LNG接收站冷能用于轻烃回收工艺  被引量:13

Process of light hydrocarbons recovery from LNG with cryogenic energy utilized in LNG terminal

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作  者:王雨帆[1] 李玉星[1] 王武昌[1] 王小尚[2] 刘景俊[2] 

机构地区:[1]中国石油大学(华东)储运与建筑工程学院 [2]中国石化青岛液化天然气有限责任公司

出  处:《石油与天然气化工》2015年第3期44-49,共6页Chemical engineering of oil & gas

摘  要:近几年,随着大型LNG接收站的快速发展,LNG冷能利用的研究也日益迫切。利用LNG冷能回收其中高附加值的C+2轻烃则是一种有效的方式。提出了一种利用LNG冷能回收轻烃的改进流程,利用脱甲烷塔进料为脱乙烷塔塔顶冷凝器提供冷量,得到液态乙烷和C+3,方便产品的储运。以国内某LNG接收站的富气为例,模拟计算得到:该流程中C+3收率可达97.5%,乙烷回收率可达95.78%。对装置的经济性进行了分析,结果表明,使用该流程进行轻烃回收效益显著。并提出了LNG冷能用于轻烃回收工艺中冷能利用率的计算方法,得到单独采用该流程的冷能利用率为38.93%。针对LNG组分、温度等参数进行了敏感性分析,考察对C+3收率、乙烷回收率及能耗的影响,可以为接收站的优化运行提供指导。In recent years,with the rapid development of large LNG terminals,the research of LNG cryogenic energy utilization is increasingly urgent.C+2light hydrocarbons,which are resources with high additional values,can be separated from LNG by efficiently utilizing its cryogenic energy.An improved process of light hydrocarbons separation is proposed in this paper:the cold energy of the demethanizer feed is provided to the condenser of the deethanizer for liquefied ethane and C+3,which are easy to be stored and transported.Then,a case study of applying the process was carried out for the rich LNG of a domestic LNG terminal,which indicated that the recovery rate was about 97.5%for C+3,and about 95.78% for ethane.And the economics of the process was studied.The results showed that recovering light hydrocarbons from LNG by this process could gain great profits.This paper also proposed a new calculation method of LNG cryogenic energy utilization rate for the process.It is concluded that LNG cryogenic energy utilization rate is 38.93% with the process used alone.Sensitivity analysis was conducted for the composition,temperature and other parameters of LNG,andthe effects of them on the recovery rate of C+3and ethane and the energy consumption were studied.It provided a guidance for optimal operation of the terminals.

关 键 词:接收站 LNG 冷能利用 天然气 轻烃回收 轻烃分离 

分 类 号:TE626.7[石油与天然气工程—油气加工工程] TQ221[化学工程—有机化工]

 

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