (FAME), in a batch reaction system using sulphuric acid catalyst. In situ transesterification combines the two steps of lipid extraction and transesterification into a single step. The microwave synthesis unit comprised of a 3-neck round bottom flask inside a 1300-Watt microwave oven, fitted with a quick-fit condenser and having an external stirrer. Response surface methodology (RSM) was used to analyse the influence of process variables, dry algae to methanol ratio
1
:
4
−
1
:
14
g
/
ml
,
algae biomass to catalyst ratio
1
:
0.0032
−
1
:
0.0368
wt
%
,
and reaction time
1
−
11
min
,
at
500
rpm stirring rate for in situ reaction. FAME was analysed using gas chromatography (GC). The total lipid content of Arthrospira Spirulina platensis microalgae biomass was found to be
10.7
%
by weight. The algae biomass also contained proteins at
51.83
%
, moisture content at
7.8
%
, and ash content
14.30
%
by weight. RSM gave the optimum process conditions as dry algae biomass feed to methanol
wt
/
vol
ratio of 1 : 9, catalyst concentration of
2
wt
%
,
and reaction time of
7
minutes
for a maximum FAME yield of
83.43
wt
%
.
The major fatty acid composition of FAME was palmitic
43.83
%
, linoleic
38.83
%
, and linolenic
19.41
%
. FAME properties obtained according to European Standards (EN 14214) and American Society for Testing and Materials (ASTM D 6751) standards were as follows: flash point
16
4
o
C
calorific value
32,911
kJ
/
kg
,
acid value
0.475
KOH
/
g
,
viscosity
4.45
m
m
2
/
s
, and specific gravity
0.868
. The study showed that Arthrospira Spirulina platensis microalgae lipid FAME met the biodiesel standards (EN 14214 and ASTM D 6751) and has the potential to replace petrodiesel. Microwave irradiation increased the reaction rate resulting in a reduced reaction time of 7 minutes (as compared to 8 hours for conventional heating) and therefore was found to be a superior heating mode as compared to conventional heating.
In Situ Transesterification of Spirulina Microalgae to Produce Biodiesel Using Microwave Irradiation
