4.7 Review

Hydrothermal carbonization processes applied to wet organic waste streams

Journal

INTERNATIONAL JOURNAL OF ENERGY RESEARCH
Volume 46, Issue 12, Pages 16109-16126

Publisher

WILEY
DOI: 10.1002/er.8304

Keywords

hydrochar; hydrothermal carbonization; solid biofuels; waste to energy; wet organic waste

Funding

  1. French Embassy in Ankara

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Various organic waste streams generated by human activities such as municipal, agricultural, and industrial waste pose a serious challenge for sustainable disposal. Inefficient disposal processes can lead to pollution risks for air, soil, underground water, and sea. However, the use of hydrothermal technologies shows promise in managing and valorizing highly wet waste streams by utilizing water as a medium at high temperature and pressure.
Various organic waste streams are generated daily by human activities such as municipal, agricultural and industrial. The sustainable disposal of these organic wastes is a serious societal challenge. When the disposal process is not efficient, this type of wastes creates important pollution risks for air, soil, underground water and sea. Especially, wastes that have high moisture content cannot be eliminated cost effectively via thermo-chemical conversion by conventional processes such as pyrolysis, gasification and combustion. These processes necessitate the pre-drying of wet wastes which require additional energy input and increase the operational costs. One promising approach for the management and valorization of highly wet waste streams is the use of hydrothermal technologies. Hydrothermal carbonization is a very appropriate approach for valorizing wet organic wastes using water as a medium at high temperature and pressure under subcritical conditions. The generated hydrochar is a solid lignite like material that can be used for energy generation (by gasification or combustion) but also for environmental practices such as soil remediation and carbon fixation. This review focuses on the feedstock potential of wet organic wastes of sewage sludge, food wastes, various animal manure and macroalgae, and their valorization by hydrothermal carbonization. Structural, physical and energy conversion characteristics of hydrochars produced from various wet organic wastes are compared and discussed. Usage areas of hydrochars are also assessed.

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