KR101774269B1 - System for monitoring chimney environment measurement instruments of the cloud base - Google Patents

Abstract

The present invention relates to a system for monitoring a chimney environment measurement device based on a cloud, which stores raw data of measurement values of various sensors for at least one measurement device in the cloud server, manages the raw data, and monitors errors and occurrences of manipulation. The system for monitoring a harmful environment of a chimney, including at least one measuring device, comprises: at least one measurement device for measuring contaminants included in exhaust gas of the chimney; a plurality of raw data transmission devices which collect raw data of measurement values of each sensor which are measured by various sensors of the measurement device in real time and independently transmit the raw data to the cloud server through a communications network; and the cloud server which collects the raw data of measurement values of each sensor transmitted by each raw data transmission device through the communications network, stores and manages the raw data for use as inter-device data or big data computing data, converts a measured concentration of each contaminant, included in the exhaust gas of the chimney in which the measurement device is installed, into an optimal value by using the raw data of measurement values of each sensor, and stores and manages the optimal value. The possibility of manipulating the measurement device is basically prevented by enabling the raw data of values of various sensors of the measurement device to be utilized on the cloud server. Accordingly, reliability is increased, and a measured concentration can be converted into an optimal value even when a failure occurs to some components of the measurement device.

Description

[0001] The present invention relates to a cloud-based chimney environment measuring instrument monitoring system,

The present invention relates to a monitoring system for a chimney environment measuring instrument based on a cloud, and more particularly, to a system for monitoring a chimney environment measuring instrument using raw data of various sensor measurement values for at least one measuring instrument, ) Can be stored and managed in the cloud server, so that the raw data of various sensor values of each measuring device can be utilized as data for inter-device or big data operation, so that the operation of the measuring device can be originally blocked, Based chimney environment measurement device that can easily detect the error of the measurement indication value of the device by converting the measurement concentration to the optimum value in the cloud server even if a failure occurs in some parts of the measurement device Surveillance system.

Generally, the chimney is a structure for discharging the gas generated from the combustion of the fuel. Since the exhaust gas from the chimney contains various pollutants, the Air Quality Preservation Act applies the emission limit to the gas discharged from the chimney .

Since it is very dangerous for the person to directly measure the exhaust gas of the chimney for such a regulation, the concentration of the air pollutant contained in the exhaust gas emitted from the chimney is measured at all times by installing a measuring device inside the chimney. A chimney remote monitoring system is being operated that allows data to be transmitted online to a central control center, enabling the central control center to monitor the pollutant emission status at all times.

However, in such a chimney remote monitoring system, the communication from the measuring device to the data collector is performed in an analog manner, and the communication from the data collector to the central control station is performed in a digital manner, , Two-way communication from the data collector to the central control station is possible.

Typically, chimneys are operated at various sites, while central control stations regulate the situation at work sites. However, even if the measured value of the measuring instrument is abnormal or the measured value is supposed to be manipulated at the workplace, there is no alternative but to visit and check the workplace directly at the central control center. This is because the measurement value measured by the sensor is transmitted to the central control center through unidirectional communication, so the central control center has difficulty in securing the reliability of the transmitted measurement values.

In this connection, Korean Patent Registration No. 10-1199924 (Registered on November 5, 2012, hereinafter abbreviated as "Patent Document 1") discloses a technique relating to a chimney remote monitoring system for monitoring gas discharged from a chimney by applying communication Is known.

According to Patent Document 1, in the chimney remote monitoring system for monitoring the exhaust gas of the chimney, the reliability of the measured value measured by the measuring device is secured and the operation state of the measuring device can be confirmed.

In the conventional technology as described above, the measuring instrument has various sensors such as temperature, pressure, and humidity, collects all the physical factors using the optical signal, performs concentration conversion, and displays the integrated management and remote control of the system. The data transmitted by the risk measuring device to the central control center through the data collector is the concentration conversion value and status information of the measuring device and the central control sends the control information to the measuring device through the data collector.

Where the measuring instrument displays the measurement result by relative comparison with the standard signal as the difference between the measurement method and the physical signal (length or volume change, electrical change, weight change, time change). For example, in the case of an optical type gas measuring instrument, a light source in a specific region is irradiated to a sample to be measured, and the optical signal before irradiation, electrical signal change after irradiation, and conditions (temperature, And the concentration value is converted according to the mutual principle and outputted (displayed) on the basis of 1 atm and room temperature (25 ° C). In other words, the sensing of the temperature, humidity, etc. in the gas measuring instrument uses the ambient sensor to convert the measured value to the standard state at 1 atmospheric pressure (25 ℃).

