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Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production

In Malaysia, the palm oil industry generates vast amounts of solid and liquid waste, including empty fruit bunches (EFB) and palm oil mill effluent (POME). Finding efficient and environmentally friendly ways to manage and utilise this waste is crucial for sustainability. The research explores the ut...

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Main Authors: Aziz N.A.M., Mohamed H., Zainal B.S., Abdullah R.A., Rizal N.A.S.M., Yu K.L., Jamali N.S.
Other Authors: 57222026676
Format: Conference paper
Published: Institute of Physics 2025
Subjects:
Anaerobic digestion
Chemical oxygen demand
Chlorine compounds
Effluents
Fermentation
Fruits
Hydrogen production
Palm oil
Substrates
Bio-hydrogen production
Bioenergy productions
Chemical-oxygen demands
Dark fermentation
Empty fruit bunches
Fermentation process
Inocula
Palm oil mill effluents
Renewable energies
Torrefaction
Biomass
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spelling my.uniten.dspace-370682025-03-03T15:47:09Z Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production Aziz N.A.M. Mohamed H. Zainal B.S. Abdullah R.A. Rizal N.A.S.M. Yu K.L. Jamali N.S. 57222026676 57136356100 57200914760 59231252800 59231252900 57539404500 57189578426 Anaerobic digestion Chemical oxygen demand Chlorine compounds Effluents Fermentation Fruits Hydrogen production Palm oil Substrates Bio-hydrogen production Bioenergy productions Chemical-oxygen demands Dark fermentation Empty fruit bunches Fermentation process Inocula Palm oil mill effluents Renewable energies Torrefaction Biomass In Malaysia, the palm oil industry generates vast amounts of solid and liquid waste, including empty fruit bunches (EFB) and palm oil mill effluent (POME). Finding efficient and environmentally friendly ways to manage and utilise this waste is crucial for sustainability. The research explores the utilisation of wet torrefaction in water for EFB, examining its impact on anaerobic digestion, specifically the dark fermentation (DF) process. The liquid product of torrefied EFB was further investigated as a substrate for biohydrogen production, employing innovative pre-treatment methods such as heat and acid on POME as the inoculum. This study focused on exploring the impact of temperature and holding time on the wet torrefaction of EFB prior to the dark fermentation process. Wet torrefaction was conducted at temperatures between 180 - 210�C and EFB: water ratio of 1:20 for 10 - 30 min, resulting in a mass yield of 52 - 54% and a chemical oxygen demand (COD) of 19.7 - 25.4 g/L COD. The chosen conditions (210�C for 30 min) demonstrated the lowest COD, validating the potential of torrefied liquid EFB for biohydrogen production. Dark fermentation was carried out at 37�C for 5 days, exploring various inoculum pretreatment parameters, including heat (80�C for 1 hr) and acid treatment (HCL pH 2-4). Liquid torrefied EFB with heat treatment inoculum exhibited the highest biohydrogen yield of 5.8 Nml, a notable 18% increase compared to the control. Through optimisation of parameters and effective waste management strategies, wet torrefaction and dark fermentation of EFB and POME emerge as promising approaches for sustainable biomass utilisation and renewable energy generation. ? Published under licence by IOP Publishing Ltd. Final 2025-03-03T07:47:09Z 2025-03-03T07:47:09Z 2024 Conference paper 10.1088/1755-1315/1372/1/012033 2-s2.0-85199342470 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85199342470&doi=10.1088%2f1755-1315%2f1372%2f1%2f012033&partnerID=40&md5=4b134820fa69089ab7ceea1416238c15 https://irepository.uniten.edu.my/handle/123456789/37068 1372 1 12033 Institute of Physics Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Anaerobic digestion
Chemical oxygen demand
Chlorine compounds
Effluents
Fermentation
Fruits
Hydrogen production
Palm oil
Substrates
Bio-hydrogen production
Bioenergy productions
Chemical-oxygen demands
Dark fermentation
Empty fruit bunches
Fermentation process
Inocula
Palm oil mill effluents
Renewable energies
Torrefaction
Biomass
spellingShingle Anaerobic digestion
Chemical oxygen demand
Chlorine compounds
Effluents
Fermentation
Fruits
Hydrogen production
Palm oil
Substrates
Bio-hydrogen production
Bioenergy productions
Chemical-oxygen demands
Dark fermentation
Empty fruit bunches
Fermentation process
Inocula
Palm oil mill effluents
Renewable energies
Torrefaction
Biomass
Aziz N.A.M.
Mohamed H.
Zainal B.S.
Abdullah R.A.
Rizal N.A.S.M.
Yu K.L.
Jamali N.S.
Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
description In Malaysia, the palm oil industry generates vast amounts of solid and liquid waste, including empty fruit bunches (EFB) and palm oil mill effluent (POME). Finding efficient and environmentally friendly ways to manage and utilise this waste is crucial for sustainability. The research explores the utilisation of wet torrefaction in water for EFB, examining its impact on anaerobic digestion, specifically the dark fermentation (DF) process. The liquid product of torrefied EFB was further investigated as a substrate for biohydrogen production, employing innovative pre-treatment methods such as heat and acid on POME as the inoculum. This study focused on exploring the impact of temperature and holding time on the wet torrefaction of EFB prior to the dark fermentation process. Wet torrefaction was conducted at temperatures between 180 - 210�C and EFB: water ratio of 1:20 for 10 - 30 min, resulting in a mass yield of 52 - 54% and a chemical oxygen demand (COD) of 19.7 - 25.4 g/L COD. The chosen conditions (210�C for 30 min) demonstrated the lowest COD, validating the potential of torrefied liquid EFB for biohydrogen production. Dark fermentation was carried out at 37�C for 5 days, exploring various inoculum pretreatment parameters, including heat (80�C for 1 hr) and acid treatment (HCL pH 2-4). Liquid torrefied EFB with heat treatment inoculum exhibited the highest biohydrogen yield of 5.8 Nml, a notable 18% increase compared to the control. Through optimisation of parameters and effective waste management strategies, wet torrefaction and dark fermentation of EFB and POME emerge as promising approaches for sustainable biomass utilisation and renewable energy generation. ? Published under licence by IOP Publishing Ltd.
author2 57222026676
author_facet 57222026676
Aziz N.A.M.
Mohamed H.
Zainal B.S.
Abdullah R.A.
Rizal N.A.S.M.
Yu K.L.
Jamali N.S.
format Conference paper
author Aziz N.A.M.
Mohamed H.
Zainal B.S.
Abdullah R.A.
Rizal N.A.S.M.
Yu K.L.
Jamali N.S.
author_sort Aziz N.A.M.
title Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
title_short Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
title_full Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
title_fullStr Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
title_full_unstemmed Study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
title_sort study of wet torrefaction and anaerobic digestion of empty fruit bunches for bioenergy production
publisher Institute of Physics
publishDate 2025
_version_ 1825816128253853696
score 13.244367

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