RU2660287C1 - Multi-component gaseous medium in the airtight container state parameters control method - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to the field of the changing over time gas medium state parameters measuring methods and can be used to monitor the containing toxic or explosive-fire hazardous components observable multicomponent gaseous medium safe state. Proposed is the multicomponent gaseous medium parameters measuring method in the airtight container with the objects stored therein. Method comprises the parameters measuring using temperature, relative humidity and pressure sensors, and the multicomponent gaseous medium safe state monitoring. According to the invention, sealed container with multi-component gaseous medium with the objects stored therein is placed in the protective container, which is then placed in the climatic chamber. In each of the mentioned containers and in the climatic chamber, installing the system of independent small-sized temperature, relative humidity and pressure sensors or sensors with these parameters combined function. Monitoring of the multicomponent gaseous medium changing parameters is carried out in real time with the measuring signals recording and the measured analog signals subsequent transmission to the analog signals into digital signals conversion stage and transmission of the latter to the PC, in which the observed multicomponent gas medium parameters current values DB is generated in automatic mode, and in which there are preformed nominal values DBs and the critical values DBs of the multicomponent gaseous medium measured parameters. Multicomponent gaseous medium in the sealed container current safe state control is performed based on the comparison of differential pressure values, relative humidity and temperature in the sealed container multicomponent gas environment with objects stored therein and protective container in comparison with the gaseous medium in the climate chamber parameters and in comparison with these parameters critical values in the control DBs. AT that, if the measured parameters current values are in the range of values of the parameters nominal values DBs and do not reach the parameters critical values DBs values, ascertaining the multicomponent gaseous medium in the airtight container safe state presence.

EFFECT: increase in the measured results reliability.

1 cl, 1 dwg

Description

The present invention relates to the field of methods for measuring the parameters of a time-varying multicomponent gaseous medium in confined spaces and can be used to control the state parameters of the observed multicomponent gaseous medium containing toxic or explosive components.

A known method for monitoring the state of observed objects (RF patent No. 2413193, IPC G01M 7/00, published February 27, 2011), including measurements using sensors installed at critical points, the integrated characteristics of the observed objects, collecting and processing data from sensors and comparing the measured integral characteristics with the matrix elements of the boundary values of these characteristics.

Known as a prototype of the proposed method for determining the parameters of the gas environment (RF patent No. 2438121, IPC G01N 27/416, publ. 12/27/2011), according to which a dynamic measurement of changes in humidity and temperature in a sealed container and control of humidity parameters in a sealed container using temperature and humidity sensors.

The disadvantages of analogues include the relatively high complexity, the need for the presence of the operator and the operator to carry out the actions necessary to control and manage the process, as well as the inability to use the method in areas remotely remote from the data center.

The task of the authors of the invention is to develop a method that allows you to simultaneously determine the temperature, relative humidity and pressure of a multicomponent gas medium in sealed containers with objects stored in them and changes in these parameters over time, allowing you to control environmental and functional safety.

A new technical result provided by the present invention is to increase the reliability of the measured results by isolating the object from external factors, providing dynamic control over the time-varying multicomponent gas medium in an airtight container with the objects under study, automating the operational measurement process, reducing labor resources, autonomy and optimization of the measurement and control process.

These tasks and a new technical result are ensured by the fact that in the known method for measuring the parameters of a multicomponent gas medium in an airtight container with objects stored in them with a time-varying composition, including measuring parameters using temperature, relative humidity and pressure sensors, and monitoring the safe condition multicomponent gaseous medium, according to the invention, a sealed container with the investigated multicomponent gaseous medium with stored in it They are placed in a protective container, which is then placed in a climate chamber, in each of the mentioned containers and in a climate chamber, a system of independent small-sized temperature, relative humidity and pressure sensors or sensors with a combined function of these parameters are installed, monitoring the changing parameters of a multicomponent gas medium is carried out in real time, with the registration of measuring signals of independent small-sized sensors of temperature, relative humidity and pressure sensors or with a combined function of these parameters, followed by the transmission of the measured analog signals to the stage of converting analog signals to digital signals and transferring the latter to a PC, on which the database of the current values of the parameters of the observed multicomponent gas medium is automatically generated and on which there are preformed databases nominal values and databases of critical values of the measured parameters of a multicomponent gas medium, and the control of a safe current state is many component gas medium in an airtight container is carried out on the basis of comparing the values of the temperature difference, relative humidity and pressure in a multicomponent gas medium of an airtight container with objects stored in it and a protective container compared with the parameters of the gas medium in the climate chamber and compared with the critical values of these parameters in control databases, in this case, if the current values of the measured parameters are in the range of values from the database the nominal values of the parameters and did not reach The critical values of the parameters are reached to the DB values, the presence of a safe state of a multicomponent gas medium in an airtight container is noted.

The proposed method is illustrated as follows.

In FIG. 1 shows a General view of the structure, which tested the proposed method, where: 1 - climate chamber; 2 - a protective container; 3 - sealed container with the studied objects; 4 - investigated objects; 5 - sensors of temperature, relative humidity, pressure; 6 - switching elements (adapter cables); 7 - AIPB.

A pre-sealed container 3 with the investigated multicomponent gas medium with the objects 4 stored in it is placed in a protective container 2, which is then placed in the climate chamber 1. In each of the mentioned containers and in the climate chamber, a system of independent small-sized sensors 5 for temperature, relative humidity and pressure is installed or sensors with a combined function of these parameters. Monitoring the changing parameters of a multicomponent gas medium is carried out in real time with the registration of measuring signals of independent small-sized sensors 5 for temperature, relative humidity and pressure, or sensors with a combined function of these parameters. Then the registered signals are transmitted to the stage of converting analog signals to digital signals in AIPB 7 (stand-alone measuring and conversion unit) through cable adapters 6.

