Method and Apparatus for Downhole Spectral Analysis of Fluids
First Claim
1. A fluid analysis system configured to operate downhole in a well traversing a formation comprising:
- at least one light source generating an input light;
a sample cell operably connected to said at least one light source receiving a sample fluid therein, said sample cell further comprising;
at least one input window allowing said input light to flow into said sample cell and through the sample fluid to produce an output light;
at least one output window allowing said output light to flow out of said sample cell;
at least a first spectrometer operably connected to the output of said sample cell and being configured to measure said output light and generate a plurality of measurement signals;
an analysis device operably connected to outputs of said first spectrometer and being configured to receive said plurality of measurement signals and determine properties of the sample fluid;
at least a second spectrometer operably connected to said at least one light source and being configured to measure said input light and generate a plurality of reference signals;
a calibration device operably connected to outputs of said second spectrometer and being configured to receive said plurality of reference signals and calibrate said first spectrometer and other electronics.
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Abstract
A fluid analysis system for use downhole comprises an input light signal that is directed through a fluid sample housed in a sample cell. The input light signal may originate from a plurality of light sources. An output light signal from the sample cell is then routed to one or more spectrometers for measurement of the represented wavelengths in the output light signal. The output of the spectrometers is then compared to known values for hydrocarbons typically encountered downhole. This provides insight into the composition of the sample fluid. Additionally, the light from the light sources can be routed directly to the one or more spectrometers to be used in calibration of the system in the high temperature and noise environment downhole.
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Citations
14 Claims
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1. A fluid analysis system configured to operate downhole in a well traversing a formation comprising:
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at least one light source generating an input light;
a sample cell operably connected to said at least one light source receiving a sample fluid therein, said sample cell further comprising;
at least one input window allowing said input light to flow into said sample cell and through the sample fluid to produce an output light;
at least one output window allowing said output light to flow out of said sample cell;
at least a first spectrometer operably connected to the output of said sample cell and being configured to measure said output light and generate a plurality of measurement signals;
an analysis device operably connected to outputs of said first spectrometer and being configured to receive said plurality of measurement signals and determine properties of the sample fluid;
at least a second spectrometer operably connected to said at least one light source and being configured to measure said input light and generate a plurality of reference signals;
a calibration device operably connected to outputs of said second spectrometer and being configured to receive said plurality of reference signals and calibrate said first spectrometer and other electronics. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for downhole fluid analysis comprising:
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providing input light using at least one light source;
inserting a sample fluid into a sample cell;
introducing said input light to an input window of said sample cell, said light traversing through said sample fluid and producing an output light traversing through an output window in said sample cell;
receiving said output light at a first spectrometer;
generating a plurality of measurement signals by said first spectrometer based on said output light;
analyzing said plurality of measurement signals to determine properties of said sample fluid;
receiving said input light at a second spectrometer;
generating a plurality of reference signals by said second spectrometer; and
calibrating said first spectrometer and other electronics using said plurality of reference signals. - View Dependent Claims (14)
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Specification