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Impact of South Asian brick kiln emission mitigation strategies on select pollutants and near-term Arctic temperature responses

Brannon Seay, Anna Adetona, Natasha Sadoff, Marcus C. Sarofim, Michael Kolian

2021Environmental Research Communications18 citationsDOIOpen Access PDF

Abstract

Abstract The brick kiln industrial sector in South Asia accounts for large amounts of short-lived climate forcer (SLCF) emissions, namely black carbon (BC), organic carbon (OC), and sulfur dioxide (SO 2 ; the precursor to atmospheric sulfate [SO 4 ]). These SLCFs are air pollutants and have important impacts on both human health and the Arctic, a region currently experiencing more than double the rate of warming relative to the global average. Using previously derived Arctic equilibrium temperature response factors, we estimate the contribution to Arctic temperature impacts from previously reported emissions of BC, OC, and SO 2 from four prevalent South Asian brick kiln types (Bull’s Trench [BTK], Down Draught [DDK], Vertical Shaft [VSBK], and Zig-zag). Net annual BC (115 gigagrams [Gg]), OC (17 Gg), and SO 2 (350 Gg) baseline emissions from all four South Asian kiln types resulted in 3.36 milliKelvin (mK) of Arctic surface warming. Given these baseline emissions and Arctic temperature responses, we estimate the current and maximum potential emission and temperature mitigation considering two kiln type conversions. Assuming no change in brick production, baseline emissions have been reduced by 17% when considering current BTK to Zig-zag conversions and have the potential to decrease by 82% given a 100% future conversion rate. This results in a 25% and 119% reduction in Arctic warming, respectively. Replacing DDKs with VSBKs increases baseline SLCF emissions by 28% based on current conversions and has the potential to increase by 131%. This conversion still reduces baseline warming by 31% and 149%, respectively. These results show that brick kiln conversions can have different impacts on local air quality and Arctic climate. When considering brick kiln emissions mitigation options, regional and/or local policy action should consider several factors, including local air quality, worker health and safety, cost, quality of bricks, as well as global climate impacts.

Topics & Concepts

Environmental scienceArcticGlobal warmingBaseline (sea)PollutantKilnAtmospheric sciencesEnvironmental engineeringThe arcticClimatologyWaste managementClimate changeChemistryEngineeringOceanographyGeologyOrganic chemistryAtmospheric chemistry and aerosolsAir Quality and Health ImpactsSmart Materials for Construction
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