After that, the converted signals are transmitted to the PC, in which the DB of the current values of the parameters of the observed multicomponent gas medium is automatically generated and in which there are pre-formed DBs of nominal values and the DB of critical values of the measured parameters of the multicomponent gas medium. A database of nominal values of the measured parameters is preliminarily formed, calibrated against individual gas media with reference contents of the components. The PC database also contains a database of critical values of the measured parameters of a multicomponent gas medium.

In the inventive method, temperature, relative humidity and pressure sensors or sensors with a combined function of these parameters are used, the functionality of the sensors is enhanced by the presence of independent electrical circuits in their design, which are based on the dependence of the electrical parameters of these circuits individually on heterogeneous factors of gas environments (temperature, relative humidity and pressure), which greatly simplifies the measuring circuit in both constructive and functional plans.

The safe current state of a multicomponent gas medium in an airtight container is controlled by comparing the pressure drop, relative humidity and temperature in a multicomponent gas medium of an airtight container with objects stored in it and a protective container compared to the parameters of the gas medium in the climate chamber and compared to critical the values of these parameters in the control database. Moreover, if the current values of the measured parameters are in the range of values from the database of the nominal values of the parameters and do not reach the critical values of the database, the presence of a safe state of a multicomponent gas medium in an airtight container is noted.

These measures can minimize the operational process of measurements, free additional staff from the need for constant monitoring of changes in parameters, eliminate errors associated with the influence of the "human factor", thereby increasing the reliability and accuracy of measurements, and the efficiency of monitoring.

Thus, when using the proposed method, a higher technical result is achieved in comparison with the prototype, namely, it increases the reliability of the measured results due to the isolation of the object from external factors, provides dynamic operational control over the time-varying multicomponent gas medium of sealed containers with the studied objects , automation of the operational process of measurements, reduction of labor resources, autonomy and wholesale imitation of the measurement and control process.

The possibility of industrial implementation of the proposed method is confirmed by the following example.

Example 1. In laboratory conditions, the proposed method is implemented on the installation depicted in FIG. one.

In the climate chamber 1, a protective container 2 is located, in which a sealed container 3 with the test objects 4 is placed. In the sealed container 3 and the protective container 2, independent temperature, relative humidity and pressure sensors 5 or sensors with a combined function of these parameters are installed, which using elements switching (6) are connected to an autonomous measuring and conversion unit (AIPB) (7) that transmits digital signals to a PC.

After assembling the pilot plant (Fig. 1) for dynamic control of the state parameters of a multicomponent gas medium, real-time registration of the signals of the measuring sensors 5 is carried out, which are transmitted via electrical contacts to the corresponding outputs of the measuring unit, which is outside the climate chamber at the conversion stage (AIPB) and forming a database (on a PC) of the current values of the measured parameters - temperature, relative humidity and pressure. The processes of measuring and converting signals occur in automatic mode, with the construction of graphs of the dependence of the measured signals on time.

The signals of these sensors 5 are measured in a climate chamber 1, a protective container 2, and in an airtight container 3. Before carrying out experimental studies, changes in the state parameters of the observed multicomponent gas medium are carried out in the measurement of control containers with reference samples, based on which a database of nominal values is formed. All measurements are carried out online with subsequent conversion and transmission of signals to a PC.

The process of monitoring the state of the observed multicomponent gas medium is carried out on the basis of comparing the pressure drop, relative humidity and temperature in the multicomponent gas medium of the sealed container with the objects stored in it and the protective container in comparison with the parameters of the gas medium in the climate chamber and in comparison with the critical values of these parameters in control databases, in this case, if the current values of the measured parameters are in the range of nominal database values: steam values meters and do not reach the level of DB values of critical parameter values, they state the presence of a safe state of a multicomponent gas medium in an airtight container.

As an example of implementation showed, when using the proposed method, it is possible to increase the reliability of the measured results by isolating the object from the influence of external environmental factors, providing dynamic control over the time-varying parameters of the gas environment of the sealed containers with the objects under study, minimizing the operational process and reducing labor resources, autonomy and optimization of the measurement and control process.

Claims (1)

A method for monitoring the state parameters of a multicomponent gaseous medium in an airtight container with objects stored in it with a time-varying composition, including measuring parameters using temperature, relative humidity and pressure sensors and monitoring the safe state of a multicomponent gaseous medium, characterized in that the sealed container is under study a multicomponent gas medium with the objects stored in it is placed in a protective container, which is then placed in an air conditioner In each of the containers and in the climate chamber, a system of independent small-sized temperature, relative humidity and pressure sensors or sensors with a combined function of these parameters are installed, real-time monitoring of the changing parameters of a multicomponent gas medium is carried out with the registration of measuring signals of independent small-sized sensors temperature, relative humidity and pressure, or sensors with a combined function of these parameters, followed by by transferring the measured analog signals to the stage of converting analog signals to digital signals and transferring the latter to a PC, in which the DB of the current values of the parameters of the observed multicomponent gas medium is automatically generated and in which there are pre-formed DBs of nominal values and the DB of critical values of the measured state parameters of the multicomponent gas environment, and control of the safe current state of a multicomponent gas medium in an airtight container is carried out and based on a comparison of the pressure drop, relative humidity and temperature in a multicomponent gas medium of an airtight container with objects stored in it and a protective container compared to the parameters of the gas medium in the climate chamber and compared to the critical values of these parameters in the control database, if the current values of the measured parameters are in the range of DB values of the nominal values of the parameters and do not reach the values of the DB critical values of the parameters, note the presence the safe state of a multicomponent gas medium in an airtight container.

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