Apparatus and method for analyzing fluids
First Claim
1. An apparatus for determining the concentration of a predetermined constituent in a fluid flowing through a remote conduit, said constituent having at least one light absorption peak and being capable of emitting fluorescent radiation when excited by light at at least one excitation wavelength, comprising:
- a) means for generating a first beam of light, said first beam of light having wavelengths encompassing said absorption peak;
b) means for generating a second beam of light, said second beam of light being essentially monochromatic and having a wavelength equal to said excitation wavelength;
c) means for directing said first and second beams of light into said fluid flowing through said conduit so as to cause light to emerge from said fluid, said emerging light comprised of portions of said first and second beams of light that were not absorbed by said fluid and fluorescent radiation, said emerging light having components each of which having a different wavelength, said light emerging from said fluid having been scattered by said fluid prior to emerging therefrom;
d) means for transmitting at least a portion of said emerging light to a location remote from said conduit;
e) means for measuring the intensity of each of said components of said transmitted light having a wavelength falling within a predetermined range of wavelengths at said remote location;
f) means for analyzing said intensities of said light components so as to determine the concentration of said constituent.
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Accused Products
Abstract
A method and apparatus for determining the concentration of a constituent in a fluid by directing a beam of light into the fluid and sensing the intensity of components of the light emerging from the fluid at various wavelengths. The light emerging from the fluid can be light that has been attenuated by absorption or induced by fluorescent radiation. The effect of scattering on the light is minimized by normalizing the component intensities, which are then applied to an algorithm incorporating weighting factors that weighs the influence that the intensity at each wavelength has on the determination of the concentration of the constituent for which the algorithm was developed. The algorithm is developed by a regression analysis based upon a plurality of known mixtures containing various concentrations of the constituent of interest.
196 Citations
21 Claims
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1. An apparatus for determining the concentration of a predetermined constituent in a fluid flowing through a remote conduit, said constituent having at least one light absorption peak and being capable of emitting fluorescent radiation when excited by light at at least one excitation wavelength, comprising:
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a) means for generating a first beam of light, said first beam of light having wavelengths encompassing said absorption peak;
b) means for generating a second beam of light, said second beam of light being essentially monochromatic and having a wavelength equal to said excitation wavelength;
c) means for directing said first and second beams of light into said fluid flowing through said conduit so as to cause light to emerge from said fluid, said emerging light comprised of portions of said first and second beams of light that were not absorbed by said fluid and fluorescent radiation, said emerging light having components each of which having a different wavelength, said light emerging from said fluid having been scattered by said fluid prior to emerging therefrom;
d) means for transmitting at least a portion of said emerging light to a location remote from said conduit;
e) means for measuring the intensity of each of said components of said transmitted light having a wavelength falling within a predetermined range of wavelengths at said remote location;
f) means for analyzing said intensities of said light components so as to determine the concentration of said constituent.
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2. An apparatus for determining the concentration of at least one predetermined constituent in a fluid flowing through a downhole portion of a well, said constituent having at least one light absorption peak and being capable of emitting fluorescent radiation when excited by light at at least one excitation wavelength, comprising:
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a) means for generating a first beam of light, said first beam of light having wavelengths encompassing said absorption peak;
b) means for generating a second beam of light, said second beam of light having wavelengths encompassing said excitation wavelength;
c) means for directing said first and second beams of light into said fluid flowing through said well so as to cause light to emerge from said fluid, said emerging light comprised of portions of said first and second beams of light that were not absorbed by said fluid and fluorescent radiation, said emerging light having components each of which having a different wavelength, said light emerging from said fluid having been scattered by said fluid prior to emerging therefrom;
d) means for transmitting at least a portion of said emerging light to a location remote from said downhole portion of said well;
e) means for measuring the intensity of each of said components of said transmitted light having a wavelength falling within a predetermined range of wavelengths at said remote location;
f) means for analyzing said intensities of said light components so as to determine the concentration of said constituent. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
A) normalizing means for reducing the effect of said scattering on at least a portion of said emerging light so as to generate a plurality of normalized light component intensities;
B) means for multiplying each of said normalized light component intensities by a predetermined weighting factor based upon the respective wavelength of said light component so as to obtain weighted and normalized light component intensities; and
C) means for combining said weighted and normalized selected light component intensities.
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12. The apparatus according to claim 11, wherein said normalizing means comprises dividing at least a portion of said measured light component intensities by a characteristic derived from said measured component intensities.
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13. A method for determining the concentration of at least one predetermined constituent in a fluid flowing through a downhole portion of a well, said constituent having at least one light absorption peak and being capable of emitting fluorescent radiation when excited by light at at least one excitation wavelength, comprising:
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a) generating a first beam of light, said first beam of light having wavelengths encompassing said absorption peak;
b) generating a second beam of light, said second beam of light being essentially monochromatic and having a wavelength equal to said excitation wavelength;
c) directing said first and second beams of light into said fluid flowing through said well so as to cause light to emerge from said fluid, said emerging light comprised of portions of said first and second beams of light that were not absorbed by said fluid and fluorescent radiation, said emerging light having components each of which having a different wavelength, said light emerging from said fluid having been scattered by said fluid prior to emerging therefrom;
d) transmitting at least a portion of said emerging light to a location remote from said downhole portion of said well;
e) measuring the intensity of each of said components of said transmitted light having a wavelength falling within a predetermined range of wavelengths at said remote location;
f) analyzing said intensities of said light components so as to determine the concentration of said constituent. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
A) normalizing said measured light component intensities so as to reduce the effect of said scattering on at least a portion of said emerging light so as to generate a plurality of normalized light component intensities;
B) multiplying each of said normalized light component intensities by a predetermined weighting factor based upon the respective wavelength of said light component so as to obtain weighted and normalized light component intensities; and
C) combining said weighted and normalized selected light component intensities.
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21. The method according to claim 20, wherein the step of normalizing said light component intensities comprises dividing at least a portion of said measured light component intensities by a characteristic derived from said measured component intensities.
Specification