天然气化工
天然氣化工
천연기화공
NATURAL GAS CHEMICAL INDUSTRY
2015年
1期
71-74,88
,共5页
高明明%田盼盼%赵欢娟%刘安%黄杰%李稳宏
高明明%田盼盼%趙歡娟%劉安%黃傑%李穩宏
고명명%전반반%조환연%류안%황걸%리은굉
脱硫胺液%甲基二乙醇胺(MDEA)%毛细气相色谱%内标物
脫硫胺液%甲基二乙醇胺(MDEA)%毛細氣相色譜%內標物
탈류알액%갑기이을순알(MDEA)%모세기상색보%내표물
amine solution%methyldiethylolamine(MDEA)%capillary gas chromatography%internal standard reference substance
由于天然气净化厂脱硫胺液中含有甘醇类降解产物,二甘醇(DEG)和三甘醇(TEG)难于准确称量,以DEG或TEG为内标物的毛细管气相色谱法测定胺液中MDEA的含量时,会产生较大的误差。为避免这种影响,建立了以甲苯为内标物的毛细管气相色谱测定法:选用美国Agilent HP-50+毛细管柱来分析胺液中甲基二乙醇胺(MDE)的含量;定量方法为内标法;对三甘醇(TEG)和甲苯进行分析对比,最终选用甲苯作为内标物;使用MINITAB 15.1处理实验数据。实验结果表明:MDEA和甲苯出峰稳定,重复性好;方法回收率为99%~101%,相对标准偏差<2%。该法精密度和准确度较高,不仅可用于天然气净化厂胺液中MDEA含量的测定,而且对同类胺液的MDEA含量测定研究也有一定的借鉴作用。
由于天然氣淨化廠脫硫胺液中含有甘醇類降解產物,二甘醇(DEG)和三甘醇(TEG)難于準確稱量,以DEG或TEG為內標物的毛細管氣相色譜法測定胺液中MDEA的含量時,會產生較大的誤差。為避免這種影響,建立瞭以甲苯為內標物的毛細管氣相色譜測定法:選用美國Agilent HP-50+毛細管柱來分析胺液中甲基二乙醇胺(MDE)的含量;定量方法為內標法;對三甘醇(TEG)和甲苯進行分析對比,最終選用甲苯作為內標物;使用MINITAB 15.1處理實驗數據。實驗結果錶明:MDEA和甲苯齣峰穩定,重複性好;方法迴收率為99%~101%,相對標準偏差<2%。該法精密度和準確度較高,不僅可用于天然氣淨化廠胺液中MDEA含量的測定,而且對同類胺液的MDEA含量測定研究也有一定的藉鑒作用。
유우천연기정화엄탈류알액중함유감순류강해산물,이감순(DEG)화삼감순(TEG)난우준학칭량,이DEG혹TEG위내표물적모세관기상색보법측정알액중MDEA적함량시,회산생교대적오차。위피면저충영향,건립료이갑분위내표물적모세관기상색보측정법:선용미국Agilent HP-50+모세관주래분석알액중갑기이을순알(MDE)적함량;정량방법위내표법;대삼감순(TEG)화갑분진행분석대비,최종선용갑분작위내표물;사용MINITAB 15.1처리실험수거。실험결과표명:MDEA화갑분출봉은정,중복성호;방법회수솔위99%~101%,상대표준편차<2%。해법정밀도화준학도교고,불부가용우천연기정화엄알액중MDEA함량적측정,이차대동류알액적MDEA함량측정연구야유일정적차감작용。
Due to have some glycol degradation products in the amine solution from natural gas desulfurization and it was difficult to weigh the diethylene glycol (DEG) or triethylene glycol (TEG) exactly, DEG or TEG was used as the internal standard reference substance of capillary gas chromatography to determine the contents of methyldiethanolamine (MDEA) in the natural gas desulfurization solution would lead to large errors. In order to avoid it, a method of capillary gas chromatography was developed in which the HP-50+capillary column was adopted to determine the contents of MDEA, the internal standard method was used with the toluene as the internal standard reference substance and the MINITAB 15.1 was applied to perform data processing. The results showed that the peaks of MDEA and toluene were stable, the recovery was 98%to 101%and the relative standard deviation was less than 2%. This method had the advantages of accuracy and precision, not only could use for determining the content of MDEA in amine solutions from natural gas treating plants, but also could provide a reference for research on determining the content of MDEA in similar kinds of amine solution.