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电子级氟氮混合气是精细化工领域的重要原料,广泛应用于含氟电子特气、半导体、医药等领域。目前国内电子级氟氮混合气生产厂家较少,其主要原因是受限于氟气的提纯技术。笔者从工艺角度探讨电子级氟氮混合气的制备,即电子级氟混合气将装配有无水氢氟酸的电解槽电解反应产生粗制氟气,经过一系列工艺处理,除掉含量较高的氟化氢等杂质,再经精密除尘去除细小粉尘,使其纯化成为电子级氟气,得到质量分数达到99.9%以上的电子级氟气。进一步将电子级氟气通过分压法与高纯氮气混配,最终得到电子级氟氮混合气。
Abstract:Electronic grade fluorine nitrogen mixture is an important raw material in the field of fine chemical industry, which is widely used in fluorine electronic special gas, semiconductor, medicine and other fields.However, at present, the domestic electronic grade fluorine nitrogen mixture manufacturers are less, the main reason is limited by the purification technology of fluorine gas. The production process of electronic grade fluorine nitrogen mixture from the perspective of technology is discussed, that is, the electronic grade fluorine mixture is equipped with an electrolytic cell with or without hydrofluoric acid to produce crude fluorine gas. After a series of process treatment, impurities such as high content hydrogen fluoride are removed, and fine dust is removed by precision dust removal, so that it is purified into electronic grade fluorine gas. Electronic grade fluorine gas with fluorine content of more than 99.9% is obtained. Electron grade fluorine is further mixed with high purity nitrogen by partial pressure method to obtain electron grade fluorine nitrogen mixture.
[1]陈曦,黄银雪,佘睿,等.970 nm半导体激光联合多乐氟封闭牙本质小管效果的体外研究[J].实用口腔医学杂志,2023,39(4):492-495.CHEN X,HUANG Y X,SHE R,et al. In Vitro study of sealing effect of 970 nm semiconductor laser combined with Dorex Fluoride on dentin tubules[J]. Journal of Practical Stomatology,2023,39(4):492-495.
[2]袁翔云.氟气的提纯方法:CN101423195B[P].2010-11-03.
[3]林百志.现场制氟纯化及氟氮混合气体充装技术的研究[J].信息记录材料,2022,23(7):14-18.LIN B Z. Study on technology of purification of fluorine and filling of fluorine nitrogen mixture[J]. Materials for Information Recording,2022,23(7):14-18.
[4]金晖.氟化工装置的工艺设计[J].化工设计通讯,2020,46(6):97-98.JIN H. Process design of fluorine chemical plant[J]. Chemical Engineering Design Communication,2020,46(6):97-98.
[5]李贤武,王娟,赵冰,等.三氟化氮充装系统设计和安全讨论[J].低温与特气,2021,39(6):12-16.LI X W,WANG J,ZHAO B,et al.Design and Safety Discussion of nitrogen trifluoride Filling system[J]. Low Temperature and Characteristic Gases,2021,39(6):12-16.
[6]雷海平,苏·丹尼尔.一种脱除氟气中HF的方法及装置:CN202110076695.1[P]. 2024-08-13.
[7]丁勇,李權,高超,等.氟气纯化用氟化钠吸附剂制备及其吸附性能研究[J].山西化工,2024,44(4):17-20.DING Y,LI Q,GAO C,et al. Fluorine gas purification with sodium fluoride adsorbent preparation and its adsorption properties research[J]. Shanxi Chemical Industry Province,2024,44(4):17-20.
[8]高胜军.苯乙烯储罐工艺设计分析及研究[J].石化技术,2020,27(6):80-81.GAO S J. Process Design Analysis and Research of styrene storage tank[J]. Petrochemical Technology,2020,27(6):80-81.
[9]湖北卓熙氟化股份有限公司.一种制备高纯氟气的方法及装置:202011585357.2[P].2021-04-09.
[10]齐仲龙,杨会娥,任昊,等.含氟电子气体纯化方法探讨与展望[J].有机氟工业,2018(1):32-35.QI Z L,YANG H E,REN H,et al. Discussion and prospect of purification methods of fluorine-containing electron gases[J]. Organic Fluorine Industry,2018(1):32-35.
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DOI:
中图分类号:TQ116
引用信息:
[1]杨坤.电子级氟氮混合气的制备研究[J].生态产业科学与磷氟工程,2024,39(11):50-54.
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