313.15 K下三元体系KH2PO4-(NH2)2CO-H2O相平衡研究
收稿日期: 2022-04-18
网络出版日期: 2023-01-17
基金资助
国家自然科学基金项目(21868010);贵州省科技计划项目(黔科合平台人才[2018]5781号)
Phase equilibria of ternary system of KH2PO4-(NH2)2CO-H2O at 313.15 K
Received date: 2022-04-18
Online published: 2023-01-17
采用等温溶解平衡法研究了三元体系KH2PO4-(NH2)2CO-H2O在313.15 K下的溶解度数据,根据溶解度数据绘制了等温相图,采用湿渣法和X射线衍射法对平衡固相的组成进行了分析。结果表明三元体系KH2PO4-(NH2)2CO-H2O为简单共饱和型体系,相图中有1个共饱和点、2条单变量曲线、3个结晶区;采用Wilson和NRTL模型关联该体系的溶解度数据,关联计算值与实验值基本吻合。其中Wilson模型的相对平均偏差(RAD)和均方根差(RMSD)分别为3.34%、0.17%;NRTL模型的RAD和RMSD分别为10.53%、0.38%。对比三元体系KH2PO4-(NH2)2CO-H2O在多个温度下相平衡的结晶区域,发现在中、低温阶段降低温度有利于尿素[(NH2)2CO]的结晶,而不利于磷酸二氢钾(KH2PO4)的结晶;在高温阶段KH2PO4对(NH2)2CO的溶解会产生抑制作用。为后续四元体系相平衡研究及冷却结晶生产多组分水溶肥的研究提供了理论支撑。
邓文清 , 朱静 , 樊小娟 , 陈艳 , 李天祥 . 313.15 K下三元体系KH2PO4-(NH2)2CO-H2O相平衡研究[J]. 无机盐工业, 2023 , 55(1) : 100 -105 . DOI: 10.19964/j.issn.1006-4990.2022-0211
The solubility data of ternary system of KH2PO4-(NH2)2CO-H2O at 313.15 K was determined by isothermal solubility equilibrium method,the isothermal phase diagram was drawn according to solubility data,the composition of equilibrium solid phase was analyzed by wet slag method and X-ray diffraction method.The results showed that the ternary system of KH2PO4-(NH2)2CO-H2O was a simple co-saturation system with one co-saturation point,two univariate curves and three crystal regions in the phase diagram.Wilson and NRTL models were used to correlate the solubility data of the system,and the correlation values were in good agreement with the experimental values.The relative mean deviation(RAD) and root mean square deviation(RMSD) of Wilson model were 3.34% and 0.17% respectively,and RAD and RMSD of NRTL model were 10.53% and 0.38%,respectively.By comparing the phase equilibrium crystallization regions of ternary system of KH2PO4-(NH2)2CO-H2O at multiple temperatures,it was found that lowering the temperature was beneficial to the crystallization of(NH2)2CO,but unfavorable to the crystallization of KH2PO4 at medium and low temperature stages.KH2PO4 inhibitsed the dissolution of(NH2)2CO at high temperature.It provided a theoretical support for the subsequent research on phase equilibrium of quaternary system and the production of multi-component water-soluble fertilizer by cooling crystallization.
Key words: phase equilibrium; solubility; urea; KH2PO4; thermodynamic model
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