Abstract
This Anaerobic Digestion of Sisal decortication residue (SDR) from sisal decorication unit at Hale biogas plant in Tanga (Tanzania) is presented. The study was done to address the challenges facing Katani limited at Hale biogas plant. This plant was built as pilot before building other biogas plants. These challenges were like high retention time of substrate which was SDR, low biogas productivity, high investment costs due to large tanks sizes and low plant availability. From the study, it was discovered that, when particle size was reduced biogas production increased, degradation of SDR also increased and no significant change in biogas composition. Increase in biogas yield of 30% and 129% were recorded for reduced SDR compared to raw size SDR digested at atmospheric condition and 40°C respectivelly. SDR degradation measured in TS and VS removal efficiency, showed increase in degradation of about 5% for the reduced particle size compared to raw size particle. The study concluded that SDR was good raw material for biogas production when 90% of the particles reduced to less than 2 mm. To maximize production, digestion must be conducted at high temperature around 40°C with constant monitoring and control of all para-meters. This will increase plant availability by increasing efficiency and life span of the pumps and stirrers.
Highlights
Sources for renewable energy become more and more important
Sisal wastes have high potential to produce biogas when mechanically pre-treated by particle size reduction and digested in AD operated at temperature of 40 ̊C compared to the one operated at lower atmospheric temperature
In this study LSD with Sisal decortication residue (SDR) reduced in sizes operated at 40 ̊C show that 0.5 m3 biogas can be obtained from 1 kg volatile solids (VS) of sisal wastes
Summary
Sources for renewable energy become more and more important. Among the renewable energies, biogas has theHow to cite this paper: Rajabu, Y.R. and Manyele, S.V. (2015) Performance Improvement for Sisal Waste Anaerobic Biodegradation by Digester Redesign and Feed Size Reduction. Sources for renewable energy become more and more important. How to cite this paper: Rajabu, Y.R. and Manyele, S.V. (2015) Performance Improvement for Sisal Waste Anaerobic Biodegradation by Digester Redesign and Feed Size Reduction. Manyele advantage that it is not a fluctuating source. Biogas can be gained in an anaerobic digestion process from different organic substances, e.g. from energy crops, agricultural waste or municipal organic waste [1]. The biomethane from sisal fibre waste, a waste product from sisal industry, especially in the small-scale or local industry, is of great interest as a renewable energy carrier that could be used for cooking and/or power gene- ration [2]. Fifty-two (52) sisal factories in Tanzania produce about 444,000 tons of waste pulp and 148,000 tons of waste fibre annually, which is often dumped on land or in nearby rivers where it is degraded by microorganisms under uncontrolled conditions [4]
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