Features of isothermal crystallization of ammonium sulphate

Illia Iatsiuk, Ya. Hotskyi, Y. Korniienko, A. Stepaniuk
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Abstract

Soil fertility is rapidly decreasing due to irrational land use, erosion and soil pollution and adverse weather conditions. The use of composite granular organic-mineral fertilizers that contain mineral and organic components allows the soil fertility to be increased in the most effective and safe manner for the environment. In the production of granular composite fertilizers in a fluidized bed granulator, the process of isothermal mass crystallization is the main parameter that affects the quality. The effect of impurities on the morphological structure of ammonium sulfate microcrystals during mass crystallization on the surface was investigated by means of microscopic analysis. The influence of temperature and pH of the solution on the structure and shape of the microcrystal layer was studied. The process of mass crystallization depends on the presence of impurities, pH and temperature. Given the fact that there is no analytical or theoretical dependence describing the influence of impurities on the morphological structure, the influence is determined experimentally. The presence of even a small content of surfactants and other impurities in the ammonium sulfate solution has a significant effect on the morphological structure of ammonium sulfate microcrystals, which is revealed as reduction in the concentration of impurities in ammonium sulfate obtained by coke-chemical method. The pH level of the medium affects the structure and shape of microcrystals: smaller crystals with a layered structure are formed in the case of weakly alkaline medium with pH = 8 and smaller microcrystals with a granular structure are formed in the case of pH = 4. Therefore, it is important to maintain the required pH level of the medium during the mass crystallization of ammonium sulfate. In isothermal mass crystallization of saturated aqueous solutions of ammonium sulfate with humic compounds and bone meal proceeding on a surface with temperature 90 °C, small elongated crystals with microcrystal sizes from 10 to 100 μm are formed. Impurities of bone meal and humic compounds in the form of inclusions are placed between the crystals of ammonium sulfate: namely, the endosegregation of impurities in the microcrystalline framework is observed. As the concentration of organic matter in the solution increases, which crystallizes as droplets on the surface, rubble and dendrites are formed outside the initial droplet placement. This phenomenon is explained by the increase of diffusion resistance at the center of the drop; as a result, ammonium sulfate crystallizes in the zone with lower resistance. The process of isothermal mass crystallization of saturated aqueous solutions of ammonium sulfate with admixtures of humic compounds, bone meal and other target components in the specified ratios will create new highly effective fertilizers. The obtained results allow formulating theoretical bases for the formation of solid structures based on ammonium sulfate with admixtures of organic and mineral components.
硫酸铵等温结晶的特点
由于不合理的土地利用、侵蚀和土壤污染以及恶劣的天气条件,土壤肥力正在迅速下降。使用含有矿物和有机成分的复合颗粒有机无机肥料,可以以最有效和最安全的方式增加土壤肥力。在流化床造粒机生产颗粒复合肥料过程中,等温团块结晶过程是影响质量的主要参数。采用显微分析方法研究了杂质对硫酸铵微晶在表面团块结晶过程中形态结构的影响。研究了溶液温度和pH对微晶层结构和形状的影响。质量结晶的过程取决于杂质的存在、pH值和温度。考虑到杂质对形态结构的影响没有分析性或理论性的依赖性,这种影响是通过实验确定的。即使硫酸铵溶液中存在少量的表面活性剂和其他杂质,也会对硫酸铵微晶的形态结构产生显著影响,这表现为焦化法得到的硫酸铵中杂质浓度的降低。介质的pH水平影响微晶体的结构和形状,弱碱性介质pH = 8时形成较小的具有层状结构的微晶体,pH = 4时形成较小的具有颗粒结构的微晶体。因此,在硫酸铵的质量结晶过程中,保持所需的介质pH值是很重要的。硫酸铵与腐殖质化合物和骨粉的饱和水溶液在90℃表面等温质量结晶过程中,形成微晶尺寸在10 ~ 100 μm之间的细长小晶体。骨粉和腐殖质化合物的杂质以包裹体的形式放置在硫酸铵晶体之间,即观察到微晶框架中杂质的内偏析。随着溶液中有机物浓度的增加,其在表面结晶为液滴,在液滴初始位置外形成碎石和枝晶。这种现象可以解释为液滴中心扩散阻力的增加;结果,硫酸铵在电阻较低的区域结晶。饱和硫酸铵水溶液与腐殖质化合物、骨粉及其他目标组分按规定比例的混合物等温质量结晶的过程将创造出新的高效肥料。所得结果为有机和矿物组分混合的硫酸铵固体结构的形成提供了理论基础。
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