Effect of particle size on biogas yield from sisal fibre waste
(2006) In Renewable Energy 31(14). p.2385-2392- Abstract
- The degradation and biogas production potential of sisal fibre waste could be significantly increased by pre-treatment for reduction of particle size. Batch-wise anaerobic digestion of sisal fibre waste was carried out in 1-l digesters with fibre sizes ranging from 2 to 100 mm, at an ambient temperature of 33 °C. Sediment from a stabilisation pond at a sisal production plant was used as starter seed. Total fibre degradation increased from 31% to 70% for the 2 mm fibres, compared to untreated sisal fibres. Furthermore, the results confirmed that methane yield was inversely proportional to particle size. Methane yield increased by 23% when the fibres were cut to 2 mm size and was 0.22 m3 CH4/kg volatile solids, compared to 0.18 m3 CH4/kg... (More)
- The degradation and biogas production potential of sisal fibre waste could be significantly increased by pre-treatment for reduction of particle size. Batch-wise anaerobic digestion of sisal fibre waste was carried out in 1-l digesters with fibre sizes ranging from 2 to 100 mm, at an ambient temperature of 33 °C. Sediment from a stabilisation pond at a sisal production plant was used as starter seed. Total fibre degradation increased from 31% to 70% for the 2 mm fibres, compared to untreated sisal fibres. Furthermore, the results confirmed that methane yield was inversely proportional to particle size. Methane yield increased by 23% when the fibres were cut to 2 mm size and was 0.22 m3 CH4/kg volatile solids, compared to 0.18 m3 CH4/kg volatile solids for untreated fibres. By anaerobic digestion and biogas production, the 148,000 tonne of waste sisal fibres generated annually in Tanzania could yield 22 million m3 of methane, and an additional 5 million m3 of methane if pre-treatment by size reduction to 2 mm was applied. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/158642
- author
- Mshandete, Anthony LU ; Björnsson, Lovisa LU ; Kivaisi, A ; Rubindamayugi, M and Mattiasson, Bo LU
- organization
- publishing date
- 2006
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Renewable Energy
- volume
- 31
- issue
- 14
- pages
- 2385 - 2392
- publisher
- Elsevier
- external identifiers
-
- wos:000240391700013
- scopus:33746762257
- ISSN
- 0960-1481
- DOI
- 10.1016/j.renene.2005.10.015
- language
- English
- LU publication?
- yes
- id
- 83f4a8f1-10db-4fb7-a502-40ab810c55c4 (old id 158642)
- date added to LUP
- 2016-04-01 12:33:53
- date last changed
- 2022-04-13 20:33:33
@article{83f4a8f1-10db-4fb7-a502-40ab810c55c4, abstract = {{The degradation and biogas production potential of sisal fibre waste could be significantly increased by pre-treatment for reduction of particle size. Batch-wise anaerobic digestion of sisal fibre waste was carried out in 1-l digesters with fibre sizes ranging from 2 to 100 mm, at an ambient temperature of 33 °C. Sediment from a stabilisation pond at a sisal production plant was used as starter seed. Total fibre degradation increased from 31% to 70% for the 2 mm fibres, compared to untreated sisal fibres. Furthermore, the results confirmed that methane yield was inversely proportional to particle size. Methane yield increased by 23% when the fibres were cut to 2 mm size and was 0.22 m3 CH4/kg volatile solids, compared to 0.18 m3 CH4/kg volatile solids for untreated fibres. By anaerobic digestion and biogas production, the 148,000 tonne of waste sisal fibres generated annually in Tanzania could yield 22 million m3 of methane, and an additional 5 million m3 of methane if pre-treatment by size reduction to 2 mm was applied.}}, author = {{Mshandete, Anthony and Björnsson, Lovisa and Kivaisi, A and Rubindamayugi, M and Mattiasson, Bo}}, issn = {{0960-1481}}, language = {{eng}}, number = {{14}}, pages = {{2385--2392}}, publisher = {{Elsevier}}, series = {{Renewable Energy}}, title = {{Effect of particle size on biogas yield from sisal fibre waste}}, url = {{http://dx.doi.org/10.1016/j.renene.2005.10.015}}, doi = {{10.1016/j.renene.2005.10.015}}, volume = {{31}}, year = {{2006}}, }