用于吸收气体的水的工业生产

Ihar Yelkin, Edward Reszke, Grzegorz Binkiewicz, G. Schroeder
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引用次数: 1

摘要

本文提出了一种流动等离子体反应器,通过随机共振放大等离子体放电时产生的电磁噪声对水中选定化学物质的振动,可以改变水/水溶液的性质。介绍了等离子体反应器处理前后超纯水、自来水和波兰贝斯科(Besko)取水水质的主要参数,并进行了比较。此外,采用17O NMR(全宽半最大值)和电喷雾电离质谱(ESI MS)方法测定了未经处理和等离子体处理的水在物理化学参数上的差异。经等离子体处理的水与未经处理的水样相比,其气体吸收特性随温度和压力的变化有很大的不同,本文报告了CO2、氧气和乙炔的示例性数据。等离子体处理后的水的气体吸收性能得到改善,这使得它在工业过程中具有吸引力。值得指出的是,新反应器处理上述体积流量的水量大(4000 l/h),能耗低(20 MJ/h)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Industrial Production of Water Dedicated to Absorption of Gases
The paper presents a flow plasma reactor permitting modification of the properties of water/aqueous solutions by stochastic resonance amplification of vibrations of selected chemical species in water with electromagnetic noise generated during a plasma discharge. The main parameters characterizing the quality for super-pure water, tap water and water from the intake in Besko (Poland) before and after the process in the plasma reactor were presented for comparison. In addition, the 17O NMR (the full width at half maximum) and electrospray ionization mass spectrometry (ESI MS) methods were used to determine differences in physicochemical parameters between the untreated and plasma-treated water. It has been established that the water subjected to plasma treatment shows much different gas absorption properties than the untreated water samples, as a function of temperature and pressure, in this paper we report exemplary data for CO2, oxygen and acetylene. The improved gas absorption properties of the plasma-treated water make it attractive for the use in industrial processes. It is worth pointing to a great capacity of the new reactor (4000 l/h), and low energy consumption (20 MJ/h) for the treatment of the above mentioned volume flow rate of water.
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