在进行火力发电厂和核电厂水处理技术计算时使用变换后的电中性方程

E.N. Bushuev
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引用次数: 0

摘要

在对火力发电厂(TPP)和核电厂(NPP)的水处理装置进行技术计算时,有必要确定处理步骤后工艺水的质量指标。主要困难在于计算弱电解质的浓度,因为弱电解质与所有形式的耗散都处于化学平衡状态。目前,对于每种加工类型,都采用简化模型或解决复杂计算问题的方法进行计算。有必要开发一种通用数学模型,以高精度计算弱电解质的浓度和各类水处理的 pH 值。为了开发该模型,作者采用了火力发电厂和核电厂化学技术过程数学建模的方法。提出了一个基于电中性转换方程的数学模型。该模型可用于确定水处理不同阶段后弱电解质(主要是水本身和碳酸)解离形式的平衡浓度。在对水处理厂进行技术计算时,所提出的模型可以更准确、更普遍地计算弱电解质的浓度,并确定各种类型水处理工艺水的 pH 值。该模型可用于确定所需的化学试剂剂量,以确保处理后的水达到所需的技术指标值(pH 值和朗格列尔指数)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using transformed equation of electroneutrality when carrying out technological calculations of water treatment at thermal power and nuclear power plants
When performing technological calculations of water treatment units for thermal power plants (TPP) and nuclear power plants (NPP), it is necessary to determine the quality indicators of process water after the processing steps. The main difficulty is to calculate the concentrations of weak electrolytes since they are in chemical equilibrium with all forms of dissipation. Currently, for each type of processing, either simplified models or methods that solve a complex computational problem are used for calculations. It is necessary to develop a universal mathematical model that allows high accuracy to calculate the concentrations of weak electrolytes and the pH value for various types of water treatment. To develop the model the authors have applied the method of mathematical modeling of chemical-technological processes at thermal power plants and nuclear power plants. A mathematical model based on the transformed equation of electrical neutrality is proposed. It can be used to determine the equilibrium concentrations of dissociation forms of weak electrolytes (primarily water itself and carbonic acid) after various stages of water treatment. The proposed model allows, when conducting technological calculations of water treatment plants, to more accurately and universally calculate the concentrations of weak electrolytes and determine the pH value in process waters for various types of water treatment. The model can be used to determine the required doses of chemical reagents to ensure the required values of technological indicators (pH and Langelier index) in treated water.
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