目的:研究超导材料清洗过程中产生的废酸的处理和回收技术,实现废酸提纯回用,达到废酸液零排放的目标。方法向废酸液中配入工业浓硫酸,以提供适量浓度的环境,然后在25 kPa真空环境下进行蒸发,酸蒸气通过换热器冷凝再生,浓缩后获得的金属硫酸盐溶液进行常温下冷却结晶回收。按照配酸、蒸发、冷凝、结晶等工艺要求,设计、制作废酸再生回用的耐腐蚀过程设备,调试组成废酸再生系统,验证并优化工艺细节。结果研制的负压蒸发再生系统日处理废酸量达到9~15 t,再生酸经浓度调整后直接回用,从浓缩液中得到的硫酸盐结晶物可作为其它化工原料。结论成功实现了清洗超导材料用硝酸和氢氟酸的再生,整个环节没有污染物排放,同时设备具备造价低、运行稳定可靠、维护量小等优点。
Objective To study the treatment and recycle technology of waste acid generated during the cleaning process of su-perconducting material, in order to realize the purification and reuse of waste acid, reaching the goal of zero release of waste acid. Methods Concentrated sulfuric acid was mixed with the waste acid liquid to provide the suitable concentration, then the mixture was evaporated in a vacuum environment under 25 kPa, where the acid evaporator was condensed and regenerated,and metal crys-tals were obtained from the enriched melt sulfate solution after cooling at room temperature. A whole set of corrosion resistant e-quipment were designed and developed according to the requirements of mixing acid, evaporation, condensation and crystallization. The process details were validated and optimized with commissioning. Results Totally 9~15 tons of waste acid was treated daily with the system. The regenerated acid could be reused after concentration adjustment, and the sulfate crystals from the concentrated liquid could be used raw materials for other chemicals. Conclusion Nitric acid and hydrofluoric acid for cleaning of superconduct-ing material were successfully regenerated and reused. No pollutant was discharged in the whole process. Meanwhile, the equip-ment had a number of advantages, such as stability, reliability, low cost and low maintenance.
参考文献
| [1] | 贾庆功,杨金祥,任源.超导用无氧铜管流动酸洗工艺及设备研究[J].表面技术,2010(02):80-82,99. |
| [2] | 周安林,李建峰,刘建伟.超导材料用铌表面清洗工艺[J].中国表面工程,2013(04):83-87. |
| [3] | 郑锋,程挺宇,张巧云.钛及钛合金的酸洗技术[J].稀有金属与硬质合金,2009(03):26-28. |
| [4] | 李红玲,刘双枝.金属表面无铬替代处理技术的研究进展[J].表面技术,2013(02):112-115. |
| [5] | 许奕春,汤兵,董誉.酸洗过程清洁生产初步分析[J].表面技术,2009(03):101-104. |
| [6] | 田莹莹,尹应武,罗伟.酸洗废液的资源化工艺研究[J].工业水处理,2009(10):89-91. |
| [7] | 刘苗 .金属酸洗废液资源化处理技术研究[D].浙江大学,2013. |
| [8] | Jiayuan Li;Tianzu Yang;Weifeng Liu .A New Process for Treatment of Waste Acid in Smelter[J].Asian Journal of Chemistry: An International Quarterly Research Journal of Chemistry,2013(13):7392-7396. |
| [9] | Paquay E.;Acid pickling;Wastewater treatment .Applications of electrodialysis for acid pickling wastewater treatment[J].Chemical Engineering Journal,2000(3):197-201. |
| [10] | ARCHANA A;SAHU K K .An Overview of Recovery of Acid from Spent Acidic Solutions from Steel and Electropla-ting Industries[J].Journal of Hazardous Materials,2009,171:61-75. |
| [11] | J.Wisniewski;G.Wisniewska;T.Winnicki .Application of bipolar electrodialysis to the recovery of acids and bases from water solutions[J].Desalination: The International Journal on the Science and Technology of Desalting and Water Purification,2004(1):11-20. |
| [12] | 欧阳红英.负压蒸发技术处理盐酸酸洗废液[J].江西冶金,2002(02):23-24. |
| [13] | 付伟.外循环减压蒸发工艺回收废酸技术与应用[J].环境污染与防治,2004(03):227-228. |
| [14] | 马志军,桂祥友.废酸液中回收氟化氢的实验研究[J].辽宁工程技术大学学报(自然科学版),2003(z1):136-137. |
| [15] | 戴洪斌,张勇,王泉.紧衬聚四氟乙烯钢管和管件的研制[J].腐蚀与防护,2002(06):267-269. |
| [16] | 任夫健.钢衬聚四氟乙烯设备的加工、设计与应用[J].工程塑料应用,2001(05):19-20. |
| [17] | 刘建州,刘玉英.聚四氟乙烯(F4)衬里成型技术及其应用[J].化工设备与管道,2010(03):23-24. |
| [18] | 李小平,汪凯,张春恒,雒敏,马沁,王世民.钽及钽合金在废酸回收设备中的应用[J].材料开发与应用,2012(06):19-21. |
| [19] | 杜春林,许忠旭,刘春,徐照武,李培印.热阴极电离真空规在卫星热试验中的使用与失效分析[J].装备环境工程,2012(03):19-22,40. |
| [20] | 刘振生,郝爱云,王蕊,申文清.搪玻璃聚四氟乙烯组合盘管冷凝器[J].应用化工,2004(01):62-64. |
| [21] | 陶安发,王铁军,陈志文,江斌,张周品.HG-45b宽温区环控装置研发[J].装备环境工程,2013(02):116-119,128. |
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