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Benefit analysis of multi-approach biomass energy utilization toward carbon neutrality

Jiaoyue Wang, Jingying Fu, Zhitong Zhao, Longfei Bing, Fengming Xi, Feng Wang, Dong Jiang, Shiyun Wang, Gang Lin, Yan Yin, Qinqin Hu

2023The Innovation77 citationsDOIOpen Access PDF

Abstract

-eq emissions, accounting for 19.48% and 25.61% of China's total energy production and carbon emissions in 2020, respectively. When focusing on the carbon emission mitigation potential of substituting bioenergy for conventional counterparts, bioelectricity was the most effective, and its potential was 4.45 and 8.58 times higher than that of gaseous and liquid fuel alternatives, respectively. In this study, life cycle emission reductions were maximized by a mix of bioenergy end uses based on biomass properties, with an optimal 78.56% bioenergy allocation from biodiesel, densified solid biofuel, biohydrogen, and biochar. The main regional bioenergy GHG mitigation focused on the Jiangsu, Sichuan, Guangxi, Henan, and Guangdong provinces, contributing to 31.32% of the total GHG mitigation potential. This study provides valuable guidance on exploiting untapped biomass resources in China to secure carbon neutrality by 2060.

Topics & Concepts

BioenergyGreenhouse gasCarbon neutralityBiomass (ecology)Environmental scienceBiofuelRenewable energyFossil fuelBio-energy with carbon capture and storageLife-cycle assessmentBiocharCarbon sequestrationCarbon fibersEnvironmental engineeringWaste managementClimate change mitigationProduction (economics)AgronomyEngineeringEcologyCarbon dioxideMaterials sciencePyrolysisEconomicsMacroeconomicsBiologyElectrical engineeringComposite numberComposite materialBiofuel production and bioconversionEnvironmental Impact and SustainabilityEnergy and Environment Impacts