KR20010000585A - AirWatch System - Google Patents

Abstract

PURPOSE: An air watch system is provided to carry out a real time analysis of a contributive concentration of surrounding areas considering a discharging amount of pollutive substances at the present time by inputting exhaust gas data in real-time and recognize diffusion type of the pollutive substances in real-time according to the whether at the present time by inputting whether data around a chimney in real time. CONSTITUTION: An air watch system includes a tele metering system(1) mounted in a chimney for measuring exhaust gas data such as dust, O2, CO, NOx, and SOx, a flow ratio of the exhaust gas and a temperature of the exhaust gas to real-time transmit to an air master by a predetermined time period, a whether tower(2) mounted around the chimney for real-time transmitting whether data such as an insolation degree, the direction of the wind, atmospheric temperature, humidity and the atmospheric pressure to the air master, and the air master(3) as an atmosphere diffusion software.

Description

[0001] AirWatch System [

The present invention relates to an 'Air Watch System' which is a comprehensive management system for real-time air discharge facilities that takes in chimney discharge pollutant data and weather data in real time and predicts the influence of current pollutant diffusion.

The existing facility management system in the atmosphere sector simply measures the concentration of the pollutants emitted from the chimney in real time and stores it in the central control center, and when the concentration of the pollutant in the chimney exceeds the emission limit, It was possible to record the concentration of pollutants emitted from each chimney, but it was not possible to predict the effect of pollutants discharged from the chimney on the surrounding area by diffusion in the atmosphere. In addition, since the meteorological data used in the atmospheric diffusion modeling is processed by using the data obtained from the meteorological office, it is technically difficult to input the real-time weather data. In the strict sense, There is a limit to reflect weather data. In other words, until the invention of the airwatch system, there was no 'real-time air discharge facility comprehensive management system' that manages the effect of discharged pollutants on the surrounding area in real time.

Therefore, the present invention is to develop an air watch system that incorporates existing independent TMS into air master, which is an atmospheric diffusion software, and incorporates meteorological data of a meteorological tower that can reflect real-time weather data will be. In other words, it is possible to predict and analyze the pollutant contribution concentration in the vicinity of the chimney as a result of inputting the emission gas data and the weather data to the air diffusion model in real time, The task is to establish a comprehensive management system.

1 is a conceptual diagram of an airwatch system.

Figure 2 is a telemetry system of a typical chimney.

3 is a general vapor phase tower.

4 is a configuration diagram of the airwatch system.

The object of the present invention is to construct a scientific air environment system by combining pollutant data and meteorological data provided in real time with Air Master which is an air diffusion software.

The airwatch system according to the present invention includes a telemetering system installed on a chimney and measuring exhaust gas data and transmitting the measurement data to an air master; A meteorological tower installed near the chimney and transmitting the weather data to the air master; And air master, which is atmospheric diffusion software.

In the chimney, gas containing pollutants is discharged. According to the Air Quality Preservation Act, the amount of exhaust gas emitted from the stacks is regulated by applying the emission allowance standard. By the method of measuring the exhaust gas amount, the measurement person rides directly on the chimney until 1996 and puts the sensor into the measurement hole, It had to be measured. However, since the emission characteristics of the exhaust gas are dangerous and troublesome, the automatic sensor has been installed directly in the chimney from 1996 and the data on the characteristics of the exhaust gas obtained from the sensor has been transmitted to the central control center. A Tele Metering System (TMS) (1 in Fig. 1).

Generally, the emission characteristics of the telemetry system (TMS) installed on the chimney are as follows: dust; O2; C0; N0x; , SOx; Exhaust gas flow rate; Exhaust gas temperature, and the like. Data on the flue gas emission characteristics are transmitted in real time in units of 5 minutes as an exhaust gas input data to the air master (3 in Fig. 1).

2, a telemetry system (TMS) installed in a chimney generally generates an inherent signal (RS485 communication) from the oxygen sensor 12 and the oxygen sensor 12 for measuring the exhaust gas and oxygen concentration of the chimney 11, And a dust sensor 14 for measuring the concentration of contaminants in the exhaust gas of the stack 11 and a dust sensor 14 for measuring the concentration value of the exhaust gas, A sulfur measurement sensor 16 for measuring the sulfur oxides of the flue 11 exhaust gas and a sulfur content measuring sensor 16 for measuring the sulfur content of the flue gas 11, A sulfur oxide measuring device 17 for receiving a unique signal (RS485 communication standard) from the sensor 14 and amplifying and amplifying the amplified signal to analyze the detected value, a nitrogen oxide measuring sensor 18 for measuring nitrogen oxide of the exhaust gas of the stack 11, From the nitrogen oxide measurement sensor 18, an inherent signal (RS485 communication A carbon monoxide measuring sensor 20 for measuring carbon monoxide in the exhaust gas of the stack 11 and a carbon monoxide sensor 20 for measuring the carbon monoxide concentration in the exhaust gas from the carbon monoxide measuring sensor 20, A flow rate sensor 22 for measuring the flow rate of the exhaust gas of the stack 11 and a flow rate sensor 22 for measuring the flow rate of the natural gas from the flow sensor 22, A temperature sensor 24 for measuring the temperature of the exhaust gas of the chimney 11 and a temperature sensor 24 for measuring the temperature of the chimney 11 from the temperature sensor 24, A temperature measuring device 25 that receives a signal (RS485 communication standard) and amplifies and amplifies the detected signal to analyze the detected value, an oxygen measuring device 13; A dust measuring device 15; A sulfur oxides measuring device 17; A nitrogen oxide measuring device 19; A carbon monoxide measuring device 21; A flow rate measuring device 23; And a data logger 26 for collecting the output values of the temperature measuring device 25 and transferring them to a remote location via the modem 27. [

The meteorological data are measured by installing a meteorological tower (② in Fig. 1) around the chimney. The meteorological data measured in the meteorological tower include solar radiation; Wind direction; Wind speed; Temperatures; Humidity; And pressure. The data are transmitted to the airmaster in real time.

