Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive
In the present study, hydrothermal conversion (HTC) of dewatered sewage sludge (DSS) under sub- and near-critical water has been performed to investigate effects of reaction temperature and pressure, moisture content of DSS, and calcium oxide (CaO) additive on evolution profile and characteristics o...
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sg-ntu-dr.10356-803442020-03-07T11:43:48Z Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive He, Chao Wang, Ke Giannis, Apostolos Yang, Yanhui Wang, Jing-Yuan School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Residues and Resource Reclamation Centre Heavy metals Hydrogen production Dehalogenation Deamination Mineralization Subcritical water In the present study, hydrothermal conversion (HTC) of dewatered sewage sludge (DSS) under sub- and near-critical water has been performed to investigate effects of reaction temperature and pressure, moisture content of DSS, and calcium oxide (CaO) additive on evolution profile and characteristics of gas, solid, and liquid products. Although energy recovery rate decreased with increasing temperature and pressure, significant decarboxylation and dehydration reactions led to hydrochars with best fuel quality at 320 °C. High moisture content favored decarboxylation reaction but reduced H2 and CH4 yields. Compared to that in the absence of additive, H2 yield increased almost 6-fold at 380 °C and Ca/C molar ratio of 0.2, resulting in 58% H2 and 26% CH4 in final fuel gas. The results suggested that mineralization of heteroatomic compounds and dissolution of metals or mineral elements occurred during HTC. Under higher temperature and pressure, heavy metals or mineral elements were prone to be immobilized whereas dehalogenation became more distinct. CaO additive not only facilitated hydrolysis and deamination of organic compounds but also accelerated further fixation of inorganic elements and anions. 2016-04-28T09:38:00Z 2019-12-06T13:47:36Z 2016-04-28T09:38:00Z 2019-12-06T13:47:36Z 2015 2015 Journal Article He, C., Wang, K., Giannis, A., Yang, Y., & Wang, J. Y. (2015). Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive. International Journal of Hydrogen Energy, 40(17), 5776-5787. 0360-3199 https://hdl.handle.net/10356/80344 http://hdl.handle.net/10220/40470 10.1016/j.ijhydene.2015.03.006 184409 en International Journal of Hydrogen Energy © 2015, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. |
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Heavy metals Hydrogen production Dehalogenation Deamination Mineralization Subcritical water |
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Heavy metals Hydrogen production Dehalogenation Deamination Mineralization Subcritical water He, Chao Wang, Ke Giannis, Apostolos Yang, Yanhui Wang, Jing-Yuan Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| description |
In the present study, hydrothermal conversion (HTC) of dewatered sewage sludge (DSS) under sub- and near-critical water has been performed to investigate effects of reaction temperature and pressure, moisture content of DSS, and calcium oxide (CaO) additive on evolution profile and characteristics of gas, solid, and liquid products. Although energy recovery rate decreased with increasing temperature and pressure, significant decarboxylation and dehydration reactions led to hydrochars with best fuel quality at 320 °C. High moisture content favored decarboxylation reaction but reduced H2 and CH4 yields. Compared to that in the absence of additive, H2 yield increased almost 6-fold at 380 °C and Ca/C molar ratio of 0.2, resulting in 58% H2 and 26% CH4 in final fuel gas. The results suggested that mineralization of heteroatomic compounds and dissolution of metals or mineral elements occurred during HTC. Under higher temperature and pressure, heavy metals or mineral elements were prone to be immobilized whereas dehalogenation became more distinct. CaO additive not only facilitated hydrolysis and deamination of organic compounds but also accelerated further fixation of inorganic elements and anions. |
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School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering He, Chao Wang, Ke Giannis, Apostolos Yang, Yanhui Wang, Jing-Yuan |
| format |
Article |
| author |
He, Chao Wang, Ke Giannis, Apostolos Yang, Yanhui Wang, Jing-Yuan |
| author_sort |
He, Chao |
| title |
Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| title_short |
Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| title_full |
Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| title_fullStr |
Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| title_full_unstemmed |
Products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: Effects of reaction conditions and calcium oxide additive |
| title_sort |
products evolution during hydrothermal conversion of dewatered sewage sludge in sub- and near-critical water: effects of reaction conditions and calcium oxide additive |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/80344 http://hdl.handle.net/10220/40470 |
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1681037398762323968 |