化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2015年
1期
95-101
,共7页
周丹%陈杰%花亦怀%唐建峰%褚洁%冯颉%王曰
週丹%陳傑%花亦懷%唐建峰%褚潔%馮頡%王曰
주단%진걸%화역부%당건봉%저길%풍힐%왕왈
三乙醇胺%烯胺%天然气脱碳%混合胺液%吸收%解吸%循环实验
三乙醇胺%烯胺%天然氣脫碳%混閤胺液%吸收%解吸%循環實驗
삼을순알%희알%천연기탈탄%혼합알액%흡수%해흡%순배실험
TEA%enamine%natural gas decarburization%mixed amine solution%absorption%desorption%cycling experiment
胺法脱碳以其脱除效果好、能耗低等优点在天然气预处理中得到广泛应用。目前国内外普遍采用以甲基二乙醇胺为主体的复配胺液为吸收剂,为适应寻找经济、高效的新型吸收剂的需求,本文选取同为叔胺的三乙醇胺(TEA)为主体进行实验研究,在TEA反应机理的研究基础上,添加二乙烯三胺/三乙烯四胺(DETA/TETA)进行混合胺液的吸收解吸性能分析,对比优选出综合表现较好的混合胺液,考察其不同配比下吸收、解吸及贴近实际生产的循环利用效果,完成配比优选研究。结果表明:添加烯胺后,可大大提高吸收性能,但会降低解吸效果;TEA+DETA 吸收和解吸性能优于 TEA+TETA;TEA+DETA 的优选配比为2.0/1.0和2.4/0.6;经循环实验验证,2mol/L TEA+1mol/L DETA综合效果最佳。
胺法脫碳以其脫除效果好、能耗低等優點在天然氣預處理中得到廣汎應用。目前國內外普遍採用以甲基二乙醇胺為主體的複配胺液為吸收劑,為適應尋找經濟、高效的新型吸收劑的需求,本文選取同為叔胺的三乙醇胺(TEA)為主體進行實驗研究,在TEA反應機理的研究基礎上,添加二乙烯三胺/三乙烯四胺(DETA/TETA)進行混閤胺液的吸收解吸性能分析,對比優選齣綜閤錶現較好的混閤胺液,攷察其不同配比下吸收、解吸及貼近實際生產的循環利用效果,完成配比優選研究。結果錶明:添加烯胺後,可大大提高吸收性能,但會降低解吸效果;TEA+DETA 吸收和解吸性能優于 TEA+TETA;TEA+DETA 的優選配比為2.0/1.0和2.4/0.6;經循環實驗驗證,2mol/L TEA+1mol/L DETA綜閤效果最佳。
알법탈탄이기탈제효과호、능모저등우점재천연기예처리중득도엄범응용。목전국내외보편채용이갑기이을순알위주체적복배알액위흡수제,위괄응심조경제、고효적신형흡수제적수구,본문선취동위숙알적삼을순알(TEA)위주체진행실험연구,재TEA반응궤리적연구기출상,첨가이을희삼알/삼을희사알(DETA/TETA)진행혼합알액적흡수해흡성능분석,대비우선출종합표현교호적혼합알액,고찰기불동배비하흡수、해흡급첩근실제생산적순배이용효과,완성배비우선연구。결과표명:첨가희알후,가대대제고흡수성능,단회강저해흡효과;TEA+DETA 흡수화해흡성능우우 TEA+TETA;TEA+DETA 적우선배비위2.0/1.0화2.4/0.6;경순배실험험증,2mol/L TEA+1mol/L DETA종합효과최가。
Decarburization by mixed amine solution has been widely used because of its good purification ability and low energy consumption. MDEA is used as the main absorbent in the mixed amines. In order to meet the demands of finding economical and highly efficient new absorbents,TEA was selected as the main amine solution for experimental study in this paper,which was tertiary amine,the same as MDEA. Based on the study of TEA solution reaction mechanism,the absorption and desorption performance of the TEA+DETA/TETA mixed amine solutions with different concentrations were studied experimentally,and the better amine solution was selected based on comprehensive performance. Enamines could promote absorption ability , but it would reduce desorption performance. The absorption and desorption performance of the TEA+DETA mixed amine solution was better than the TEA+TETA mixed amine solution. The mixed amine solutions with DETA concentrations of 1mol/L and 0.6mol/L were better. According to cycle experiments,the comprehensive performance of the mixed amine solution with DETA concentration of 1mol/L was the best.
