FI92742B - Diagnosis of paper machine wet chemistry disorders - Google Patents

Description

92742

DIAGNOSTICS OF PAPER MACHINE WET COMPOSITION

The invention relates to the diagnosis of chemical disorders in the wet part of a paper machine. In particular, the invention relates to a method for locating interfering devices and / or unit processes in the wet part of a paper machine. The invention further relates to a corresponding apparatus.

In this description, paper means house paper, board or any other web-like product made by a similar process.

The chemical disturbances in the wet part of the paper machine are significant for the production economy of the paper machine. 15 Production losses caused by chemical disturbances are, for example, 2 - 10% of efficiency. In addition, chemical disturbances cause a decrease in the quality level of production.

The chemistry of the wet end of a paper machine is a very complex, highly interactive system. 20 The system starts with separate pulp lines that have effects on the wet end circulation and further on the paper, which continues to affect the chemistry of the wet end through the wreck. In addition, the chemistry of the wet section is affected by, for example, different mixing steps, different pumping steps, mixing of chemicals, and generally all process steps, operations, and conditions of the wet section.

The chemistry dynamics of the wet part of a paper machine is problematic. The time constants of the parts of the process vary within wide limits, starting from a level of about 1 min and continuing for 30 to several days. In addition, laboratory tests cannot be performed frequently and comprehensively enough. In addition, on-line sensors are generally used relatively little.

The object of the present invention is to obviate the above-mentioned drawbacks and in particular to improve the runnability of the wet section of the paper machine by improving the control of the wet section chemistry, in particular by removing precipitation and / or microbial disturbances and monitoring ion concentrations accumulating in a short cycle.

It is a further object of the invention to improve the runnability of the wet section by removing disturbances caused by chemical disturbances.

It is a further object of the invention to improve the uniformity of quality by eliminating quality disturbances caused by retention variations.

It is a further object of the invention to provide a new method and apparatus for determining defective machine members in the wet part of a paper machine.

For aspects of the invention, reference is made to the claims.

The invention is based on continuous on-line monitoring of the wet part of the paper machine Kemi-15 an. At least consistency, pH, conductivity and dosing flows as well as Ca, Al and silicate ion concentrations are continuously detected in the wet section, the corresponding signals are monitored continuously and in the event of a disturbance, when the signal deviates from 20 normal, an attempt is made to find the interfering process device. by monitoring the occurrence of interference at different magnitudes and points at different points in time and searching for cause-and-effect relationships between signals by time series analysis.

25 In addition to the above-mentioned quantities and ionic concentrations, several other quantities can be determined from the pulp, e.g. turbidity, charge state, sulphate content, Fe, Mg and TOC (TOC = Total Organic Carbon) and other desired ionic concentrations and 30 organic compounds. The method can determine signals corresponding to said quantities, normal levels and normal characteristics of the signals, and transmission characteristics between the signals. Monitoring of the variables and, for example, a comparison of the non-normal values of the signal form or frequency variables with the signal form of the variables measured at the devices in the previous process that affect the respective quantity. ao.

Il 3 92742 for locating the cause of a large disturbance is performed e.g. by a microprocessor. In this context, the normal level of the signal refers to the signal strength within the accepted range. The normal-5 characteristic of a signal means any property of the signal, such as strength, shape, periodicity, or some other property within acceptable ranges; particularly good results have been obtained by monitoring the shape of the signal.

Furthermore, the method may, if desired, determine the ratio of at least two generated signals, e.g., the delayed ratio of the two ionic concentrations and the transmission characteristics of the interfering interference, the ratio of the ionic concentration to some other magnitude, features. For the delayed ratio and the interference transmission characteristics, a normal level and a normal characteristic can be determined and, if desired, compared with the periodicity of the devices affecting the ratio.

The detection of large quantities and the generation of corresponding signals, as well as further signal processing, are known per se as analysis techniques and amplification techniques, and will not be discussed in more detail in this context. Further, summing the signal and / or forming a delayed ratio to compare their sum and / or ratio is a per se known signal processing technique and will not be described herein. Furthermore, the generation of interference transmission characteristics is a signal processing technique known per se. Furthermore, a computing unit such as a microprocessor for processing, comparing, processing and comparing the periodicity of the signals is known per se and will not be discussed in more detail in this connection.

With the system according to the invention, the chemistry of the wet part of the paper machine can be monitored in detail and accurately. In the event of a disturbance, e.g. when an ion concentration varies within an abnormally wide range, the source of the ion concentration variation can be determined by monitoring the ion concentration variation, i. the progress of the disturbance in the process by means of determinations and detectors indicating the disturbance transmission path. The abnormal variation of the ion may thus be due to, for example, a disturbance of the ion-containing chemical mixture, such as a chemical supply failure, a feed pump failure, a subsequent mass pump failure, and the like.

