目的:解决合成氨生产工艺中压缩工段的压缩机级间换热器结焦问题。方法采用超声清洗方法,选取OP-10、AEO、平平加和TX-10四种非离子表面活性剂和AES、十二烷基磺酸钠两种阴离子表面活性剂作为主剂,将各种主剂配制成浓度为10 g/L的溶液,在温度为30℃条件下对样管超声清洗,研究对比各试剂的清焦能力,并对其进行筛选与复配。同理,将氢氧化钠、碳酸氢钠、磷酸钠和碳酸钠四种碱性助剂配制成10 g/L的溶液,取同等质量的焦垢,通过对溶解后剩余焦垢量的称量计算其对焦垢的溶解率。结果非离子表面活性剂的清焦能力OP-10>AEO>平平加>TX-10,阴离子表面活性剂的清焦能力AES>十二烷基磺酸钠,且超声清洗最佳时间为10 h。碱性助剂的溶焦能力氢氧化钠(13.2%)>碳酸氢钠(12.5%)>磷酸钠(9.9%)>碳酸钠(9.6%)。结论通过筛选和复配,OP-10和十二烷基磺酸钠作为清洗剂主剂、氢氧化钠为碱性助剂时进行超声清洗的效果较好。
ABSTRACT:Objective To solve the coking problem of compressor stage heat exchanger in compression section of ammonia pro-duction process. Methods Using the ultrasonic cleaning method, selecting OP-10, AEO, peregal and TX-10 as non-ionic surfac-tants, AES and sodium dodecyl sulfate anionic surfactant as the main agents, various 10 g/L solutions of different main agents were prepared, the coke cleaning capacity of different agents in ultrasonic cleaning was comparatively studied at 30 ℃, followed by screening and compounding. At the same time, 10 g/L solutions of sodium hydroxide, sodium bicarbonate, sodium phosphate and sodium carbonate were prepared, and their ability to dissolve the coke was examined by weighing the residue coke after dissolving the same mass of coke. Results The coke cleaning capacity of non-ionic surfactants followed the order of OP-10>AEO>peregal>TX-10, while the decoking capacity of anionic surfactants followed the order of AES>sodium dodecyl sulfate. And the optimal ultrason-ic cleaning time was 10 h. The coke dissolving capacity of alkaline additives followed the order of sodium hydroxide(13. 2%)>so-dium bicarbonate(12. 5%)>Sodium(9. 9%)>Sodium carbonate(9. 6%). Conclusion Through screening and compounding, it was found the best ultrasonic cleaning results were obtained when OP-10 and sodium dodecyl sulfate were used as the main cleaning agents, and sodium hydroxide as alkaline additives.
参考文献
| [1] | 姜颖;田蒙奎;李焱;成筑丽;王国维;王昌敏;简万国.合成氨压缩机级间换热器抑焦技术的研究[J].广州化工,2013(23):17-19,25. |
| [2] | 王青宁;卢勇;张飞龙;李澜;赵秋萍;于进远.环保型工业水基金属清洗剂的研制与应用[J].兰州理工大学学报,2010(4):72-75. |
| [3] | 肖潇.工业清洗剂的研究现状与发展趋势[J].清洗世界,2011(07):22-27,33. |
| [4] | 徐庆;卢佳銮;潘经州;黄婷婷;黄泳权;王光辉.“绿色”环保工业清洗剂现状及发展[J].清洗世界,2011(10):34-37. |
| [5] | 程怀琴;张伟.超声波技术在化工中的应用[J].科技传播,2012(16):129,124. |
| [6] | 周璇.超声波技术在工业清洗中的应用[J].机电工程技术,2012(07):157-159. |
| [7] | 马空军;贾殿赠;包文忠;赵文新;靳冬民;孙文磊.超声场作用下的强化传质研究进展[J].化工进展,2010(1):11-16,33. |
| [8] | 王家宝.超声波清洗工艺的原理及应用[J].柴油机设计与制造,2006(04):36-38. |
| [9] | 李萌.影响清洗效果的因素分析[J].现代显示,2012(02):43-46. |
| [10] | 刘蒙;金黔宏;潘思杰.酸性还原清洗剂ARC[J].印染,2011(9):34-36. |
| [11] | 杨岩;李翀;钟金环.环保型金属清洗剂的研制及其清洗效果[J].材料保护,2011(7):61-63. |
| [12] | 凌辉;杨高产;陈炳强;陈炳耀.一种新型高效水基清洗剂的研制[J].清洗世界,2012(1):16-21. |
| [13] | 王耀芝;汝俊颖;段继红;贾伟光;王永清.碱性清洗剂对器械清洗效果的影响[J].中华医院感染学杂志,2013(18):4466-4468. |
| [14] | 刘振法;张利辉;闫美芳;郭茹辉;何蕊.一种环保型化学清洗剂的研制及性能研究[J].清洗世界,2011(6):9-12,40. |
| [15] | 王慧;赵永武;王永光.环保型水基清洗剂的研制[J].电镀与精饰,2010(10):12-14. |
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