Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst

Conventional supercritical water gasification (SCWG) of sewage sludge produces liquid residues with organic pollutants, heavy metals and others. In order to reduce liquid residues released into the environment, this study investigated the reuse of liquid residues as feed water in subsequent SCWG. We...

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Main Authors: Zhang, H., Zhang, S., Weng, Zhouchao, Mubeen, Ishrat, Zhang, C., Yan, Mi, Fauziah, Shahul Hamid
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Published: Springer Verlag 2020
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Online Access:http://eprints.um.edu.my/24561/
https://doi.org/10.1007/s13762-020-02697-x
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spelling my.um.eprints.245612020-06-03T01:21:01Z http://eprints.um.edu.my/24561/ Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst Zhang, H. Zhang, S. Weng, Zhouchao Mubeen, Ishrat Zhang, C. Yan, Mi Fauziah, Shahul Hamid Q Science (General) QH Natural history Conventional supercritical water gasification (SCWG) of sewage sludge produces liquid residues with organic pollutants, heavy metals and others. In order to reduce liquid residues released into the environment, this study investigated the reuse of liquid residues as feed water in subsequent SCWG. We also evaluated the effect of wastewater reuse on syngas production and fate of heavy metal. The experiment was performed in a 500-ml-capacity Hastelloy reactor at 400 °C and above 25 Mpa for 60 min with a 4:1 ratio of 10% dry wt. of solid (mixture of sludge and empty fruit bunch) and 90% wt. of liquid feed. The use of recycled liquid increased the concentration of K and Na in the solution from 26 mg/L and 91 mg/L to 49 mg/L and 290 mg/L, respectively. Subsequently, syngas production increased from 9.4 to 14.1 mol/kg organic matter. In addition, H2 production increased by 30%. The increase in syngas generation could be attributed to the alkaline salts which act as homogenous catalysts and to the organic matter in the liquid residue. In addition, the total mass of As, Cr, Cd, Cu, Pb and Zn in the liquid residues reduced from 57.36 to 47.34 µg. Thus, experimental results imply that the recycling of liquid residues in SCWG will not only improve the syngas production efficiency of the system, but also enable the accumulation of heavy metals in the solid residue to prevent pollution risk. © 2020, Islamic Azad University (IAU). Springer Verlag 2020 Article PeerReviewed Zhang, H. and Zhang, S. and Weng, Zhouchao and Mubeen, Ishrat and Zhang, C. and Yan, Mi and Fauziah, Shahul Hamid (2020) Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst. International Journal of Environmental Science and Technology, 17 (5). pp. 2845-2852. ISSN 1735-1472 https://doi.org/10.1007/s13762-020-02697-x doi:10.1007/s13762-020-02697-x
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic Q Science (General)
QH Natural history
spellingShingle Q Science (General)
QH Natural history
Zhang, H.
Zhang, S.
Weng, Zhouchao
Mubeen, Ishrat
Zhang, C.
Yan, Mi
Fauziah, Shahul Hamid
Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
description Conventional supercritical water gasification (SCWG) of sewage sludge produces liquid residues with organic pollutants, heavy metals and others. In order to reduce liquid residues released into the environment, this study investigated the reuse of liquid residues as feed water in subsequent SCWG. We also evaluated the effect of wastewater reuse on syngas production and fate of heavy metal. The experiment was performed in a 500-ml-capacity Hastelloy reactor at 400 °C and above 25 Mpa for 60 min with a 4:1 ratio of 10% dry wt. of solid (mixture of sludge and empty fruit bunch) and 90% wt. of liquid feed. The use of recycled liquid increased the concentration of K and Na in the solution from 26 mg/L and 91 mg/L to 49 mg/L and 290 mg/L, respectively. Subsequently, syngas production increased from 9.4 to 14.1 mol/kg organic matter. In addition, H2 production increased by 30%. The increase in syngas generation could be attributed to the alkaline salts which act as homogenous catalysts and to the organic matter in the liquid residue. In addition, the total mass of As, Cr, Cd, Cu, Pb and Zn in the liquid residues reduced from 57.36 to 47.34 µg. Thus, experimental results imply that the recycling of liquid residues in SCWG will not only improve the syngas production efficiency of the system, but also enable the accumulation of heavy metals in the solid residue to prevent pollution risk. © 2020, Islamic Azad University (IAU).
format Article
author Zhang, H.
Zhang, S.
Weng, Zhouchao
Mubeen, Ishrat
Zhang, C.
Yan, Mi
Fauziah, Shahul Hamid
author_facet Zhang, H.
Zhang, S.
Weng, Zhouchao
Mubeen, Ishrat
Zhang, C.
Yan, Mi
Fauziah, Shahul Hamid
author_sort Zhang, H.
title Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
title_short Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
title_full Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
title_fullStr Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
title_full_unstemmed Alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
title_sort alkali-catalyzed supercritical water gasification of sewage sludge: effect of liquid residue reuse as homogenous catalyst
publisher Springer Verlag
publishDate 2020
url http://eprints.um.edu.my/24561/
https://doi.org/10.1007/s13762-020-02697-x
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