TH34820A - Online control of chemical process plants - Google Patents

Abstract

DC60 (19/03/41) The process plant for the production of halobutyl rubber will arrange for inspection and control. Online control of process variables to control Product features Will use a measurement system With which do not want Any sampling from the process It uses a Fourier-Transformed Near Infrared Spectrometer (FTNIR), fiber cable, viscosity meter. For measuring viscosity substances Melt and resistivity thermometers (RTD) for temperature measurement, reais analysis system Time online using Principal Konstant spectroscopy program to predict the properties of polymer products and have a control system. The process in which data is analyzed by Use relationship Between the physical properties of the polymer and these spectral measurements and the measured values of fluid viscosity and temperature. Difference between the properties of The desired product Prediction is used to control process variables, this method can be used for various chemical process plants. Process plants for halobutyl rubber production will provide on-line monitoring and control of process variables to control. Product features Will use a measuring system too, which is not needed Any sampling from the process Will use the Fourier spectrometer. Transform near infrared (FINIR) fiber cable. Viscosity meter For measuring viscosity, slurry and temperature measuring devices with Electrical Resistivity (RID) for Urahi Temple Riel analysis system Time online by using Principalcon Schultz predicts the properties of polymer products and has a control system. A process in which data is analyzed using relationships Between the physical properties of the polymer and these spectral measurements and the measured values of fluid viscosity and temperature. The difference between the desired product properties and that Predicted will be used to control process variables, how water can be used for various chemical process plants.

Claims (4)

1. A method for online control of the process to produce a product qualifying P with the required value D contains a set of measured specifications with measurement errors for. A set of standard samples at least one step in between. In the process mentioned above Corrected the measured specification for The above measurement error to produce a set of specifications. Edited for a set of standard samples. Calculate a set of weights Relating to the aforementioned revision specification of each As in the standard above with the basic set of normal functions, the property P is obtained for each sample of the meter. Base mentioned above Calculate that prediction model Relates to the aforementioned value for the resulting P property. As for the aforementioned set of weights, the spectrum is measured for the test sample at at least one step between the intermediate stages. The processes mentioned above Get spectrum corrected for self As mentioned above, at least one step. Between the above mentioned Calculate the E estimate for you. Property P for the test sample mentioned above from the model. Prediction and corrected spectrum of the aforementioned test samples Have been mentioned and control the aforementioned processes by Use the calculated difference between the approximate E and D values mentioned. Then consists of polymers 3. Method according to Clause 1 that the specification measured at The foregoing will be selected from the group containing the Ramman spectra. NMR specification And Infrared spray 4. Method according to claim No. 1, where the measured specification stated It has been composed of the sorbent spectra in the near infrared region. 5. Method according to claim 4, where the prediction model is Calculated by finding the least squares regression relationship. 6. The way of claim No. 3 where the process mentioned. It then consists of methods chosen from the group consisting of polymerization. Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to remove ditrone, peroxide formation, ash reduction and halogenation. 7. Method according to claim No. 4, where the aforementioned process It then consists of the methods selected from the group containing the polymerization. Steam separation Purification of olefins, aerobic purification Isomers formation Catalytic dissociation Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation, neutralization, ammonia formation, membrane separation Carbonyl formation, ketone formation, water formation, oligomers, decomposition, sulfonate formation, extrusion, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to remove nitronone, peroxide generation, ash reduction and halogenation. 8. Method according to claim 6, where a set of basic functions OrthoNorm describes the manner in which the sorbent spectrum corrects it. As mentioned for the standard examples that have been mentioned above. With the Eigen spectra calculated by separating one variable. 9. Method according to claim 7, where the basic set of functions Orthodontic describes the manner in which vasospectra corrects it. As mentioned above, for the standard example mentioned above, Igenes. Pektra calculated by separating one variable 1 0. Method according to claim 8, where property P is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting Index, Polymer Density, Composition of Substances, Product Variance and Molecular Weight Distribution 1 1. Method according to claim 9, where P property is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting Index, Polymer Density, Composition of Substances, Product Variance and Molecular Weight Distribution 1 2. Method according to claim No. 9, where the aforementioned measurements were obtained. Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transmission line (FINIR) 1 3. Method according to claim No. 10, where the above measurements Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transform (FINIR) 1 4. Method according to claim No. 10, where the above measurements Then of the spectrum already mentioned for the test sample that As mentioned above, it will be done at least every two minutes. 