As shown in Fig. 3, the gas turbine tower installed in general has a radiation amount sensor 28 for measuring the radiation amount in the atmosphere, and an inherent signal (RS485 communication standard) from the radiation amount sensor 28, A wind direction measurement device 31 for receiving an intrinsic signal (RS485 communication standard) from the wind direction sensor 30 and the wind direction sensor 30 to amplify and amplify the detected signal and analyze the detected value, An air speed measuring device 33 for receiving an intrinsic signal (RS485 communication standard) from the wind speed sensor 32 and the wind speed sensor 32 for measuring the wind speed in the air and amplifying and amplifying the detected signal to analyze the detected value, A temperature and humidity measurement device 35 for receiving an intrinsic signal (RS485 communication standard) from the temperature / humidity sensor 34 and the temperature / humidity sensor 34 for measuring and amplifying and analyzing the detected value, and an air / And an air pressure sensor 36, An air pressure measuring device 37 and an irradiation amount measuring device 29 for analyzing the detected value by amplifying and amplifying the received signal; A wind direction measuring device (31); A wind speed measuring device 33; A temperature and humidity measuring device (35); And a data logger 38 for collecting the output values of the barometric pressure measuring device 37 and transmitting them to a remote place via the modem 39. [

The chimney measurement data transmitted to the collector / analyzer 40 via the modem 27 connected to the chimney as shown in FIG. 4 is transmitted to the collector / analyzer 40 via the modem 39 connected from the weather tower. ) Stores the data; Controls the buffer area (Buffer Area); Data analysis; The data is inputted to the central control room through the collator / neuralizer 40 having the format checking function, and then the data error is corrected through the error handler 41. The data that has undergone error correction in the collator / neuralizer 40 passes through a transformer 42 that processes the data in the form of a data for predicting surrounding contribution, Processed. The processed data is stored in the primary database 44, which the user visually verifies through the data viewer 43; Can be inspected. The data stored in the primary database 44 is input to the air master 45 and used as real-time input data for air diffusion modeling.

The air master 45 uses the pollutant emission data transmitted from the modem 27 of the telemetry system (TMS) 5 minutes before as a source of the input data of the modeling and transmits the pollutant emission data transmitted from the modem 39 of the meteorological tower 5 The weather data was processed using the collector / neuriser 40 and the transformer 42, and then the short-term model and the long-term model were performed to obtain 2.5 km × 2.5 km; 5.0 km × 5.0 km; To map the 'iso-concentration curve' using the principle of connecting the points having the same concentration in a straight line on the electronic map of the 10.0km × 10.0km area, the user can analyze the contribution of the pollutants to the surrounding area Data. The output data provided as a result of the modeling is stored in the secondary database 47, and the user can visually confirm the result through the result viewer 46. In addition, the user can perform the function of outputting the result of modeling in the form of a report (48) if desired. In addition, as a result of the real - time diffusion modeling, if the contribution concentration in the vicinity of the chimney exceeds the atmospheric environment standard, the warning function can be performed to help the proper working conditions of the workplace and the efficiency setting of the prevention facilities.

The air watch system according to the present invention can achieve the following effects.

Since the emission data is input to the model in real time, contribution concentration analysis of the surrounding area can be made considering the pollutant emission amount of the present time.

Since the meteorological data around the chimney is input to the model in real time, it is possible to grasp the spreading pattern of pollutants according to the current time weather and reflect the weather in the vicinity of the chimney so that the local weather can be reflected in the contribution concentration analysis.

In the case of a satin area or a chimney-dense area, the contribution of the chimney to the pollution degree at a specific point can be quickly ascertained.

By analyzing the pollutant contribution concentration performed in real time, it is possible to predict the pollutant exposures around the chimney so that the residents around the chimney can secure the environmental safety.

Since each chimney is equipped with a weather tower, there is an additional advantage of obtaining local weather data for the area where the airwatch system is installed. However, if the chimneys are concentrated in the industrial area, the weather tower may be installed at the representative point of the local weather.

Airwatch systems, including TMS, can contribute to the establishment of a preliminary infrastructures prior to the introduction of the total volume regulation and emission trading system, when the necessity of introduction of the total pollutant management plan is emerging.

The Airwatch system will also be used to assess the impact of odor problems at the Sihwa Industrial Complex or Banwol Industrial Complex, where recent complaints are being raised.

Claims (3)

The Air Watch System (Air Watch System), which is a comprehensive management system for real-time air discharge facilities composed of an air master interlocked with a remote measurement system (TMS) installed on a chimney and an air master interlocked with a weather tower installed around the earth, 3) from the chimney inputted from the chimney in real time every 5 minutes through the connected modem (27 in FIG. 3) and the modem (39 in FIG. 3) connected from the weather tower with the chimney measurement data transmitted to the collector / A method of realizing the air pollutant contribution concentration in the vicinity of the chimney as a result of performing the air master by the weather measurement data transmitted to the collector / enerizer (36 in Fig. 3) on the window screen Real-time plant operation management function that immediately improves the alarm function and the operating conditions of the plant when the contribution concentration in paragraph 2 exceeds the environmental standard