1. Optimizing emission inventory for chemical transport models by using genetic algorithm
- Author
-
Li, M.J., Chen, D.S., Cheng, S.Y., Wang, F., Li, Y., Zhou, Y., and Lang, J.L.
- Subjects
- *
EMISSIONS (Air pollution) , *INVENTORY control , *GENETIC algorithms , *MATHEMATICAL models , *AIR quality , *CALIBRATION , *DATA analysis - Abstract
Abstract: Air pollutant emission inventory is an important input parameter for chemical transport models (CTMs). Since great uncertainties exist in the emission inventory, further improvements and refinements are required. In this paper, genetic algorithm (GA), a global search and optimization method, was applied to optimize the emission inventory for the Models-3/Community Multiscale Air Quality (CMAQ) model. An emission optimizing system based on GA was developed and embedded to the CMAQ through the design of several core modules, which implemented the basic functions such as emission adjusting, GA population initializing, CMAQ results evaluating and GA operating. Hypothetical and real-data experiments were respectively performed to examine the validity of GA for emission calibrating. GA showed good performance in both experiments and was always able to find the global minimum. The emission optimizing system was then used to calibrate seasonal PM10 emission inventories of Beijing. Results revealed that PM10 emission in Beijing was underestimated in 2002, an average of 62.74% higher adjustment factor should be imposed on the original emission in target months of different seasons. With the calibrated emission inventories, CMAQ model errors were decreased by 6.46% on average in different seasons. It was concluded that GA was a promising search technique in calibrating emission inputs for CTMs. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF