Four-parameter electromagnetic method for determining the parameters of brewery effluents

Q3 Engineering

Journal of Achievements in Materials and Manufacturing Engineering Pub Date : 2022-08-01 DOI:10.5604/01.3001.0016.1405

V. Sebko, Y. Pyrozhenko, N. Zashchepkina, V. Zdorenko, O. Markina

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Markina","doi":"10.5604/01.3001.0016.1405","DOIUrl":null,"url":null,"abstract":"of the article is to study a four-parameter electromagnetic method for joint measurements of electrical resistivity k, relative permittivity εr, temperature t and density ρ of samples of acidic, alkaline and average effluents from a microbrewery based on a magnetic flux probe (MFP), which considers the influence of informative parameters of beer effluents on the components of the amplitude and phase signals of a multiparameter device.\n\nThe implementation of the four-parameter method is carried out on the basis of the dependences G1 = f (A1) and G2 = f (A2) at two frequencies of the electromagnetic field f0 and f1 for acid, alkaline and average effluent and allows you to jointly determine the four parameters of effluent samples with the same converter in the same control area. The proposed method makes it possible to improve the accuracy of identifying effluent samples since the obtained multiparameter information makes it possible to determine the nature and properties of effluent samples using only one transducer with certain physical characteristics. The research results lead to the expansion of the technical capabilities of electromagnetic measurement methods, as well as to an increase in the metrological characteristics of electromagnetic transducers and an increase in the accuracy of measuring the parameters of effluent samples compared to reference methods and measuring instruments. Thus, the implementation of this approach contributes to the prediction and prevention of the reasons for the deviation of beer effluent samples from the specified indicators of environmental safety.\n\nThe universal conversion functions MFP have been established, connecting the amplitude and phase components of the converter signals with the parameters k, εr, t and ρ of acidic, alkaline and average effluents. Based on the universal transformation functions G1 = f (A1) and G2 = f (A2), a four-parameter electromagnetic method for joint measurements of electrical resistivity k, relative permittivity εr, temperature t and density ρ of acidic, alkaline, and average effluents from breweries has been developed. When conducting research at two close frequencies of the electromagnetic field f0 = 20.3 MHz and f1 = 22 MHz, algorithms were obtained for measuring and calculating procedures for determining k, εr, t and ρ for samples of acidic, alkaline and average effluents from the brewing industry.\n\nResearch perspectives consist in the creation of automated systems for multiparameter measuring control of the physicochemical characteristics of acidic and alkaline effluent from food and processing industries based on the immersed electromagnetic transducer. Based on the data obtained using informative methods to measure the parameters of effluent samples, an integrated method for treating beer effluents of various compositions will be proposed. 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引用次数: 0

Abstract

of the article is to study a four-parameter electromagnetic method for joint measurements of electrical resistivity k, relative permittivity εr, temperature t and density ρ of samples of acidic, alkaline and average effluents from a microbrewery based on a magnetic flux probe (MFP), which considers the influence of informative parameters of beer effluents on the components of the amplitude and phase signals of a multiparameter device. The implementation of the four-parameter method is carried out on the basis of the dependences G1 = f (A1) and G2 = f (A2) at two frequencies of the electromagnetic field f0 and f1 for acid, alkaline and average effluent and allows you to jointly determine the four parameters of effluent samples with the same converter in the same control area. The proposed method makes it possible to improve the accuracy of identifying effluent samples since the obtained multiparameter information makes it possible to determine the nature and properties of effluent samples using only one transducer with certain physical characteristics. The research results lead to the expansion of the technical capabilities of electromagnetic measurement methods, as well as to an increase in the metrological characteristics of electromagnetic transducers and an increase in the accuracy of measuring the parameters of effluent samples compared to reference methods and measuring instruments. Thus, the implementation of this approach contributes to the prediction and prevention of the reasons for the deviation of beer effluent samples from the specified indicators of environmental safety. The universal conversion functions MFP have been established, connecting the amplitude and phase components of the converter signals with the parameters k, εr, t and ρ of acidic, alkaline and average effluents. Based on the universal transformation functions G1 = f (A1) and G2 = f (A2), a four-parameter electromagnetic method for joint measurements of electrical resistivity k, relative permittivity εr, temperature t and density ρ of acidic, alkaline, and average effluents from breweries has been developed. When conducting research at two close frequencies of the electromagnetic field f0 = 20.3 MHz and f1 = 22 MHz, algorithms were obtained for measuring and calculating procedures for determining k, εr, t and ρ for samples of acidic, alkaline and average effluents from the brewing industry. Research perspectives consist in the creation of automated systems for multiparameter measuring control of the physicochemical characteristics of acidic and alkaline effluent from food and processing industries based on the immersed electromagnetic transducer. Based on the data obtained using informative methods to measure the parameters of effluent samples, an integrated method for treating beer effluents of various compositions will be proposed. At the same time, the scheme of the integrated treatment method should include a filter that provides the introduction of a magnetic fluid and a separation device that allows us to remove a fraction, including pollution in itself. Is that the proposed four-parameter electromagnetic method makes it possible to determine to what composition the controlled samples of wastewater should be attributed (acidic or alkaline). It, in turn, makes it possible to choose a rational method for treating beer effluents and to prevent the reasons for the deviation of effluent samples from the environmental safety indicators set by the standards. of the article is the research related to the expansion of the functional and technical capabilities of the electromagnetic two-frequency transducer MFP through the implementation of a four-parameter electromagnetic method of joint measurements of electrical resistivity k, relative permittivity εr, temperature t and density ρ of acidic, alkaline and average effluents from breweries. The universal transformation functions G1 = f (A1) and G2 = f (A2) found in the work at two close magnetic field frequencies, f0 = 20.3 MHz and f1 = 22 MHz, make it possible to control four physicochemical parameters of acidic, alkaline and average wastewater at the same time by the same MFP. An algorithm has been developed for determining the signal components of a two-frequency thermal MFP, the ranges of which correspond to the ranges of changes in electrical resistivity k, relative permittivity εr, temperature t and density ρ of acidic, alkaline, and average brewery effluents. The basic relations that describe the two-frequency four-parameter electromagnetic method of joint measurements of the physicochemical parameters of acidic, alkaline and averaged beer effluents have been obtained.

