The Use of Multi-Probe Modulated Laser Radiation for the Identification of Substances' Clots in the Fluid Flow

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION

Devices and Methods of Measurements Pub Date : 2023-10-06 DOI:10.21122/2220-9506-2023-14-3-207-213

V. A. Alekseev, S. I. Yuran, V. P. Usoltsev, D. N. Shulmin

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Abstract

Modern tools of water supply systems monitoring at enterprises or in the housing sector use laser liquid sensing systems. In this case, as a rule, laboratory analyses of the obtained liquid samples are used, as well as spectral analysis methods when scanning the liquid with light for different wavelengths. These approaches do not allow for real-time analysis of a moving fluid flow (flow analysis). The paper considers a version for constructing of a system for online detecting and identifying emergency clots of pollutants in a liquid stream using laser radiation. The basic principles of the system construction, the block diagram of the system structure and parameters for identification of clots of substances under study flowing in the pipelines of the sewage or water treatment system at industrial enterprises are given. When constructing the system, several wavelengths of laser radiation are used, simultaneously directed to the one point of the studied clot of the studied fluid flow. Light wavelengths are determined at the stage of preparation for the study. At this initial stage of the process, optical transmission spectra of substances that are a priori possible in the studied fluid flow are analyzed. The main criterion for wavelengths choose is difference in substances optical transmission spectra at the se selected wavelengths. For the possibility of technical separation of signals at different wavelengths of the emitting radiation, the radiation fluxes are modulated. Creation of standards for identification substances in fluid flow clusters is carried out in the form of lattice functions containing the components of the substance optical transmission spectrum at certain wavelengths of laser radiation. Modulation of radiation is proposed to be carried out by controlling the pumping of each emitters of the system. The proposed system will find application in the oil and gas, processing industry, water filtration and purification systems, industrial enterprises and agricultural processing enterprises.

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多探针调制激光辐射在流体中物质凝块识别中的应用

现代供水系统监测工具在企业或在住房部门使用激光液体传感系统。在这种情况下，通常使用实验室分析获得的液体样品，以及用不同波长的光扫描液体时的光谱分析方法。这些方法不允许实时分析运动流体的流动(流动分析)。本文提出了一种利用激光辐射在线检测和识别液体流中污染物应急凝块系统的方案。给出了系统构建的基本原理、系统结构框图和用于工业企业污水或水处理系统管道中流动的研究物块识别的参数。在构建系统时，使用了几个波长的激光辐射，同时定向到研究流体流动的研究凝块的一点。光的波长是在研究准备阶段确定的。在这个过程的初始阶段，分析了在所研究的流体流动中先验可能存在的物质的透射光谱。选择波长的主要依据是所选波长处物质透射光谱的差异。为了在技术上分离发射辐射的不同波长的信号的可能性，对辐射通量进行调制。建立流体流动团簇中识别物质的标准是以晶格函数的形式进行的，晶格函数包含物质在某些波长的激光辐射下的光学传输光谱成分。提出了通过控制系统各发射源的抽运来进行辐射调制。该系统将在石油天然气、加工业、水过滤和净化系统、工业企业和农业加工企业中得到应用。

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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Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-

自引率

25.00%

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审稿时长

8 weeks