In the system according to the invention, the process of a wet section of a paper machine, e.g. a chemical pulp line, a mechanical pulp line, a wreck line, a mixing tank, a machine tank, a dilution connection, a vortex cleaner, a pump connection, a screen connection, a headbox connection and / or a wire , up to several dozen, such as 10 to 100 detectors for detecting chemical quantities, according to the invention:.:. o :,. Furthermore, various physical detectors, such as detectors indicating the operating status of the functions of the devices in question, can be placed in the corresponding mechanical devices, such as pumps, feeders, pipelines, tanks and other devices which have a mechanical effect on the mass.

After the possible signal processing and amplification, the signals are routed from the detectors, e.g. to a conventional computer, where the process is monitored. In this case, each measured quantity can be monitored from the calculation unit and the desired delayed ratios of the quantities and the transmission properties of the disturbances between the quantities can be determined and the quantities can be compared with each other. In connection with pulp lines, it is advantageous to determine e.g. consistency, flow, pH and conductivity; the corresponding quantities are usually determined after mixing. After the adjustment steps, it is generally suitable to determine the pH and conductivity. In the case of a headbox, it is generally suitable to determine the ionic concentrations, consistency, pH and conductivity. In the case of a wire well, it is generally suitable to determine the consistency, pH and conductivity, possibly ion concentrations.

What is new in the invention is in particular the extensive chemical monitoring of the wet end of the paper machine continuously on-line, and in particular the online monitoring of ions and concentrations, which has not previously been carried out in connection with the wet part of the paper machine. In addition, what is new in the invention is the generation of transmission characteristics of interference moving between delayed ratios and quantities of different signals, which is important especially in locating interference sources and mechanisms in the process. In addition, what is new in the invention is the comparison of the periodicity of the signals given by the chemical detectors with the periodicity of the devices acting on the quantity in question.

Figure 1 shows a method and apparatus according to the invention for locating devices and / or unit processes interfering with the wet part of a paper machine. The ripper includes a conventional wet part 31 with headboxes 32 and drying parts 33. The paper process and its parts are known per se and will not be described in more detail here. In particular, the invention is directed to locating devices and / or unit processes that interfere with the wet portion of a paper machine. In the process shown in Figure 1, chemical pulp A, mechanical pulp B and waste pulp C are fed to the wet core from tanks. After mixing 34, the pulp is fed to the machine tank 35 and further to the mixing 36; then the vortex blowers 30, the pump 38, the screens 39 and the headbox size 32. From the headbox, the pulp is fed to the wire section 31, the web formed here is conventionally fed to the drying section 33 and to a product, e.g. roll 40.

The pulp that has passed through the wire is fed to the wire well 20 to be returned through the mixture 36 to the pulp feed line.

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In the principal process shown, the chemical addition can be carried out e.g. in a mixing tank 34. Furthermore, chemicals can be mixed e.g. in a machine tank 35. In addition, 5 chemicals have been introduced to the pump 38 and fillers in the tank 41 to be mixed into the pulp line 21 in the mixing process.

In the process of Figure 1, the chemical pulp tank 45 / mechanical pulp tank 46 and the waste pulp tank 47 determine the pulp consistency, pH, conductivity and feed flow with respective detectors 1, 2, 3 and 32. The detected measurement results D are passed to the signal processing unit S and onwards. to the computing unit 30, i.e. to the computer. Also, the consistency, pH, conductivity and flow of the machine tank 35 and the chemical 2, e.g. iron, are determined with appropriate detectors; the signals are formed and fed to the calculation unit 30 in the same manner as above. TA density, total thickness, pH, and conductivity are determined from headbox 32 and wire well 20, respectively, with the respective de-20 tectors l1, l2, 2, and 3; signal generation and transmission to the calculation unit 30 as above. Further, from the mixing tank 34, the chemical 1, e.g. magnesium, the chemical 38 from the pump 38, another desired chemical and the desired filler from the filler tank 41 are determined with corresponding detectors as shown; “Signal generation and transmission to the unit of account as above. Further, at least the Ca, Al and silicate ion concentrations are determined from the headbox 32 with detectors 4, 5 and 6, respectively; generating signals and transferring 30 to the computing unit 30 as above. In the application shown, the TOC, i.e. the total amount of organic carbon in the headbox, is also determined with a corresponding detector 19.

In a further embodiment, the periodicity of the devices and / or unit processes affecting the above-mentioned detected quantities in the previous process step is continuously detected on-line.

