Method for quantitative calibration of in situ optical chemical measurements in soils using soil class and characteristics
First Claim
1. A method for the in situ quantification of chemicals of interest in a soil sample by optical methods comprising:
- determining optical chemical response factors for chemicals of interest which are added in known amounts to discrete soil matrices (types) and conditions (moisture content, for example) under controlled laboratory conditions to provide predetermined optical chemical response factor reference signals;
coupling said predetermined optical chemical response factor reference signals to a processor having the capability to store said predetermined optical chemical response factor reference signals therein;
providing a combination probe having an optical chemical sensor having the capability to produce chemical sensor signals representative of a chemical of interest in said soil sample and further having a strain gauge sensor having the capability to produce strain gauge signals representative of soil type of said soil sample;
inserting said combination probe into said soil sample;
producing said chemical sensor signals in said optical chemical sensor and said strain gauge signals in said strain gauge sensor, simultaneously and in parallel;
transmitting said chemical sensor signals and said strain gauge signals to said processor; and
correlating said chemical sensor signals and said strain gauge signals with said predetermined optical chemical response factor reference signals in said processor to provide said in situ quantification of said chemicals of interest in said soil sample, said correlating involving the use of said strain gauge signals representative of said soil type of said soil sample to select a chemical response factor from said predetermined optical chemical response factor reference signals, said chemical response factor being indicative of a chemical of interest in a particular soil type of said soil sample, to provide said in situ quantification of said chemicals of interest from said chemical sensor signals of said soil sample.
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Abstract
A method assures the quantitative or semiquantitative assessment of analytes in soils by in situ optical methods. A determination is made of the optical chemical response factors for chemicals of interest which are added in known amounts to discrete soil matrices (types) and conditions (moisture content) under controlled laboratory conditions to provide predetermined reference signals. A combination probe is provided with an optical chemical sensing device that produces chemical concentration signals representative of the concentration of a chemical of interest in a soil sample and further is provided with a strain gauge sensing device that produces strain gauge signals representative of soil type and optionally, condition of the soil sample. The combination probe is inserted into the soil sample and the optical chemical sensing device produces the chemical concentration signals and the optical strain gauge sensing device, simultaneously and in parallel, produces the optical strain gauge signals. The optical chemical concentration signals and strain gauge signals are fed to a processor where they are compared to the predetermined reference signals to arrive at an in situ quantification of chemicals of interest in the soil sample.
42 Citations
2 Claims
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1. A method for the in situ quantification of chemicals of interest in a soil sample by optical methods comprising:
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determining optical chemical response factors for chemicals of interest which are added in known amounts to discrete soil matrices (types) and conditions (moisture content, for example) under controlled laboratory conditions to provide predetermined optical chemical response factor reference signals; coupling said predetermined optical chemical response factor reference signals to a processor having the capability to store said predetermined optical chemical response factor reference signals therein; providing a combination probe having an optical chemical sensor having the capability to produce chemical sensor signals representative of a chemical of interest in said soil sample and further having a strain gauge sensor having the capability to produce strain gauge signals representative of soil type of said soil sample; inserting said combination probe into said soil sample; producing said chemical sensor signals in said optical chemical sensor and said strain gauge signals in said strain gauge sensor, simultaneously and in parallel; transmitting said chemical sensor signals and said strain gauge signals to said processor; and correlating said chemical sensor signals and said strain gauge signals with said predetermined optical chemical response factor reference signals in said processor to provide said in situ quantification of said chemicals of interest in said soil sample, said correlating involving the use of said strain gauge signals representative of said soil type of said soil sample to select a chemical response factor from said predetermined optical chemical response factor reference signals, said chemical response factor being indicative of a chemical of interest in a particular soil type of said soil sample, to provide said in situ quantification of said chemicals of interest from said chemical sensor signals of said soil sample. - View Dependent Claims (2)
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Specification