Kinetic Regularities Research of the Convective Concentration Process of a Hexane-Paraffinic Composition for the Food Paraffin Production

Q Engineering
M. Maryisheva, I. Y. Aleksanian, A. Nugmanov, L. Titova
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引用次数: 0

Abstract

Film structures, used for the production of biodegradable packaging materials, are hydrophilic in nature. Their paraffinization reduced the influence of external factors, primarily moisture, for them, i.e. applying a thin layer of molten food paraffin to the film surface for subsequent protection of packaged food products from moisture and sunlight. While producing the moisture-repellent compositions, a man pays much attention to the quality of the final food paraffin. One of its important safety indicators is the absence of carcinogenic aromatic hydrocarbons in it. The kinetic regularities study of the convective concentration processes of a technical paraffin solution in n-hexane is necessary to analyze their mechanism and speed, depending on the operating parameters, making possible to determine the rational duration of these procedures and the specific yield of the resulting product. To rationalize the convective concentration of a hexane solution, it is necessary to select such operating parameters enabling not only to remove hexane with toxic components dissolved in it from the study object in a relatively simple apparatus, but also to significantly reduce the time for this process. The study aim was to determine the rational modes of hexane-paraffin mixture concentration, as an object for the food paraffin production with convective energy supply. The concentration curve nature, although it is typical for the interacting materials, in particular n-hexane and paraffin, has a certain specificity, determined by the physicochemical parameters of the research object, which is a true solution included various toxic substances. The specific features of the study object are to be reflected not only on the solution concentration mechanism, but also on the temperature fields evolution in it and, as a result, determine the original approaches to modeling the process of removing the solvent together with toxic substances, particularly, benz-α-pyrene.
食品石蜡生产中正己烷-石蜡组合物对流浓缩过程动力学规律研究
用于生产可生物降解包装材料的薄膜结构本质上是亲水的。他们的石蜡化减少了外界因素的影响,主要是水分,对他们来说,即在薄膜表面涂上一层薄薄的熔融食品石蜡,以保护包装食品免受水分和阳光的影响。在生产防潮成分时,一个人非常注意最终食品石蜡的质量。其重要的安全指标之一是不含致癌性芳烃。对正己烷中工艺石蜡溶液的对流浓缩过程进行动力学规律研究,分析其机理和速度,根据不同的操作参数,确定这些过程的合理时间和产物的比产率。为了使正己烷溶液的对流浓度合理化,有必要选择这样的操作参数,既可以在相对简单的设备中从研究对象中去除含有有毒成分的正己烷,又可以大大减少该过程的时间。研究的目的是确定正己烷-石蜡混合物的合理浓度模式,为对流供能食品石蜡生产提供研究对象。浓度曲线性质虽然是典型的相互作用物质,特别是正己烷和石蜡,但具有一定的专一性,这是由研究对象的理化参数决定的,是包含各种有毒物质的真实溶液。研究对象的具体特征不仅体现在溶液浓度机理上,而且体现在其中的温度场演变上,从而确定了溶剂与有毒物质(特别是苯并α-芘)一起去除过程的原始建模方法。
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来源期刊
Agro Food Industry Hi-tech
Agro Food Industry Hi-tech 工程技术-生物工程与应用微生物
CiteScore
0.29
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
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