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Biochar as a Bridge Between Biomass Energy Technologies and Sustainable Agriculture: Opportunities, Challenges, and Future Directions

Juan F. Saldarriaga, Julián E. López

2025Sustainability8 citationsDOIOpen Access PDF

Abstract

Biochar has gained significant attention as a multifunctional material linking biomass energy technologies with sustainable agriculture, providing combined benefits in soil improvement, waste valorization, and climate mitigation. This review examines biochar within the context of thermochemical conversion processes—pyrolysis, gasification, and torrefaction—and summarizes the operational parameters that influence both energy yields and biochar quality. It synthesizes agronomic, environmental, and engineering research to explain the mechanisms through which biochar enhances soil structure, nutrient retention, water availability, microbial activity, and carbon stability. The review also assesses its role as a long-term carbon sink and its potential integration into negative-emission systems such as bioenergy with carbon capture and storage (BECCS). However, the way that biomass conversion factors concurrently influence energy performance, biochar physicochemical quality, and its agronomic and climate-mitigation consequences across many environmental contexts is rarely integrated into a unified analytical framework in current evaluations. To close that gap, this review identifies cross-cutting patterns, trade-offs, and uncertainties while methodically integrating the information on the co-behavior of various aspects. Circular economy initiatives, carbon markets, and rural development are mentioned as key potential. On the other hand, economic variability, variable performance across soil types, lack of regulatory harmonization, rivalry for biomass, and logistical limits are big hurdles. Standardized production techniques, long-term field research, life cycle and techno-economic evaluations, and integrated system design are among the top research priorities. Overall, the evidence suggests that biochar is a promising tool for creating resilient and low-carbon agriculture and energy systems, provided that scientific, technological, and governance advancements are coordinated.

Topics & Concepts

BiocharEnvironmental scienceBiomass (ecology)Carbon sequestrationBioenergyBio-energy with carbon capture and storageContext (archaeology)Climate change mitigationAgricultureLife-cycle assessmentSoil carbonEnvironmental engineeringRenewable energyCarbon sinkCarbon neutralityGreenhouse gasEnvironmental economicsSlash-and-charCarbon capture and storage (timeline)Ecosystem servicesWaste managementSustainabilityEngineeringNatural resource economicsSustainable agricultureEnergy engineeringEnvironmental resource managementAgricultural engineeringEfficient energy useEnergy cropEnergy sourceAgroforestrySustainable developmentLow-carbon economyEnvironmental protectionThermochemical Biomass Conversion ProcessesSoil Carbon and Nitrogen DynamicsBioenergy crop production and management
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