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测定啤酒废水参数的四参数电磁法

本文研究了一种基于磁通探头(MFP)的四参数电磁法联合测量某微型啤酒厂酸性、碱性和平均流出液样品的电阻率k、相对介电常数εr、温度t和密度ρ的方法，该方法考虑了啤酒流出液的信息参数对多参数装置的幅相信号分量的影响。四参数法的实现是基于酸性、碱性和平均出水在电磁场f0和f1两个频率下G1 = f (A1)和G2 = f (A2)的依赖关系进行的，可以在同一控制区域内使用同一转换器共同确定出水样品的四个参数。所提出的方法可以提高识别流出液样品的准确性，因为所获得的多参数信息使得仅使用具有某些物理特性的一个换能器就可以确定流出液样品的性质和特性。研究成果拓展了电磁测量方法的技术能力，提高了电磁换能器的计量特性，与参考方法和测量仪器相比，提高了对出水样品参数的测量精度。因此，该方法的实施有助于预测和预防啤酒废水样品偏离环境安全指标的原因。建立了通用转换函数MFP，将变换器信号的振幅和相位分量与酸性、碱性和平均废水的k、εr、t和ρ参数联系起来。基于通用变换函数G1 = f (A1)和G2 = f (A2)，提出了一种联合测量酒厂酸性、碱性和平均废水电阻率k、相对介电常数εr、温度t和密度ρ的四参数电磁法。在f0 = 20.3 MHz和f1 = 22 MHz两个相近的电磁场频率下进行研究，得到了测定酿酒工业酸性、碱性和平均废水样品的k、εr、t和ρ的测量和计算程序算法。研究方向包括基于浸入式电磁换能器的食品和加工工业酸性和碱性废水理化特性多参数测量控制自动化系统的创建。基于信息性方法测量出水样品参数所获得的数据，提出了一种综合处理不同成分啤酒出水的方法。同时，综合处理方法的方案应该包括一个过滤器，它提供了磁性流体的引入和一个分离装置，使我们能够去除一部分，包括本身的污染。所提出的四参数电磁方法使确定废水受控样品的成分(酸性或碱性)成为可能。从而可以选择合理的啤酒废水处理方法，防止出水样品偏离标准规定的环境安全指标的原因。本文的研究是通过实施四参数电磁法联合测量酒厂酸性、碱性和平均废水的电阻率k、相对介电常数εr、温度t和密度ρ，来扩展电磁双频换能器MFP的功能和技术能力。在f0 = 20.3 MHz和f1 = 22 MHz两个相近磁场频率下的工作中发现了通用变换函数G1 = f (A1)和G2 = f (A2)，使得用相同的MFP可以同时控制酸性、碱性和平均废水的4个理化参数。本文提出了一种确定双频热MFP信号分量的算法，其范围对应于酸性、碱性和普通啤酒废水的电阻率k、相对介电常数εr、温度t和密度ρ的变化范围。得到了双频四参数电磁法联合测量酸性、碱性和平均啤酒废水理化参数的基本关系。

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

Journal of Achievements in Materials and Manufacturing Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

2.10

自引率

0.00%

发文量

期刊介绍： The Journal of Achievements in Materials and Manufacturing Engineering has been published by the Association for Computational Materials Science and Surface Engineering in collaboration with the World Academy of Materials and Manufacturing Engineering WAMME and the Section Metallic Materials of the Committee of Materials Science of the Polish Academy of Sciences as a monthly. It has 12 points which was received during the evaluation by the Ministry of Science and Higher Education journals and ICV 2017:100 on the ICI Journals Master list announced by the Index Copernicus. It is a continuation of "Proceedings on Achievements in Mechanical and Materials Engineering" published in 1992-2005. Scope: Materials[...] Properties[...] Methodology of Research[...] Analysis and Modelling[...] Manufacturing and Processingv Biomedical and Dental Engineering and Materials[...] Cleaner Production[...] Industrial Mangement and Organisation [...] Education and Research Trends[...]