Improving Ammonia Emission Modeling and Inventories by Data Mining and Intelligent Interpretation of the National Air Emission Monitoring Study Database
Ammonia emission is one of the greatest environmental concerns in sustainable agriculture development. Several limitations and fundamental problems associated with the current agricultural ammonia emission modeling and emission inventories have been identified. They were associated with a significant disconnection between field monitoring data and knowledge about the data. Comprehensive field measurement datasets have not been fully exploited for scientific research and emission regulations. This situation can be considerably improved if the currently available data are better interpreted and the new knowledge is applied to update ammonia emission modeling techniques. The world's largest agricultural air quality monitoring database with more than 2.4 billion data points has recently been created by the United States' National Air Emission Monitoring Study. New approaches of data mining and intelligent interpretation of the database are planned to uncover new knowledge and to answer a series of questions that have been raised. The expected results of this new research idea include enhanced fundamental understanding of ammonia emissions from animal agriculture and improved accuracy and scope in regional and national ammonia emission inventories.
air quality; animal agriculture; atmosphere; emission factor; pollution; process-based model
Date of this Version
Ni, Ji-Qin; Cortus, Erin L.; and Heber, Albert J., "Improving Ammonia Emission Modeling and Inventories by Data Mining and Intelligent Interpretation of the National Air Emission Monitoring Study Database" (2011). School of Agricultural & Biological Engineering Faculty Publications. Paper 21.
This is the publisher PDF of JQ Ni, EL Cortus, AJ Heber (2011) "Improving ammonia emission modeling and inventories by data mining and intelligent interpretation of the national air emission monitoring study database" Atmosphere 2 (2), 110-128. It is published CC-BY and available at DOI: 10.3390/atmos2020110