1 5. Method according to claim 11, where the above measure Then of the spectrum already mentioned for the test sample that As mentioned above, it will be done at least every two minutes. 1 6. Methods for online control of the process for the product. With property P with the desired value D consists of obtained a set of measured spectra with a measurement error for the set of Standard sample at at least one intermediate step in the process of correcting the measured spectra for measurement error. As mentioned above to produce a set of modified specifications for the set of Standard example Calculate a set of weights in relation to the specification. The aforementioned revised seal of each obtained standard sample. As already mentioned, with the basic orthodontic function the value of at least one additional property of the sample is obtained. Standards already mentioned Gets the value of the property. P for each of the aforementioned standard samples, calculate a predictive model related to the aforementioned values for The properties P mentioned above with the set of weights mentioned. And the above-mentioned values of the additional properties are few. One of the properties mentioned above of the aforementioned standard samples measures the spectrum and few additional properties. One of the properties mentioned is for the test sample that At least one intermediate step in the aforementioned process, di-spectral correction for the aforementioned test samples. In at least one of the above-mentioned intermediate steps calculates the E estimate for properties P for the test sample that It has been said from the aforementioned prediction models and modifiers, and the aforementioned values of the additional properties like At least one of the properties mentioned of the test sample that Have been mentioned and control the aforementioned processes by Use the calculated difference between the approximated E and D-values. 1 7. Claim Method 16, where additional properties At least one of the aforementioned properties is selected from the groups of temperature, viscosity, pressure, density, refractive index, PH value, conductivity and conductivity 1 8. Method according to claim 17, where the product Had said It is composed of polymer 1 9. Method according to claim 17 at the measured specification. The aforementioned will be selected from a group that contains the N-MR Spectra Ra. And spectra Red 2 0. Clause 17, where the spectra measured at As mentioned above, it consists of near-infrared area sorbent spectroscopy 2. 1. Method according to claim 20, where the prediction model is Calculated by finding the least squares correlation. 2. 2. Method according to claim 19, where the positive action was discussed. It contains methods chosen from the group which includes The birth of Pylmer Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to remove ditrone, peroxide, ash reduction and halogenation 2 3. Method of claim 20 where the process mentioned It contains methods chosen from the group which includes Polymerization Steam separation Purification of olefins, aerobic purification Isomers formation Catalytic dissociation Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation, neutralization, ammonia formation, membrane separation Carbonyl formation, ketone formation, water formation, oligomers, decomposition, sulfonate formation, extrusion, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to extract nitronone, peroxide, ash reduction and halogenation 2 4. Method according to claim 20, where a set of floor functions. Orthodontic bases describe the characteristics that the sorbent spectrophotometer corrects that Mentioned for the standard example mentioned above It consists of the Eigen specification calculated by separating one variable 2. 5. Method according to claim 21, where the set of floor hatches Orthodontic bases describe the manner in which the sucker vasectra corrects it. As mentioned above, for the standard example mentioned above, Igenes. Pectas calculated by separating one variable 2. 6. Method according to claim 22, where property P is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting index, polymer density, composition, individual substances, product variation and molecular weight distribution 2 7. Method according to claim 23, where P property is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting Index, Polymer Density, Composition of Substances, Product Variance and Molecular Weight Distribution 2 8. Method according to claim 24, where the aforementioned measurements were found. Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transmission line (FINIR) 2 9. Method according to claim 25, where the above measurements Then the near-infrared spectra is performed by the full spectrometer. Near-infrared trans-form (FINIR) 3 0. Method according to claim 24, where the above measurements Then of the spectrum already mentioned for the test sample that As mentioned above, it will be done at least every two minutes. 3 1. Method according to claim 25, where the above measure Then of the spectrum already mentioned for the test sample that As mentioned above, it is done at least every two minutes. 3 2. Process plants for P qualified products that are valuable. Desired D contains The first device for measuring Spectrum in which there is a measurement error at least one step between the middle to obtain a set of measured spectra for the set. Of standard samples and for test samples Device that Two to measure the above values for property P for Each example of the above standards and a computer adapted to Edit the measured specification. The foregoing of the standard examples mentioned above. The aforementioned exam for the skin error in measuring to make the dress Of the specification edit Build a predictive model related to the aforementioned corrective specification for the aforementioned standard samples. And then with the measured value of the property P mentioned Then for the aforementioned standard samples, predict the expected value E for property P of the aforementioned tests from the design. Simulations, predictions and revised specifications for example. The test mentioned above. And control the factory process By using the calculated difference between the aforementioned expectation E and the desired value D, 3 3. Method in Clause 32, where the said product will It is composed of 3 polymers. 