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Nonlinear Enhancement of Radiative Absorption by Black Carbon in Response to Particle Mixing Structure

Yuanyuan Wang, Weijun Li, Jin Huang, Lei Liu, Yuner Pang, Cenlin He, Fengshan Liu, Dantong Liu, Lei Bi, Xiaoye Zhang, Zongbo Shi

2021Geophysical Research Letters79 citationsDOIOpen Access PDF

Abstract

Abstract Black carbon (BC) strongly absorbs solar radiation, contributing to global warming. Absorption enhancement of BC particles is difficult to quantify due to an inadequate representation of their complex morphology and mixing structures, as well as interaction with radiation. Here, we apply a 3D method accounting for detailed BC mixing structures to predict the absorption enhancement of individual BC particles ( E abs ) and the total BC particle population ( E abs, bulk ). The diverse range of mixing structures in individual BC particles leads to variable E abs that could hardly be predicted by empirical approximations. We find that the volume proportion of the BC embedded in coating ( F ) determines E abs when the particle to BC core diameter ratio ( D p / D c ) is larger than 2.0. Our findings reveal the potential mechanism behind the differences in observed and modeled E abs, bulk . The framework builds a bridge connecting the microscopic mixing structure of individual BC particle with E abs, bulk .

Topics & Concepts

Carbon blackRadiative transferMixing (physics)Particle (ecology)Absorption (acoustics)RadiationMaterials sciencePopulationCarbon fibersMolecular physicsComputational physicsParticle sizePhysicsOpticsChemistryComposite materialComposite numberQuantum mechanicsGeologyPhysical chemistrySociologyOceanographyNatural rubberDemographyAtmospheric chemistry and aerosolsThermal Radiation and Cooling TechnologiesAtmospheric aerosols and clouds