物理处理对水和水溶液的物理化学和生物特性的影响

E. Don, G. O. Stepanov, S. Tarasov
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摘要

目的。由压力或温度等因素引起的水的性质变化只能通过其结构变化来解释。科学家只研究各种物理刺激对水性质造成的变化,而不添加任何物质。本综述文章旨在总结有关上述过程如何影响水和水溶液的物理化学和生物特性的现有数据。结果表明,加热会降低水的可压缩性并减少空气在水中的溶解度,而冷却则会提高水的粘度。声波照射使水的结构变得粗粒化,随之而来的是空化泡内大团的数量、pH 值和温度的增加。高压会增强水的粘度、自扩散性和可压缩性。对于经过气泡处理的水,自旋-自旋和自旋-晶格弛豫时间都会发生变化。形成了活性氧物种,并提高了气体在液体中的溶解度,减少了摩擦。涡流工艺技术可提高水的导电性并降低粘度。强化振动处理和稀释过程会导致水的电导率、溶解气体浓度、超声波速度、рН、表面张力、介电常数和光谱响应发生变化。还有数据支持不同类型的溶液物理处理对生物的影响。本综述表明,水的物理处理可导致水和水溶液的物理化学和生物特性发生变化。
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The effects of physical treatment on physicochemical and biological properties of water and aqueous solutions
Objectives. Changes to the properties of water caused by factors such as pressure or temperature, can only be explained by its structural changes. Scientists study changes to the properties of water due to various physical stimuli only without the addition of any substances. Examples of stimuli are acoustic exposure, thermal exposure, pressure variation, shaking, intensive vibration treatment followed by dilutions, vortexing, bubble generation, inter alia.The aim of the present review article is to summarize the available data on how the above processes affect the physicochemical and biological properties of water and aqueous solutions.Results. It has been shown that heating makes water less compressible and decreases air solubility in water, while cooling enhances its viscosity. Acoustic exposure makes the structure of water become coarse-grained, followed by an increase the number of large clusters, pH and temperature inside a cavitation bubble. High pressure enhances the viscosity, self-diffusion, and compressibility of water. For bubble processed water, there are changes in the spin-spin and spin-lattice relaxation times. Reactive oxygen species are formed, as well as increased solubility of gases in liquids and reduced friction. Vortex process technology causes an increase of electrical conductivity of water and reduced viscosity. Intensive vibration treatment and dilution processes result in changes in electrical conductivity of water, dissolved gas concentration, ultrasonic wave velocity, рН, surface tension, dielectric constant, and spectral response. There is also data to support the biological effects of different types of physical treatment of solutions.Conclusions. This review shows that physical treatment of water can induce changes both in physicochemical and biological properties of water and aqueous solutions.
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