Attached
– There is a growing concern on the use of alternative sustainable energy source to overcome the
energy crisis. Hence, biodiesel from cyanobacteria has drawn the attention of the scientific community. The
present study was carried out to find potential utilization of Microcystis bloom for biodiesel production.
Microcystis bloom samples were collected from Beira Lake, Sri Lanka and Soxhlet extraction method with
Isopropanol: n-hexane (3:2) solvent system was employed to extract lipids. In the present study,biodiesel B6
blend was prepared and the properties of B6 blend were compared with ASTM D 7467(American Society
for Testing and Materials standard for B6 – B20 Biodiesel blends)and Ceylon Petroleum Corporation
specifications for no: 02-grade auto diesel to confirm the fuel properties and the usability respectively.
Biodiesel B6 blend was subjected to determination of fuel properties and density at 15oC (ASTM D 1298/
4052), Viscosity Kinematic at 60o
C (ASTM D 445), Calorific value (Gross) (ASTM D240), Cloud point (ASTM
D 2500), Lubricity (HFRR wear sear dia at 60oC) (ASTM D 6079), Sulphur content (ASTM D 4294) and CFPP
(Cold Filter Plugging Point) value (ASTM D 6371) were 831.00kg/m3
, 2.83cSt., 11180.00kcal/kg, 6oc,
405.00µm, 2310.00ppm and 4o
C. The results revealed that biodiesel B6 blend complied with ASTM standards
for lubricity, kinematic viscosity and sulfur content (S5000). The fuel properties of kinematic viscosity,
density, sulfur content and CFPP value complied with the Ceypetco auto diesel specifications and the energy
content of the blend was higher than Ceypetco auto diesel specifications. The results of the present study
revealed that the Microcystis bloom can be utilized as a potential candidate to produce biodiesel.