KR20010106300A - Water Pollutant detector - Google Patents

Abstract

The invention concerns a stack of layers reflecting thermal radiation for transparent substrates comprising at least a silver functional layer and on the two faces thereof antiglare layers formed by one or several metallic compounds. The antiglare layers under the silver layer comprises a top partial layer of zinc oxide adjacent to the silver layer and a partial additional beneath the zinc oxide layer, formed by aluminium nitride, under internal tractive stresses. By means of the AlN layer under tractive stresses, the internal compressive stresses present in the ZnO layer can be compensated.

Description

Water Pollutant Detector

The present invention is a technology that detects a company that has discharged contaminants into a pipe into a river or the sea from a remote department such as an environmental department or a river management agency of each local government by a remote monitoring sensor. Is to catch illegal pollutant dischargers. Since most of the existing crackdown methods are based on the experience of crackdowns, they are a system that detects unauthorized discharge companies. Therefore, scientific and systematic management is difficult. . For example, after identifying the contaminant of the first discoverer, report it to the relevant institution, inspect the officials on site, open the manhole cover from the inlet near the contaminant detection site, and inspect it to find out which company's pipe was leaked. This is the situation. Therefore, as well as the excessive expenditure of physical and human costs, and if it is recognized after the time of the pollution spill in reality, it is difficult to speed up without evidence that the illegal dischargers can admit themselves. This is a problem that has emerged as a big problem from the point of view of environmental pollution of national land resources, beyond the economic aspect of the national budget.

The present invention computerized pipeline tracking technology using a remote monitoring sensor and GIS (geographic information system) to solve the above problems and computerized pollution source DB of the company located in the area to detect illegal discharge companies by radius search from the polluted area The purpose is to.

In order to implement this, two technical problems must be solved. First, when tracing the pipeline from the point of occurrence of pollution accident by the remote monitoring sensor, the flow direction recognition technology inside the pipe and the traceback algorithm that can trace back the flow should be developed.

Second, GIS technology should be developed to enable GIS location search function by AND and OR methods of computerized DB such as pollutants, wastes, toxic substances, and raw materials used by companies located in the industrial area.

Solving the above technical challenges will reduce the national budget required to detect illegal pollutant dischargers, as well as scientifically address environmental pollution issues that are becoming a global issue.

1 is a hardware configuration diagram of a system of a sewage and rainwater station reverse tracking system using a remote monitoring sensor.

Figure 2 is a diagram explaining the hardware configuration of the system operation room

1 is a flowchart of a system for configuring a pollution detection alarm (tracking process for each task) of a general operation office

2 is a flow chart representing the tracking process by the pipeline

3 is a diagram illustrating a process of double searching a GIS search and a company DB by searching a radius of a pollutant;

Hereinafter, described in detail by the accompanying drawings as follows.

1 is a flowchart illustrating the configuration and tracking process of the present system, and it can be seen that the technology is one step ahead of the technology disclosed so far. The main point in implementing the system as shown in FIG. 1 was the development of a pipeline tracking system in conjunction with a remote monitoring sensor, an algorithm description for the technique is shown in FIG. 2, and FIG.

As described above, the present invention operates a scientific pollution tracking system (linked with a remote monitoring sensor and a GIS), which is a step further than the control method based on the experience of the existing control agent, which reduces national budget as well as permits unauthorized discharge of pollutants. In addition to creating a pleasant urban environment, it can generate synergistic effects to eradicate deepening of environmental pollution in local communities.

Claims (1)

Applying automatic flow direction recognition function and all algorithms and systems that trace back the flow in all pipelines such as phase, error and rainwater. Applying a monitoring sensor to a stream or sea inlet such as sewage, sewage, rainwater pipe, etc. Steps to apply pipeline tracking system using GIS