Choice of MTBE deep desulfurization process

Abstract

Abstract: The control index of sulfides content in gasoline additive MTBE was introduced based on the National 5th Stage Motor Vehicle Gasoline Standard. A new algorithm for enrichment coefficient calculation was given based on the analysis of sulfides composition， sources and enrichment effect in MTBE. The results showed that enrichment coefficient was up to 4.44 at ethylene content in LPG between 15%～30% by weight. The analysis of other influencing factors showed that enrichment effect was the most important factor. As the investigation of MTBE desulfurization process by distillation and LPG fine desulfurization process demonstrated that two-column MTBE desulfurization process by distillation was more suitable in new gasoline additive production，considering its relatively low invest cost，energy cost and use of adsorbent，and the sulfides content in MTBE can be controlled under 3mg/kg.

Key words: LPG, MTBE, distillation, enrichment effect, deep desulfurization

摘要： 根据国家第五阶段车用汽油标准对汽油硫含量的要求，提出了满足该标准的汽油添加剂甲基叔丁基醚（MTBE）中硫含量的控制指标。分析了MTBE中硫化物的组成、来源及富集效应产生的原因，提出了富集系数的准确的计算方法。计算结果表明，当原料液化气中异丁烯质量分数为15%～30%时，富集系数最高可达4.44。在比较其他引起MTBE中硫含量升高因素的基础上，认为富集效应是导致其含硫量较原料液化气大幅升高以致超标的重要原因。同时研究了液化石油气精脱硫及MTBE蒸馏脱硫两种深度脱硫工艺，通过全面对比分析，认为MTBE双塔脱硫工艺在设备投资、能耗、吸附剂使用等方面均具有优势，并且可以将MTBE中的硫含量稳定地控制在3mg/kg以下。低于10mg/kg的控制指标要求，更适合于国家第五阶段车用汽油标准的添加剂的生产。

关键词: 液化石油气, 甲基叔丁基醚, 蒸馏, 富集效应, 深度脱硫

ZHANG Chifei1，JIA Qingming1，ZHANG Jianmin2. Choice of MTBE deep desulfurization process[J]. Chemical Industry and Engineering Progree.

张驰飞1，贾庆明1，张健民2. 甲基叔丁基醚生产深度脱硫工艺的选择[J]. 化工进展.

References

Related Articles 15

[1]	Lizhi WANG, Qiancheng HANG, Yeling ZHENG, Yan DING, Jiaji CHEN, Qing YE, Jinlong LI. Separation of methyl propionate + methanol azeotrope using ionic liquid entrainers [J]. CIESC Journal, 2023, 74(9): 3731-3741.
[2]	Shanghao LIU, Shengkun JIA, Yiqing LUO, Xigang YUAN. Optimization of ternary-distillation sequence based on gradient boosting decision tree [J]. CIESC Journal, 2023, 74(5): 2075-2087.
[3]	Mujin LI, Song HU, Depan SHI, Peng ZHAO, Rui GAO, Jinlong LI. A process for offgas absorption and purification of 1,2-butylene oxide [J]. CIESC Journal, 2023, 74(4): 1607-1618.
[4]	Haiou YUAN, Fangjun YE, Shuo ZHANG, Yiqing LUO, Xigang YUAN. Synthesis of heat-integrated distillation sequences with intermediate heat exchangers [J]. CIESC Journal, 2023, 74(2): 796-806.
[5]	Huiying LIU, Shengkun JIA, Yiqing LUO, Xigang YUAN. Influence of vapor feed on optimal design of dividing wall column [J]. CIESC Journal, 2022, 73(7): 3090-3098.
[6]	Guoxin SUN, Mengxuan GOU, Cheng ZHOU, Pei CHANG, Gaohong HE, Xiaobin JIANG. Membrane distillation crystallization coupling process for the treatment of high concentration Na⁺//NO $3 -$ , SO $4 2 -$ -H₂O solution [J]. CIESC Journal, 2022, 73(7): 3078-3089.
[7]	Xingwei LIU, Shengkun JIA, Yiqing LUO, Xigang YUAN. Optimization of distillation column based on trust region algorithm [J]. CIESC Journal, 2022, 73(5): 2031-2038.
[8]	Xin LIU, Yang PAN, Gongping LIU, Jing FANG, Chunli LI, Hao LI. Study on the process of preliminary separation of Fischer-Tropsch synthetic water by coupling pervaporation and dividing wall column distillation [J]. CIESC Journal, 2022, 73(5): 2020-2030.
[9]	Wenting DUAN, Siyue REN, Xiao FENG, Yufei WANG. Distillation column pressure optimization integrated with the heat exchanger network [J]. CIESC Journal, 2022, 73(5): 2052-2059.
[10]	Xiaoqing SHI, Weixuan ZHU, Haotian YE, Zhizhong HAN, Hongguang DONG. Pretreatment process simulation and multi-objective optimization of C5 by reactive dividing wall column [J]. CIESC Journal, 2022, 73(3): 1246-1255.
[11]	Tianyuan WANG, Chunbo CHEN, Lin SUN, Xionglin LUO. Optimal design of slow-time-varying system for multi-effect distillation desalination based on full-cycle slow fouling [J]. CIESC Journal, 2022, 73(2): 759-769.
[12]	Yunfei WU, Xiaoli LUAN, Fei LIU. Near-infrared spectroscopy online detecting for 2,6-dimethylphenol purity based on transfer learning [J]. CIESC Journal, 2022, 73(2): 782-791.
[13]	Runtao WANG, Zejun LUO, Chu WANG, Xifeng ZHU. Synergistic effect during catalytic co-pyrolysis of bio-oil distillation residue and waste plastic [J]. CIESC Journal, 2022, 73(11): 5088-5097.
[14]	Xu LIU, Songlin XU, Yanfei WANG. Global multi-objective optimization of trimethyl orthoformate-acetic acid extractive distillation [J]. CIESC Journal, 2022, 73(10): 4518-4526.
[15]	XU Jianwei, LIANG Yingzong, LUO Xianglong, CHEN Jianyong, YANG Zhi, CHEN Ying. Integration and analysis of PRICO-membrane distillation seawater desalination system [J]. CIESC Journal, 2021, 72(S1): 437-444.