Monitoring the sulfur content of coal streams by thermal-neutron-capture gamma-ray analysis

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A theory was developed for evaluating a complex, prompt gamma ray spectrum to serve as the basis for an instrument to monitor continuously the sulfur content of tonnage streams of coal. Equations for the energies and intensities of prompt gamma rays emitted from 13 most significant elements in coal are combined into a single equation that defines the basic electronic design of the meter. The sulfur content of up to 10 tons per hour of coal was determined in pilot plant tests with a prototype meter. The precision of 0.04 percent sulfur substantiates the validity of the theory. In subsequent industrial plant tests the precision was determined to be a comparable 0.05 percent sulfur.

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Martin, J.W.; Hall, A.W. ---- Roy Long, Monitoring the sulfur content of coal streams by thermal-neutron-capture gamma-ray analysis, 2016-09-29, https://edx.netl.doe.gov/dataset/monitoring-the-sulfur-content-of-coal-streams-by-thermal-neutron-capture-gamma-ray-analysis

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Field	Value
Last Updated	September 29, 2016, 16:41 (LMT)
Created	September 29, 2016, 16:41 (LMT)
Citation	Martin, J.W.; Hall, A.W. ---- Roy Long, Monitoring the sulfur content of coal streams by thermal-neutron-capture gamma-ray analysis, 2016-09-29, https://edx.netl.doe.gov/dataset/monitoring-the-sulfur-content-of-coal-streams-by-thermal-neutron-capture-gamma-ray-analysis
Netl Product	yes
Poc Email	Roy.long@netl.doe.gov
Point Of Contact	Roy Long
Program Or Project	KMD
Publication Date	1976-7-1