Therefore, in the conventional measuring instrument system, the sensing values by the internal sensors (pressure, temperature, humidity) are converted into the concentration at 1 atmospheric pressure room temperature (25 ° C) and transmitted to the center (Korea Environment Industrial Complex) In transmitting the gaseous concentration conversion value and the status information of the device, the measurement value of the flue gas may be changed by operating only the internal sensor of the internal sensor or intentionally surrounding the sensor. In order to prevent verification and artificial manipulation, And transmits the encrypted change, state information, and the like to the device.

KR 10-1199924 B1 2012.11.05 Registration

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a method and apparatus for uploading raw data of various sensor measurement values to one or more measurement devices, The raw data of the various sensor values of the measuring device can be utilized as data for the measurement devices or the big data operation on the cloud server and the reliability of the system can be improved by blocking the operation possibility of the measuring device , And a cloud-based chimney environment measurement device monitoring system that enables the cloud server to easily find the error of the measurement indication of the measuring device by converting the measured concentration to the optimum value even if a failure occurs in some parts of the measuring device I would like to.

According to an aspect of the present invention, there is provided an apparatus for measuring a pollutant contained in a flue gas discharged from a chimney, converting the concentration of the pollutant into a concentration, And transmitting the data to the cloud server through a communication network, the system comprising: at least one measuring device for transmitting the measurement data to the management server of the chimney, And raw data of each sensor measurement value transmitted from each source data transmission device through a communication network is collected and managed so as to be utilized as an inter-device or large data operation data, and raw data of each sensor measurement value The measurement concentration of each pollutant contained in the exhaust gas of the chimney equipped with the measuring device And a cloud server that stores and manages the converted value to an optimum value.

According to the present invention, the pollutants contained in the flue gas are measured by various kinds of internal sensors, and the concentrations are converted and the concentration conversion value is transmitted to the management server of the central control center through the data collector together with the status signal of the apparatus. Since the raw data of internal sensor values can be uploaded to the cloud server via the communication network and stored and managed, the reliability of the measurement data can be improved by blocking the operation possibility of the measuring device and the raw data of various sensor values And can be utilized as data for inter-device or large data operation.

Further, according to the present invention, since raw data of various sensor values inside the measuring instrument are simultaneously present on a cloud server connectable through a communication network, even if a failure occurs in some parts of the measuring instrument, It is possible to provide a surveillance system that can easily find the error of the measurement instruction value of the device.

1 is a block diagram illustrating a configuration of a conventional chimney remote monitoring system based on a digital communication device.
2 is a block diagram illustrating an overall configuration of a cloud-based chimney environment measuring device monitoring system according to an embodiment of the present invention.
3 is a block diagram illustrating an overall configuration of a cloud-based chimney environment measuring device monitoring system according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the entire configuration and operation of a cloud-based chimney environment measuring apparatus monitoring system according to each embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, it should be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various equivalents and modifications may be substituted for them at the time of the present application shall.

FIG. 2 is a block diagram illustrating an overall configuration of a cloud-based chimney environment measuring device monitoring system according to an embodiment of the present invention. FIG. 3 is a block diagram illustrating a cloud- 2, an embodiment of the present invention includes a plurality of raw data transmission devices 115a-115e for collecting and transmitting various sensor measurements of the measuring device 110, And a cloud server 500. Another embodiment of the present invention, as illustrated in Figure 3, includes a plurality of raw data transmission devices (not shown) that collect and transmit various sensor measurements of the measurement device 110, (115a-115e), gateways (116a, 116b), and a cloud server (500). The present invention can be applied to a chimney environment monitoring system including a measuring device 110 for measuring various pollutants contained in the flue gas, a flow rate, and correction items such as oxygen, humidity, temperature, pressure, have.

The measuring device 110 includes a plurality of sensors 111a-111e for real-time measurement of various pollutants contained in the flue gas exhaust gas, correction factors such as flow rate, oxygen, humidity, temperature, pressure, and vibration, A signal processing unit 112 for signal processing the sensor measurement value measured in real time in a digital manner so as to digitally display and transmit the sensor measurement value in real time, a display unit 113 for displaying the sensor measurement value processed by the digital signal processing, And a transmission unit 114 for transmitting the status information and the alarm information to the data collector 210.

