Chemistry: analytical and immunological testing – Nitrogen containing – Total nitrogen determined
Patent
1991-05-31
1994-07-19
Johnston, Jill A.
Chemistry: analytical and immunological testing
Nitrogen containing
Total nitrogen determined
422 52, 422 78, 436172, G01N 2176, G01N 3112
Patent
active
RE0346683
ABSTRACT:
In one exemplar embodiment, a chemiluminescent nitrogen detector for detecting chemically-bound nitrogen in an organic compound is provided in which a discrete sample of the organic compound containing the chemically-bound nitrogen is injected into a high temperature furnace where the sample is pyrolyzed at extremely high temperatures in an oxygen rich atmosphere to form nitric oxide. The pyrolysis gases, including nitric oxide is then applied to a drying means for eliminating a substantial quantity of water vapor from the carried pyrolysis gases to insure that the dew point of the gases is below the operating temperature of a nitric oxide and ozone reaction chamber. The nitric oxide and ozone are mixed in a reaction chamber to form metastable nitrogen dioxide which instantaneously relaxes to its ground state with a resulting photo-emission of light energy. The chemiluminescent detection is based on this photo-emission of light energy, and emitted light is detected by a photo-multiplier tube whose output is an electrical potential proportional to the intensity of the light detected. Appropriate electronic circuitry may be provided to convert the electrical potential output of the photo-multiplier tube to an analog electrical signal for driving a chart recorder and for application to an integrator for deriving and displaying a digital count that is proportional to the quantitative value of the chemically-bound nitrogen contained in the sample. In certain applications, a gas chromatograph may be utilized either with or without another detector, such as a thermal conductivity detector or a flame ionization detector, for detecting other chemical elements. In the case where the gas chromatograph utilizes a flame ionization detector, the furnace previously mentioned, may be eliminated as the flame ionization detector will function to pyrolyze the organic compound sample to form the necessary nitric oxide for detection.
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Marietta Robert L.
Parks Robert E.
Johnston Jill A.
Nitec, Inc.
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