4.6 Article

Influence of Acids and Alkali as Additives on Hydrothermally Treating Sewage Sludge: Effect on Phosphorus Recovery, Yield, and Energy Value of Hydrochar

期刊

PROCESSES
卷 9, 期 4, 页码 -

出版社

MDPI
DOI: 10.3390/pr9040618

关键词

hydrothermal carbonization; sewage sludge; phosphorus recovery; hydrochar; process-water; pH

资金

  1. German Research Foundation (DFG)
  2. Open Access Publication Fund of the University of Rostock

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The high moisture content in sewage sludge presents a challenge for its use in incineration or energy application, but the hydrothermal carbonization (HTC) process can overcome this issue. HTC process is more energy-efficient compared to other thermo-chemical management processes, producing energy-rich hydrochar products and enabling phosphorus recovery. The addition of organic acids, inorganic acids, and alkali as additives influences phosphorus transformation, yield, proximate analysis, and heating value of the produced hydrochar.
The high moisture content present in sewage sludge hinders the use of sewage sludge in incineration or energy application. This limitation of moisture present in sewage sludge can be obviated by using the hydrothermal carbonization (HTC) process. In sewage sludge management, the HTC process requires less energy compared to other conventional thermo-chemical management processes. The HTC process produces energy-rich hydrochar products and simultaneously enables phosphorus recovery. This study investigates the influence of organic acids, inorganic acid, and alkali as additives on phosphorus transformation, yield, proximate analysis and the heating value of subsequently produced hydrochar. The analysis includes various process temperatures (200 degrees C, 220 degrees C, and 240 degrees C) in the presence of deionized water, acids (0.1 M and 0.25 M; H2SO4, HCOOH, CH3COOH), and alkali (0.1 M and 0.25 M; NaOH) solutions as feed water. The results show that phosphorus leaching into the process-water, hydrochar yield, proximate analysis, and the heating value of produced hydrochar is pH- and temperature-dependent, and particularly significant in the presence of H2SO4. In contrast, utilization of H2SO4 and NaOH as an additive has a negative influence on the heating value of produced hydrochar.

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