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Mineral-enriched biochar delivers enhanced nutrient recovery and carbon dioxide removal

Wolfram Buss, Christian Wurzer, David A.C. Manning, Eelco J. Rohling, Justin Borevitz, Ondřej Mašek

2022Communications Earth & Environment108 citationsDOIOpen Access PDF

Abstract

Abstract Biochar production via biomass pyrolysis with subsequent burial in soils provides a carbon dioxide removal technology that is ready for implementation, yet uptake requires acceleration; notably, through generation of cost reductions and co-benefits. Here we find that biomass enrichment (doping) with refined minerals, mineral by-products, or ground rocks reduces carbon loss during pyrolysis, lowering carbon dioxide removal costs by 17% to US$ 80–150 t −1 CO 2 , with 30% savings feasible at higher biomass costs. As a co-benefit, all three additives increase plant-available nutrient levels. Doping with potassium-bearing minerals can increase both potassium and phosphorus release. Mineral doping in biochar production therefore offers carbon dioxide removal at lower costs, while alleviating global phosphorus and potassium shortages. This makes it unique among carbon dioxide removal technologies.

Topics & Concepts

BiocharCarbon dioxideBiomass (ecology)PyrolysisPotassiumNegative carbon dioxide emissionPhosphorusChemistryCarbon fibersCarbon sequestrationEnvironmental scienceEnvironmental chemistryBio-energy with carbon capture and storageEconomic shortagePulp and paper industryAgronomyMaterials scienceOrganic chemistryEngineeringComposite materialGovernment (linguistics)LinguisticsComposite numberBiologyPhilosophyCarbon Dioxide Capture TechnologiesPhosphorus and nutrient managementCoal and Its By-products
Mineral-enriched biochar delivers enhanced nutrient recovery and carbon dioxide removal | Litcius