In-line method for determining the residue content of an...

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Reexamination Certificate

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C526S069000, C526S070000, C528S070000

Reexamination Certificate

active

06300633

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to (1) an in-line spectrometric method for determining the distillation residue content in an opaque, dark-colored mixture containing an isocyanate and tar-like materials (hereinafter referred to as an “isocyanate/residue mixture”) during the isocyanate production process, (2) the use of the residue content information to control and optimize the distillation process and (3) an apparatus useful for making such residue content determination.
The use of spectral analysis to determine the identity and physical properties of materials is known. Processes in which materials are analyzed during production (i.e., an in-line process) rather than a few hours or days later have long been sought. The advantages of an in-line process are obvious. In-line analysis would eliminate the long turn-around time experienced with traditional lab analysis and would make it possible to optimize the production process by identifying deviations or necessary corrections within a substantially shorter period of time than that which is possible when traditional analytical quality control methods are used.
U.S. Pat. No. 5,151,474 discloses a process control method for a polyolefin polymerization process. In this disclosed process, monomer and co-monomer are added to a flowing stream of solvent at a constant rate. The concentration of monomer and co-monomer in the solvent stream are determined by high resolution multi-wavelength vibrational spectroscopic analysis (e.g., Fourier transform infrared spectroscopy). The rate of addition of the monomer and/or co-monomer is adjusted as needed on the basis of this spectroscopic analysis. Such addition rate adjustments during the production process reduce the variation in product density.
U.S. Pat. No. 5,153,140 discloses a process for controlling and optimizing industrial processes for the production of dyes, fluorescent whitening agents and their intermediates. In this process, differential analysis of the UV/VIS absorption spectra of at least one starting compound and at least one reaction product are used to monitor and control the production process.
U.S. Pat. Nos. 5,206,701 and 5,223,715 disclose specially designed spectrophotometric apparatus for quantifying the physical properties of hydrocarbons, crude petroleum and other black oils. In these specially designed apparatus, a sample cell or probe may be inserted directly into the sample source. The spectral data generated are related to the physical properties of the product by means of chemometric models.
These prior art processes do not, however, disclose a method for process control in which the concentration of tar-like by-products generated during the production process in the distillation residue may be monitored using standard, commercially available equipment. Monitoring the residue by-product content rather than amount of reactant material(s) or reaction product is advantageous because product loss is minimized and formation of a large concentration of residue that could cause processing problems is avoided. However, because the residue of a distillation process is generally opaque and dark in color and more varied in composition than the desired product or the reactants, it is more difficult to monitor such residue by an in-line process.
An in-line spectrometric process for monitoring a residue that generates the desired analyses with a high degree of accuracy within a very short period of time using standard, commercially available equipment would therefore be advantageous.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an in-line spectrometric method for determining the residue content of an isocyanate production distillation residue containing tar-like by-products within an accuracy of ±2.0%.
It is also an object of the present invention to provide an in-line method for determining residue content which may be carried out using standard, commercially available equipment.
These and other objects which will be apparent to those skilled in the art are accomplished by positioning a near infrared (NIR) probe in the isocyanate distillation vessel or a pipeline through which isocyanate/residue mixture is transported in a manner such that the isocyanate/residue mixture will pass or flow through the sample cell of the probe. The NIR probe which is used must be capable of (1) transmitting light from an NIR source at wavelengths of from 1050 to 2150 nanometers (nm) through an isocyanate/residue mixture and (2) relaying that transmitted light over fiber optic cables which connect the probe to the NIR source and to an NIR spectrometer. The NIR spectrometer must be capable of generating an NIR second derivative absorption spectrum from the light which has been transmitted through the isocyanate/residue mixture to the spectrometer via fiber optic cable. The residue content of the isocyanate/residue mixture is determined from the second derivative spectrum using a mathematical (chemometric) model.


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Dumoulin M M et al: “Techniques for Real-time Monitoring of Polymer Processing”, Trends in Polymer Science, vol. 4, No. 4, Apr. 1, 1996, pp. 109-114, XP004049245 ISSN: 0966-4793, p. 112.

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