摘要
The foaming phenomenon of N-methyldiethanolamine(MDEA) solution used in desulfurization process occurs frequently in the natural-gas purification plant. The foaming phenomenon has a strong impact on operation of the process unit. The salt impurities are the main reason for causing the foaming of MDEA solution, so the full analysis of salt impurities is necessary. A method for comprehensive analysis of salt impurities in MDEA solution used in desulfurization process was established. Anions and non-metallic cations of MDEA solution were determined by different conditions of ion chromatograph, respectively. Metallic cations of the solution were detected by atomic absorption spectrophotometer with the N2O-C2H2 flame absorption. The analytical results of salt impurities in the desulfurization solution can provide a theoretical basis for an accurate analysis of the factors affecting the foaming of MDEA to unveil further control measures.
The foaming phenomenon of N-methyldiethanolamine (MDEA) solution used in desulfurization process occursfrequently in the natural-gas purification plant. The foaming phenomenon has a strong impact on operation of the processunit. The salt impurities are the main reason for causing the foaming of MDEA solution, so the full analysis of salt impuritiesis necessary. A method for comprehensive analysis of salt impurities in MDEA solution used in desulfurization processwas established. Anions and non-metallic cations of MDEA solution were determined by different conditions of ion chromatograph,respectively. Metallic cations of the solution were detected by atomic absorption spectrophotometer with theN2O-C2H2 flame absorption. The analytical results of salt impurities in the desulfurization solution can provide a theoreticalbasis for an accurate analysis of the factors affecting the foaming of MDEA to unveil further control measures.
基金
Financial support received from the Major National Science and Technology Projects of China (No. 2011ZX05017)
SWPU Science & Technology Innovation Youth Team for Pollution Control of Oil & Gas Fields (No. 2013XJZT003)
