Emerging sewage sludge treatment technologies for land carbon sequestration: a comprehensive review

Sewage sludge management is a pressing environmental challenge due to high greenhouse gas emissions and inefficiencies in traditional methods such as landfilling and incineration. This review explores emerging and transformative technologies that align with carbon sequestration and sustainable land use. Novel approaches such as biochar production via pyrolysis, CaO-based stabilization to form calcium carbonate (CaCO₃), and phosphorus recovery through struvite precipitation are emphasized for their dual roles in climate mitigation and enhancing soil fertility. Other innovative techniques, including hydrothermal carbonization and microbial stabilization, have been examined for their ability to stabilize carbon in persistent forms. This study highlights the novelty of combining carbon sequestration with nutrient recycling, which enables long-term environmental benefits. Biochar and Ca-based fertilizers demonstrate exceptional potential for integrating carbon capture with soil enhancement, whereas struvite offers an effective pathway for nutrient recovery. Environmental trade-offs—such as greenhouse gas emissions during treatment, potential contaminant risks, and energy demands—are assessed alongside the benefits of reduced synthetic fertilizer dependence, improved soil health, and carbon sequestration. Life cycle assessment (LCA) and economic analyses confirm the feasibility and sustainability of these technologies. This comprehensive review advances the understanding of innovative sewage sludge treatments, offering a framework for integrating carbon-negative solutions into waste management practices.

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