System Eliminating Emergency Discharges in Industrial Facilities Waste Waters Using Relative Signal Description

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION
V. Alekseev, S. I. Yuran, V. Usoltsev, D. Shulmin
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引用次数: 1

Abstract

Peak emergency discharges of harmful substances to the industrial companies waste waters that normally form coagulates over time present a serious environmental problem. These coagulates can enter natural water bodies during the wastewater discharge. Thus, detecting these coagulates in real-time is a relevant problem.To solve this problem, the authors suggest building an automated system that shall record and identify the emergency harmful substances discharges to the industrial companies waste waters caused by accidents. This system features a laser probing module which scans waste water at several wavelengths simultaneously and in real time.Emergency discharge identification is performed based on the substance transmission spectra analysis using the original description of the recorded substance spectra digital signals. The relative description on the components of the lattice function of the spectrum of emergency discharges is used, constructed using the order ratio between the components of the lattice function.The emergency discharge identification can be implemented by comparing the relative description of the emergency discharge spectrum with the reference spectra for the harmful substances that can be present at the given industrial facility, and the standards of the spectra of these substances are presented in the form of a relative description using the ratio “more”–“less”.The authors provide a flow chart for the emergency discharge elimination system, describe its operation and the functions fulfilled by its elements. The system features an emergency coagulate identification device, a processing device for the spectrum recorded that can also store the reference spectra of harmful substances, and a valve-control device for the waste water system. Due to installation of laser radiation sources along the perimeter of the pipe along which the liquid moves, simultaneous laser action on the emergency clot of harmful substances passing through the pipe is ensured. The analysis of the clot passing through the sewer pipe allows opening the valves for each of the predicted emergency clots when receiving a command from the control device and diverting the clot that has appeared to the appropriate sump. 
利用相对信号描述消除工业设施废水紧急排放的系统
工业公司的废水通常会随着时间的推移形成凝固物,有害物质的峰值紧急排放造成了严重的环境问题。这些混凝物在废水排放过程中会进入自然水体。因此,实时检测这些混凝物是一个相关的问题。为了解决这一问题,作者建议建立一个自动化系统,记录和识别工业企业因事故造成的废水中紧急排放的有害物质。该系统具有激光探测模块,可以同时实时扫描多个波长的废水。利用记录的物质光谱数字信号的原始描述,在物质透射光谱分析的基础上进行应急放电识别。利用点阵函数各分量的阶比构造了应急放电谱点阵函数各分量的相对描述。应急排放识别可以通过将应急排放光谱的相对描述与给定工业设施中可能存在的有害物质的参考光谱进行比较来实现,这些物质的光谱标准以使用比率“多”-“少”的相对描述形式表示。给出了应急排放消除系统的流程图,描述了应急排放消除系统的工作原理和各组成部分的功能。该系统具有紧急混凝识别装置、可存储有害物质参考光谱的光谱记录处理装置和废水系统的阀门控制装置。由于在液体流动的管道周长处安装了激光辐射源,保证了激光对流经管道的有害物质应急凝块的同步作用。通过分析通过下水管道的凝块,当收到控制装置的命令时,可以打开每个预测的紧急凝块的阀门,并将出现的凝块转移到适当的污水池。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
发文量
18
审稿时长
8 weeks
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