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Recording the Response of Plants to Various Air Pollutants
Authors:J. O. Ivie  M. D. Thomas  O. C. Taylor  C. Ray Thompson  W. M. Dugger JR.  B. L. Richards
Affiliation:1. Electronics Engineer , University of California , Riverside , California , USA;2. Research Chemist , University of California , Riverside , California , USA;3. Associate Horticulturist , University of California , Riverside , California , USA;4. Plant Physiologist , University of California , Riverside , California , USA;5. Consultant Plant Pathologist , University of California , Riverside , California , USA
Abstract:A discussion of the methods used to determine the most economic design of chimney for a new thermal power station or large industrial plant is presented, with the objective that ground level concentration of pollutants will be kept at a minimum. Attention is paid to the geography and climatology of the site, with special reference to the frequency and height of inversions and the prevailing wind direction and speed.

A method is illustrated in using a large thermal power station as an example. The maximum sulfur dioxide concentrations at ground level are computed for several chimney heights and gas exit velocities. The values of these sulfur dioxide concentrations, the capital cost of the chimney, the pumping costs, and the gas pressures within the chimney are considered in selecting a suitable chimney height and a gas exit velocity which will meet most economically the stated objective.

The paper deals primarily with chimneys for industrial or power boiler plant of maximum continuous rating greater than 450 million Btu/hr (about 450,000 lbs of steam/hr), or to chimneys serving furnaces burning fuel at a maximum rate greater than 50,000 lbs/hr of coal, or 80,000 lbs/hr of oil. For chimneys serving plant with smaller heat inputs, chimney selection by reference to Clean Air Act 1956, Memorandum on Chimney Heights is suggested.
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