The various sensors 111a-111e include a humidity sensor 111a, a temperature sensor 111b, a pressure sensor 111c, a first gas measurement light sensor 111d and a second gas measurement light sensor 111e At this time, the pollutants to be measured by the measuring instrument 110 may be dust, sulfur oxides, nitrogen oxides, carbon monoxide, hydrogen chloride, ammonia, hydrogen fluoride, and the like.

Also, the measuring device 110 may be installed in each of a plurality of chimneys, and a plurality of measuring devices 110 may be used. In addition, the number of the data collector 210 corresponding to the number of the measuring instruments 110 may be used.

For reference, the measuring instrument 110 may transmit status information and alarm information of the measuring instrument 110 to a separate digital transmission device (not shown in the drawings), in addition to the sensor measurement values of the pollutants contained in the flue gas, Or may be transmitted to the cloud server 500 via a network or by a relative comparison with a standard signal as a difference between a measurement method and a physical signal (length or volume change, electrical change, weight change, time change) . For example, in the case of an optical gas measuring instrument, a light source in a specific region is irradiated to a sample to be measured, and then the optical signal before irradiation and the electrical signal after irradiation are acquired. At this time, conditions (temperature, pressure, humidity) And outputs (displays) the converted concentration value by mutual principle.

The plurality of raw data transmission apparatuses 115a to 115e are connected to the measured value output terminals of the various sensors 111a to 111e provided in the measuring apparatus 110, that is, raw data output terminals, And transmits the collected raw data to the cloud server 500 via the wired or wireless communication network. Each of the raw data transmission devices 115a-115e is connected directly to the raw data output terminals of the various sensors 111a-111e of the measuring device 110, And to collect raw data of sensor measurements directly from each sensor 111a-111e.

The cloud server 500 may be connected to each of the raw data transmission apparatuses 115a to 115e and the digital transmission apparatus via the wired or wireless communication network 400 so as to communicate with the respective source data transmission apparatuses 115a to 115e, And stores and manages the raw data in the cloud server side storage 501 so that the collected raw data can be utilized as an inter-device or big data operation data. In addition, the cloud server 500 converts the measured concentration of each pollutant contained in the exhaust gas of the chimney in which the measuring instrument 110 is installed into the optimum value, and stores it in the cloud server side storage 501 And manage. At this time, the cloud server 500 can utilize the status information and the alarm information of the measuring instrument 110 transmitted from the digital transmission apparatus when converting the measured concentration of each pollutant.

The communication between each of the raw data transmission devices 115a-115e and the cloud server 500 may be performed using a public network composed of the Internet or a public cloud infrastructure or a LAN, (WiFi) is preferable for communication using a private network (Intranet, Private Cloud Infra). If the installation space and the transmission distance are near field communication (NFC), a wireless transmission device such as Bluetooth or ZigBee and a plurality of raw data transmission devices 115a-115e can be communicatively connected The gateways 116a and 116b may be connected as shown in FIG. 3 to wirelessly transmit the raw data.

Hereinafter, the operation and effect of the monitoring system of the cloud-based chimney environment measuring instrument according to the present invention will be described.

First, in the measuring device 110 installed in each stack, a humidity sensor 111a, a temperature sensor 111b, a pressure sensor 111c, a first gas measuring light sensor 111d, and a second gas measuring light sensor 111e) are used to detect various pollutants such as dust, sulfur oxides, nitrogen oxides, carbon monoxide, hydrogen chloride, ammonia and hydrogen fluoride contained in the flue gas exhaust, and various pollutants such as flow rate and oxygen, humidity, And transmits the correction item to the signal processing unit 112 in real time.

The measurement values of the various sensors 111a-111e transmitted to the signal processing unit 112 are subjected to digital signal processing so that they can be digitally displayed and transmitted. The sensor measurement values processed by the digital signal processing are displayed to the outside by the display unit 113, The sensor measurement values processed by the digital signal are transmitted to the management server 300 of the central control center through the data collector 210 together with the status information of the apparatus and the alarm information.

On the other hand, sensor output terminals such as the humidity sensor 111a, the temperature sensor 111b, the pressure sensor 111c, the first gas measurement light sensor 111d, and the second gas measurement light sensor 111e, In a plurality of raw data transmission devices 115a-115e connected to the raw data output terminals of the respective sensors in a one-to-one correspondence manner, raw data of sensor measurement values measured in real time by the sensors 111a-111e are directly collected one- Or the cloud server 500 through the wireless communication network 400, respectively. At this time, the plurality of source data transmission devices 115a-115e transmit the raw data of sensor measurement values using a public network composed of the Internet or a public cloud infrastructure, or a private network composed of a LAN, Wi-Fi or a short distance communication method.

