Methane from mango industrial waste: Influence of pH and co-anaerobic digestion

Shanika Rae Musser; Sri Suhartini; Lynsey Melville

doi:10.1016/j.biteb.2025.102056

Methane from mango industrial waste: Influence of pH and co-anaerobic digestion

Shanika Rae Musser^* (Corresponding / Lead Author)
, Sri Suhartini
, Lynsey Melville

^*Corresponding author for this work

Department of Engineering

Brawijaya University

Research output: Contribution to journal › Article › peer-review

Abstract

Agro-industries in Indonesia generate significant amounts of mango industrial waste (MIW). This research evaluated the potential of generating methane from Podang and Honey mango seed kernels, peels, and wastewater, which were collected from a dried fruit manufacturer. A biochemical methane potential (BMP) test was performed on the individual MIW components (mono-digestion) and mixtures (co-digestion). The BMP was highest for co-digesting Podang seed kernels and peels at a 1:1 ratio, with an average BMP of 0.112 m3/kg VS substrate. This was the only mixture that had synergistic effects. Crude fat and pH were significant in predicting methane output. All reactors were inhibited by pH with an average post-BMP pH of 4.26. This could be attributed to the acidic nature of MIW and accumulation of volatile fatty acids in the reactor. Future research should investigate the co-digestion of MIW with substrates that have higher crude fat content and pH

Original language	English
Pages (from-to)	102056
Journal	Bioresource Technology Reports
Volume	29
DOIs	https://doi.org/10.1016/j.biteb.2025.102056
Publication status	Published (VoR) - 2 Feb 2025

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title = "Methane from mango industrial waste: Influence of pH and co-anaerobic digestion",

abstract = "Agro-industries in Indonesia generate significant amounts of mango industrial waste (MIW). This research evaluated the potential of generating methane from Podang and Honey mango seed kernels, peels, and wastewater, which were collected from a dried fruit manufacturer. A biochemical methane potential (BMP) test was performed on the individual MIW components (mono-digestion) and mixtures (co-digestion). The BMP was highest for co-digesting Podang seed kernels and peels at a 1:1 ratio, with an average BMP of 0.112 m3/kg VS substrate. This was the only mixture that had synergistic effects. Crude fat and pH were significant in predicting methane output. All reactors were inhibited by pH with an average post-BMP pH of 4.26. This could be attributed to the acidic nature of MIW and accumulation of volatile fatty acids in the reactor. Future research should investigate the co-digestion of MIW with substrates that have higher crude fat content and pH",

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AU - Musser, Shanika Rae

AU - Suhartini, Sri

AU - Melville, Lynsey

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N2 - Agro-industries in Indonesia generate significant amounts of mango industrial waste (MIW). This research evaluated the potential of generating methane from Podang and Honey mango seed kernels, peels, and wastewater, which were collected from a dried fruit manufacturer. A biochemical methane potential (BMP) test was performed on the individual MIW components (mono-digestion) and mixtures (co-digestion). The BMP was highest for co-digesting Podang seed kernels and peels at a 1:1 ratio, with an average BMP of 0.112 m3/kg VS substrate. This was the only mixture that had synergistic effects. Crude fat and pH were significant in predicting methane output. All reactors were inhibited by pH with an average post-BMP pH of 4.26. This could be attributed to the acidic nature of MIW and accumulation of volatile fatty acids in the reactor. Future research should investigate the co-digestion of MIW with substrates that have higher crude fat content and pH

AB - Agro-industries in Indonesia generate significant amounts of mango industrial waste (MIW). This research evaluated the potential of generating methane from Podang and Honey mango seed kernels, peels, and wastewater, which were collected from a dried fruit manufacturer. A biochemical methane potential (BMP) test was performed on the individual MIW components (mono-digestion) and mixtures (co-digestion). The BMP was highest for co-digesting Podang seed kernels and peels at a 1:1 ratio, with an average BMP of 0.112 m3/kg VS substrate. This was the only mixture that had synergistic effects. Crude fat and pH were significant in predicting methane output. All reactors were inhibited by pH with an average post-BMP pH of 4.26. This could be attributed to the acidic nature of MIW and accumulation of volatile fatty acids in the reactor. Future research should investigate the co-digestion of MIW with substrates that have higher crude fat content and pH

U2 - 10.1016/j.biteb.2025.102056

DO - 10.1016/j.biteb.2025.102056

M3 - Article

SN - 2589-014X

VL - 29

SP - 102056

JO - Bioresource Technology Reports

JF - Bioresource Technology Reports

ER -

Methane from mango industrial waste: Influence of pH and co-anaerobic digestion

Abstract

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