EXPLORING SOURSOP KERNEL AS A SUSTAINABLE BIOFUEL: ANALYZING PHYSICAL AND SOLID FLOW PROPERTIES FOR FEASIBILITY ASSESSMENT
Abstract
Soursop kernel is an oil-bearing seed containing about 25% non-edible oil per 100 g sample making it a potential feedstock for biofuel production. However, exploring the full potential of the oil requires data to design and fabricate appropriate machines for its processing. So, this necessitates a thorough examination of its physical and solid flow behaviour in relation to moisture contents. The experiments conducted on rewetted samples revealed that as moisture content (mc) increased from 8% to 32.5% dry basis (db), the length, width, thickness, arithmetic and geometric mean diameter, volume, surface area, sphericity, and thousand kernels weight increased from 11.40-12.06 mm, 7.04-7.92 mm, 4.58-5.34 mm, 7.69-8.44 mm, 7.12-7.49 mm, 6.5–8.13 cm3, 160.19-199.05 mm2, 0.62- 0.66 and 186.4–291 g, respectively. The true density decreased from 720 to 670 kg/m³, whereas the bulk density increased from 470 to 570 kg/m³. The angle of repose linearly increased from 25.8° to 39.2° as moisture content increased. The highest mean values for coefficients of friction were observed on mild steel surfaces (0.44 for static and 0.53 for dynamic) at 8.0% mc (db) while the lowest values were recorded on stainless steel surfaces (0.20 for static and 0.37 for dynamic) at both 32.5% and 8.0%, (mc, db). The data obtained will prove beneficial to engineers in the design and development of appropriate machines, as well as other handling and processing equipment such as oil expellers, so as to explore the full industrial application of the oil for biodiesel production and other chemical production