4. Method according to claim 32 at the measured specification. The aforementioned will be selected from a group that contains the N-MR Spectra Ra. And spectra Red 3 5. Method according to Clause 32, where the measured specification at As mentioned above, it consists of near-infrared area adsorbent spectroscopy 3. 6. Method of claim 35, where the prediction model is Calculated by finding the least squares correlation 3 7. Method according to claim 34, where the said process. It contains methods chosen from the group which includes The birth of Pylmer Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water removal of sulfur, Ditrone dehydration, Peroxide, Ash reduction and halogenization 3 8. Method of claim 35, where the said process has not yet been identified. It contains methods chosen from the group which includes The birth of Pylmer Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water removal of sulfur, Ditrone dehydration, Peroxide, Ash reduction and halogenization 3 9. Method according to claim 37, where property P is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting Index, Polymer Density, Composition of Substances, Product Variance and Molecular Weight Distribution 4 0. Method according to claim 38, where P property is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting Index, Polymer Density, Composition of Substances, Product Variance and Molecular Weight Distribution 4 1. Method according to claim 39, where the aforementioned measurements were made. Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transmission line (FINIR) 4 2. Method according to claim 40, where the above measurements Then the near-infrared spectra is performed by the full spectrometer. Near-infrared trans-transformers (FINIR) 4 3. Process plants for valuable P qualified products Desired D contains The first device for measuring Spectrum in which there is a measurement error at least one step between the middle to obtain a set of measured spectra for the set. Of standard samples and for test samples Device that Two to measure the above values for property P for Each of the above standard examples Third device For the value of one or more additional properties of Examples of the above standards and for test samples As mentioned above and computers that are adapted to Correct the measured specification mentioned above. Then of the aforementioned standard samples and the test samples As mentioned above, for the errors in the measurement to make the set Of the specification edit Create a predictive model related to specifications. The aforementioned revised seal for the standard sample obtained As mentioned above, with the aforementioned value of the resulting P property. For the aforementioned standard samples, predict the expected value E for the properties P of the aforementioned tests from the predictive models and the aforementioned revised specifications and values. As mentioned above, one or more of the properties As mentioned above for the aforementioned test samples and to control the aforementioned process factories by using The calculated difference between the aforementioned expected value E and The desired value D mentioned above. Control the factory process Has been mentioned, using the calculated difference between the expected values Note E as mentioned above and desired value D mentioned 4 4. Method of claim 43 where additional properties At least one of the aforementioned properties is selected from the group of temperature, viscosity, pressure, density, refractive index, PH value, constant, conductivity and conductivity 4 5. Method according to claim 43, where the product Said It consists of 4 polymers. 6. Method according to claim 43 at the measured specification. The aforementioned will be selected from a group that contains the N-MR Spectra Ra. And infrared spectroscopy 4. 7. Method according to claim 43, where the measured specification at As mentioned above, it consists of the near-infrared area sorbent spectra. 4. 8. Method according to claim 45, where the prediction model is Calculated by finding the least squares relationships 4. 9. Method according to claim 44, where the process mentioned It contains methods chosen from the group which includes The birth of Pylmer Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to remove ditrone, peroxide, ash reduction and halogenation 5 0. Method according to claim 45 where the process mentioned It contains methods chosen from the group which includes The birth of Pylmer Steam separation Purification of olfins, aerobic purification Isomers formation Separation by catalyst Creation by catalyst Hydrogenation, oxidation, partial oxidation, dehydration, water generation, nitrate formation Epoxy formation, distillation, combustion, alkyl formation Neutralization, ammonium formation, dissociation by membrane Carbonyl formation, ketone formation, water formation, oligomers, separation, sulfonate formation, crystallization, adsorption. Destructive distillation using water to remove alkyl Hydrogen removal Aromatic, cyclic, thermal dissolution Water to remove sulfur, water to remove ditrone, peroxide, ash reduction and halogen generation 5 1. Method according to claim 47, where property P is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting index, polymer density, composition, individual substances, product variation and molecular weight distribution5 2. Method according to claim 48, where property P is selected. From the group containing Mooney viscosity Polymers unsaturation, use of copolymers Halogen content Polymer concentration, monomer concentration Molecular weight Melting index, polymer density, composition, individual substances, product variation and molecular weight distribution5 3. Method according to Clause 49, where the above measures Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transformer (FINIR) 5 4. Method according to Clause 50, where the measurement of the above Then the near-infrared spectra is performed by the full spectrometer. Near-infrared transfusion (FINIR) (54 claims, 12 pages, 5 photos)