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Comprehensive evaluation on product characteristics of fast hydrothermal liquefaction of sewage sludge at different temperatures

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  • Xu, Donghai
  • Lin, Guike
  • Liu, Liang
  • Wang, Yang
  • Jing, Zefeng
  • Wang, Shuzhong

Abstract

Hydrothermal liquefaction (HTL) can chemically convert sewage sludge (SS) into a crude bio-oil (biocrude) and other by-products. This work systematically elucidates how the yields and compositions of different products (e.g., gases, biocrude and solids) vary with temperature (260–350 °C) in SS HTL with 10 min of residence time. The results show that increasing temperature improved the biocrude quality and the gas yield, declined the water-soluble substance yield, the solid yield, and the TOC (total organic carbon) content in aqueous phase, while the biocrude yield and the NH3-N (ammonia nitrogen) content in the aqueous phase first raised and then decreased, and reached the maximum values at 340 °C. After SS HTL at 340 °C, light biocrude, light solids, water-soluble organic matters accounted for about 54.4, 50.5, 88.9 wt% of total biocrude, solids and water-soluble substances, respectively. The N and S contents in the light biocrude almost halved compared with those in the heavy biocrude. The light solids contained a higher C content but lower Al, Si, Ca and Fe contents than did the heavy solids. >93.0 wt% of Cu, Zn and Cr remained in the solids in contrast to 0.5–1.0 wt% in the aqueous phase and 0.2–4.7 wt% in the biocrude.

Suggested Citation

  • Xu, Donghai & Lin, Guike & Liu, Liang & Wang, Yang & Jing, Zefeng & Wang, Shuzhong, 2018. "Comprehensive evaluation on product characteristics of fast hydrothermal liquefaction of sewage sludge at different temperatures," Energy, Elsevier, vol. 159(C), pages 686-695.
    • Handle: RePEc:eee:energy:v:159:y:2018:i:c:p:686-695
    DOI: 10.1016/j.energy.2018.06.191
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    2. Ayaz A. Shah & Saqib S. Toor & Tahir H. Seehar & Rasmus S. Nielsen & Asbjørn H. Nielsen & Thomas H. Pedersen & Lasse A. Rosendahl, 2020. "Bio-Crude Production through Aqueous Phase Recycling of Hydrothermal Liquefaction of Sewage Sludge," Energies, MDPI, vol. 13(2), pages 1-18, January.
    3. Alherbawi, Mohammad & Parthasarathy, Prakash & Al-Ansari, Tareq & Mackey, Hamish R. & McKay, Gordon, 2021. "Potential of drop-in biofuel production from camel manure by hydrothermal liquefaction and biocrude upgrading: A Qatar case study," Energy, Elsevier, vol. 232(C).
    4. Zhao, Kaige & Li, Wanqing & Yu, Yingying & Chen, Guanyi & Yan, Beibei & Cheng, Zhanjun & Zhao, Hai & Fang, Yang, 2023. "Speciation and transformation of nitrogen in the hydrothermal liquefaction of wastewater-treated duckweed for the bio-oil production," Renewable Energy, Elsevier, vol. 204(C), pages 661-670.
    5. Ayaz Ali Shah & Saqib Sohail Toor & Asbjørn Haaning Nielsen & Thomas Helmer Pedersen & Lasse Aistrup Rosendahl, 2021. "Bio-Crude Production through Recycling of Pretreated Aqueous Phase via Activated Carbon," Energies, MDPI, vol. 14(12), pages 1-20, June.
    6. Yuliya Kulikova & Marina Krasnovskikh & Natalia Sliusar & Nikolay Orlov & Olga Babich, 2023. "Analysis and Comparison of Bio-Oils Obtained by Hydrothermal Liquefaction of Organic Waste," Sustainability, MDPI, vol. 15(2), pages 1-17, January.
    7. Xu, Zhi-Xiang & Song, Hao & Zhang, Shu & Tong, Si-Qi & He, Zhi-Xia & Wang, Qian & Li, Bin & Hu, Xun, 2019. "Co-hydrothermal carbonization of digested sewage sludge and cow dung biogas residue: Investigation of the reaction characteristics," Energy, Elsevier, vol. 187(C).
    8. Xu, Donghai & Wang, Yang & Lin, Guike & Guo, Shuwei & Wang, Shuzhong & Wu, Zhiqiang, 2019. "Co-hydrothermal liquefaction of microalgae and sewage sludge in subcritical water: Ash effects on bio-oil production," Renewable Energy, Elsevier, vol. 138(C), pages 1143-1151.
    9. Yuliya Kulikova & Olga Babich & Anna Tsybina & Stanislav Sukhikh & Ivan Mokrushin & Svetlana Noskova & Nikolaj Orlov, 2022. "Feasibility of Thermal Utilization of Primary and Secondary Sludge from a Biological Wastewater Treatment Plant in Kaliningrad City," Energies, MDPI, vol. 15(15), pages 1-14, August.
    10. Prestigiacomo, Claudia & Proietto, Federica & Laudicina, Vito Armando & Siragusa, Angelo & Scialdone, Onofrio & Galia, Alessandro, 2021. "Catalytic hydrothermal liquefaction of municipal sludge assisted by formic acid for the production of next-generation fuels," Energy, Elsevier, vol. 232(C).
    11. Do, Truong Xuan & Mujahid, Rana & Lim, Hyun Soo & Kim, Jae-Kon & Lim, Young-Il & Kim, Jaehoon, 2020. "Techno-economic analysis of bio heavy-oil production from sewage sludge using supercritical and subcritical water," Renewable Energy, Elsevier, vol. 151(C), pages 30-42.
    12. Qian, Lili & Wang, Shuzhong & Savage, Phillip E., 2020. "Fast and isothermal hydrothermal liquefaction of sludge at different severities: Reaction products, pathways, and kinetics," Applied Energy, Elsevier, vol. 260(C).

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