Global S&T Development Trend Analysis Platform of Resources and Environment
DOI | 10.5194/acp-2020-548 |
Brown carbon's emission factors and optical characteristics in household biomass burning: Developing a novel algorithm for estimating the contribution of brown carbon | |
Jianzhong Sun, Guorui Zhi, Regina Hitzenberger, Yingjun Chen, and Chongguo Tian | |
2020-07-23 | |
发表期刊 | Atmospheric Chemistry and Physics |
出版年 | 2020 |
英文摘要 | Recent studies have highlighted the importance of brown carbon (BrC) in various fields, particularly relating to climate change. The incomplete combustion of biomass in open and contained burning conditions is believed to be a significant contributor to primary BrC emissions. So far, few studies have reported the emission factors of BrC from biomass burning, and few studies have specifically addressed which form of light absorbing carbon, such as black carbon (BC) or BrC, plays a leading role in the total solar light absorption of biomass burning. In this study, the optical integrating sphere (IS) approach was used, with carbon black and humic acid sodium salt as reference materials for BC and BrC, respectively, to distinguish BrC from BC on the filter samples. Eleven widely used biomass types in China were burned in a typical stove to simulate the real household combustion process. (i) Large differences existed in the emission factors of BrC (EFBrC) among the tested biomass fuels, with a geomean EFBrC of 0.71 g/kg (0.24, 2.18). Both the plant type (herbaceous or ligneous) and burning style (raw or briquetted biomass) might influence the value of EFBrC. (ii) The calculated annual BrC emissions from China's household biomass burning amounted to 712 Gg, higher than the contribution from China's household coal combustion (592 Gg). (iii) The average absorption Ångström exponent (AAE) was (2.46 ± 0.53), much higher than that of coal-chunks combustion smoke (AAE = 1.30 ± 0.32). (iv) For biomass smoke, the contribution of absorption by BrC to the total absorption by BC + BrC across the strongest solar spectral range of 350–850 nm (FBrC) was 50.8 %. This was nearly twice that for BrC in smoke from household coal combustion (26.5 %). (v) Based on this study, a novel algorithm was developed for estimating the FBrC for any combustion sources (FBrC = 0.5519 lnAAE + 0.0067, R2 = 0.999); the FBrC value for global entire biomass burning (open + contained) (FBrC-entire) was 64.5 % (58.5–69.9 %). This corroborates the dominant role of BrC in total biomass burning absorption. Therefore, BrC is not optional but indispensable when considering the climate energy budget, particularly for biomass burning emissions (contained and open). |
领域 | 地球科学 |
URL | 查看原文 |
引用统计 | |
文献类型 | 期刊论文 |
条目标识符 | http://119.78.100.173/C666/handle/2XK7JSWQ/286690 |
专题 | 地球科学 |
推荐引用方式 GB/T 7714 | Jianzhong Sun, Guorui Zhi, Regina Hitzenberger, Yingjun Chen, and Chongguo Tian. Brown carbon's emission factors and optical characteristics in household biomass burning: Developing a novel algorithm for estimating the contribution of brown carbon[J]. Atmospheric Chemistry and Physics,2020. |
APA | Jianzhong Sun, Guorui Zhi, Regina Hitzenberger, Yingjun Chen, and Chongguo Tian.(2020).Brown carbon's emission factors and optical characteristics in household biomass burning: Developing a novel algorithm for estimating the contribution of brown carbon.Atmospheric Chemistry and Physics. |
MLA | Jianzhong Sun, Guorui Zhi, Regina Hitzenberger, Yingjun Chen, and Chongguo Tian."Brown carbon's emission factors and optical characteristics in household biomass burning: Developing a novel algorithm for estimating the contribution of brown carbon".Atmospheric Chemistry and Physics (2020). |
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