Title of article
Bayesian treatment of a chemical mass balance receptor model with multiplicative error structure
Author/Authors
Keats، نويسنده , , Andrew and Cheng، نويسنده , , Man-Ting and Yee، نويسنده , , Eugene and Lien، نويسنده , , Fue-Sang، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
10
From page
510
To page
519
Abstract
The chemical mass balance (CMB) receptor model is commonly used in source apportionment studies as a means for attributing measured airborne particulate matter (PM) to its constituent emission sources. Traditionally, error terms (e.g., measurement and source profile uncertainty) associated with the model have been treated in an additive sense. In this work, however, arguments are made for the assumption of multiplicative errors, and the effects of this assumption are realized in a Bayesian probabilistic formulation which incorporates a ‘modified’ receptor model. One practical, beneficial effect of the multiplicative error assumption is that it automatically precludes the possibility of negative source contributions, without requiring additional constraints on the problem. The present Bayesian treatment further differs from traditional approaches in that the source profiles are inferred alongside the source contributions. Existing knowledge regarding the source profiles is incorporated as prior information to be updated through the Bayesian inferential scheme. Hundreds of parameters are therefore present in the expression for the joint probability of the source contributions and profiles (the posterior probability density function, or PDF), whose domain is explored efficiently using the Hamiltonian Markov chain Monte Carlo method. The overall methodology is evaluated and results compared to the US Environmental Protection Agencyʹs standard CMB model using a test case based on PM data from Fresno, California.
Keywords
chemical mass balance , Receptor model , Bayesian inference , Multiplicative error , source apportionment , Hamiltonian Markov chain Monte Carlo
Journal title
Atmospheric Environment
Serial Year
2009
Journal title
Atmospheric Environment
Record number
2234453
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