CAJ | 학술논문

光卤石可以采用盐析的方法生产，即在光卤石饱和液中加入老卤或水氯镁石使光卤石析出。本文选择 KCl–MgCl2–H2O体系，对老卤和水氯镁石盐析光卤石的相关热力学和结晶规律进行研究。文中使用了盐析结晶和兑卤结晶两个概念，并将实际的光卤石盐析生产过程分为直接反应、兑卤结晶、盐析结晶以及由这些基本过程叠加而成的连续结晶过程。热力学研究表明：采用盐析结晶，钾盐的总回收率可达90%以上，而兑卤结晶不足56%。盐析结晶对光卤石的饱和度远大于兑卤结晶的过饱和度，而这种饱和度可通过分步进料或连续进料方式得到减小。结晶动力学研究考虑了兑卤加料速率、盐析加料方式、叠加操作周期等因素对光卤石粒度及其分布规律的影响。在连续结晶中，盐析过程对粒度增长的作用大于兑卤过程的作用，通过4个周期的叠加操作，光卤石的平均粒度可达到300,μm以上。
광서석가이채용염석적방법생산，즉재광서석포화액중가입로서혹수록미석사광서석석출。본문선택 KCl–MgCl2–H2O체계，대로서화수록미석염석광서석적상관열역학화결정규률진행연구。문중사용료염석결정화태서결정량개개념，병장실제적광서석염석생산과정분위직접반응、태서결정、염석결정이급유저사기본과정첩가이성적련속결정과정。열역학연구표명：채용염석결정，갑염적총회수솔가체90%이상，이태서결정불족56%。염석결정대광서석적포화도원대우태서결정적과포화도，이저충포화도가통과분보진료혹련속진료방식득도감소。결정동역학연구고필료태서가료속솔、염석가료방식、첩가조작주기등인소대광서석립도급기분포규률적영향。재련속결정중，염석과정대립도증장적작용대우태서과정적작용，통과4개주기적첩가조작，광서석적평균립도가체도300,μm이상。
Carnallite could be produced by salt-out method such as mixing bischofite or bittern with carnallite saturated brine. In this research,the isothermal thermodynamics and crystallization behavior of carnallite salt-out by adding bischofite or bittern to the potassium contained brine were theoretically and experimentally studied on the basis of ternary system KCl-MgCl2-H2O at 25,℃. The terms of‘salt-out crystallization’ and‘mix-brine crystallization’ were employed,and the real indus-trial process of carnallite salt-out was considered as including three individual processes of instant reaction,mix-brine crys-tallization,salt-out crystallization,and a continuous process. The thermodynamic results show that over 90%of potassium could be recovered in the salt-out process,but less than 56%in the mix-brine process. The solubility index for carnallite in salt-out process is much higher than that in the mix-brine process,but it can be greatly reduced by multi-steps or continuous feeding methods. The particle size and distribution of carnallite in the crystallization process were studied by considering the influence of feed rate in the mix-brine process,feed method in salt-out process,and cycle times in continuous process.The results show that the contribution of salt-out process to the carnallite crystal growth is greater than that of the mix-brine proc-ess. The partical size of carnallite could easily get to 0.3 mm by 4 times’ cycle crystallization.