Thereafter, the cloud server 500 collects raw data of each sensor measurement value transmitted and uploaded from each of the raw data transmission devices 115a-115e through the wired or wireless communication network 400 and stores it in the cloud server side storage 501 And the raw data of the sensor measurement values measured by each measurement device 110 can exist also on the storage 501 of the cloud server 500 connectable via the communication network, It can also be used as a liver or big data operation. Therefore, it is possible to block the possibility of data manipulation in the field measurement device, thereby improving the reliability of the measurement data.

In addition, the cloud server 500 uses the raw data of the sensor measurement values to convert the measurement concentration of each pollutant contained in the exhaust gas of the chimney installed in the measuring device 110 into the optimal value, As shown in FIG. At this time, the cloud server 500 may refer to the status information and the alarm information of the measuring instrument 110 transmitted from the digital transmission apparatus when converting the measured concentrations of the pollutants.

Therefore, even if a failure occurs in a part of the measuring device 110, the cloud server 500 can store raw data of each sensor measurement value stored and managed in the cloud server side storage 501, The error of the measurement indication value of the device can be easily found, so that it is possible to remotely monitor the error and data manipulation of each measuring device.

According to the present invention, raw data of various sensor values inside a measuring instrument can be present on the cloud server at the same time, thereby making it possible to utilize the data as data for measurement data or for recent big data operations. In addition, it is possible to operate the cloud server which can convert the concentration of the measured gas into the optimal value even if some parts of the measuring device fail, so that the error of the measured value of the measuring device can be easily detected, The reliability of the measurement data can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

110: Measuring device 111a: Humidity sensor
111b: Temperature sensor 111c: Pressure sensor
111d: optical sensor for measuring first gas 111e: optical sensor for measuring second gas
112: signal processing unit 113: display unit
114: Transmitting unit 115a-115e:
116a, 116b: gateway 210: data collector
300: management server 400: communication network
500: Cloud server 501: Cloud server side storage

Claims (5)

A chimney environment monitoring system comprising at least one measuring device (110) for real-time measuring a correction item including pollutants and flow rate and oxygen, humidity, temperature and pressure contained in the flue gas exhaust,
The measuring device (110)
And a plurality of sensors 111a-111e for real-time measurement of various pollutants contained in the flue gas, flow rate, and correction items including oxygen, humidity, temperature, pressure, and vibration,
A plurality of raw data transmission apparatuses 110a to 110e collect raw data of sensor measurement values measured in real time by various sensors 111a to 111e of the measurement apparatus 110 and transmit the raw data to the cloud server 500 via a communication network, (115a-115e); And
The raw data of each sensor measurement value transmitted from each of the raw data transmission devices 115a to 115e through the communication network 400 is collected and used by the cloud server side And stored in the storage 501 and converted into optimum values of the concentration of each pollutant contained in the exhaust gas of the chimney in which the measuring instrument 110 is installed as raw data of each sensor measurement value, And a cloud server 500 for storing and managing the cloud server 500,
The sensors 111a-111e of the measuring instrument 110 are,
A humidity sensor 111a, a temperature sensor 111b, a pressure sensor 111c, and a first gas measurement device 111a for real-time measurement of various pollutants and flow rates and correction items including oxygen, humidity, An illumination light sensor 111d, and a second gas measurement light sensor 111e,
The raw data transmission device (115a-115e)
Are directly connected to raw data output terminals of various sensors 111a-111e of the measuring instrument 110 to respectively correspond raw data of sensor measurement values measured in real time by the sensors 111a-111e (111a-111e) of the cloud-based chimney environment measuring apparatus. delete delete 2. The method of claim 1, wherein communication between the source data transmission devices (115a-115e) and the cloud server (500)
A cloud-based chimney environment characterized by being a public network composed of the Internet, a public cloud infrastructure, or a private network composed of a LAN and a WiFi Measuring device monitoring system. 2. The method of claim 1, wherein communication between the source data transmission devices (115a-115e) and the cloud server (500)
A cloud-based chimney environment measuring device monitoring system is a communication using a wireless transmission device composed of Bluetooth or ZigBee and a gateway connecting a plurality of raw data transmission devices.

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