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7 92742, e.g. flow from pulp tank 46, flow from pulp tank 45, flow from waste tank 47, flow or pressure variation from mixing tank 34, flow and / or pressure variation in machine tank 35, flow and / or pressure-5 fluctuations from vortex cleaners 37 and 371, chemical , flow and / or pressure variation from pump 38, flow and / or pressure variation through screen 39; signal generation and transmission to the unit of account as above. Furthermore, in the method, the operation of all or the desired pumps, mixers, and other machine elements and / or unit process can be monitored by separate detectors D, e.g. signal generation and wiring to the computing unit 30 as above.

Signals describing the periodicity of the desired quantities, devices and / or unit processes generated in the calculation unit 30. Furthermore, the calculation unit determines the normal levels of the signals, the normal characteristic lattices and / or the inter-signal transmission characteristic, and compares them with the detected periodicity of the devices and / or unit processes of the previous process step in order to localize the disturbance. In particular, the invention monitors the consistency, pH and conductivity of mass flows, as well as Ca, Al and silicate-ti ion concentrations. The process equipment and / or unit processes to be controlled can be selected according to the desired need, i.e. according to the research object, e.g. priority is given to monitoring equipment and / or unit processes that are more susceptible to interference.

30 An exemplary embodiment illustrates an embodiment of the invention by way of example without limiting the scope of the invention in any way. Thus, in the method and apparatus of the invention, the concentration of any chemical or ion in the process can be monitored; in a similar method, any operation of any single device or machine member or unit process can be monitored, e.g., pressure, speed, specific vibrations, etc. .

Applications of the invention may vary within the scope of the appended claims.

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Claims (8)

1. A method for locating devices and / or a unit process which causes interference in the wetting portion of a paper machine, wherein at least pulp thickness, pH and conductivity are detected from the pulp; and silicate ion concentrations continuously on-line; signals corresponding to the detected quantities are formed; The normal levels of the signals and the normal characteristics and / or transmission characteristics between the signals are determined; the signals are continuously monitored and compared with normal levels and normal characteristics corresponding to them; since any signal deviates from the corresponding normal 15 'level and normal characteristics are determined from at least one preceding process stage on the respective magnitudes of the devices and / or unit processes of the periodicities of the devices and these are compared with the variations of the normal deviating signal for the location of the large interference generators. 2. A method according to claim 1, characterized in that Fe, Mg and / or TOC concentrations are detected from the mass, continuously online, corresponding signals are formed, the normal levels of the signals and normal characteristics and transmission characteristics between the signals are determined. the signals are monitored and compared with normal levels and characteristics corresponding to them and compared with the periodicities of a device and / or unit processes affecting the quantities of the deviating signal's variations. Method according to claim 1 or 2, characterized in that during the process the shape of signals of detected detected quantities and the periodicity of devices and / or unit processes which are continuously in the form are followed. Method according to any one of claims 1 - 13 92742 3, characterized in that the process determines the ratio of the signal, the delayed ratio of at least two signals and / or the transmission characteristics of the progressive interference with the relative magnitude in relation to the ratio. the periodicity of influencing devices and / or device processes. Apparatus for locating devices and / or unit processes which cause interference in a wetting portion of a paper machine to which apparatus includes detectors (1, 2, 3) for detecting the thickness, pH and conductivity of the pulp, characterized in that the apparatus hears detectors (4, 5, 6) for detecting continuously the Ca, AI and silicate ion concentrations of the pulp continuously on-line, means (S) for generating signals corresponding to the detected quantities, means (13 - 21) for detecting of the relevant quantities in at least one preceding process stage affecting the periodicity of devices and / or unit processes and a calculating unit (30), which is arranged to determine the normal levels of the signals, normal characteristics and / or transmission characteristics between the signals and to determine a deviation from the norm and to determine a deviation from the norm. comparing it with the detected, prior process chain devices and / or unit processes 25 odicities for the location of the size disturbance generators in question. 6. Apparatus according to claim 5, characterized in that the apparatus includes detectors (7, 8, 9) for detecting continuously the mass Fe, Mg and / or TOC concentrations continuously on-line and means (S) for formation. of signals corresponding to the delimited quantities. Apparatus according to claim 5 or 6, characterized in that the calculating unit 35 (30) is arranged to continuously compare the shape of the on-line detected quantities signals and the periodicity of the devices and / or unit processes 14 92742. Apparatus according to any one of claims 5 to 7, characterized in that the apparatus includes means for forming at least two signals 5's ratio, delayed ratio and / or a transmission characteristics between these advancing disturbances, and that the calculating unit (30) is provided. comparing the formed relationship with the periodicity of the prior process devices and / or unit processes (13 - 21). II