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    • 2. 发明公开
    • VERFAHREN ZUR HERSTELLUNG VON 1,3-BUTADIEN DURCH DEHYDRIERUNG VON N-BUTENEN UNTER BEREITSTELLUNG EINES BUTANE UND 2-BUTENE ENTHALTENDEN STOFFSTROMES
    • EP3218334A1
    • 2017-09-20
    • EP15790976.3
    • 2015-11-09
    • BASF SELinde Aktiengesellschaft
    • UNGELENK, JanGRÜNE, PhilippWALSDORFF, ChristianJOSCH, Jan PabloBENDER, Michael
    • C07C4/06C07C5/48C07C7/08C07C7/09C07C7/11C07C7/148C07C11/167C07C11/08
    • C07C5/48C07C2/10C07C2/62C07C6/04C07C7/08C07C7/11C07C2521/04C07C2523/18C07C2523/28C07C2523/30C07C2523/36C07C2523/755C07C2527/043C07C2527/1206C07C2527/126C07C11/167C07C11/08C07C9/10C07C9/21C07C11/06C07C11/02
    • The invention relates to a method for producing 1,3-butadiene from n-butenes, comprising the following steps: A) providing a feed gas flow a, containing butanes, 1-butene, 2-butene, isobutene, and possibly 1,3-butadiene, from a fluid catalytic cracking plant; B) separating isobutene from the feed gas flow a, wherein a material flow b, containing butanes, 1-butene, 2-butene, and possibly 1,3-butadiene, is obtained; C) feeding the material flow b, containing butanes, 1-butene, and 2-butene, possibly a gas containing oxygen, and possibly water vapor into at least one dehydrogenation zone and dehydrogenating 1-butene and 2-butene into 1,3-butadiene, wherein a product gas flow c, containing 1,3-butadiene, butanes, 2-butene, water vapor, possibly oxygen, low-boiling hydrocarbons, high-boiling secondary components, possibly carbon oxides, and possibly inert gases, is obtained; D) cooling and compressing the product gas flow c, wherein at least an aqueous condensate flow d1 and a gas flow d2, containing 1,3-butadiene, butanes, 2-butene, water vapor, possibly oxygen, low-boiling hydrocarbons, possibly carbon oxides, and possibly inert gases, are obtained; Ea) separating non-condensable and low-boiling gas constituents, comprising low-boiling hydrocarbons, possibly oxygen, possibly carbon oxides, and possibly inert gases, as a gas flow e2 from the gas flow d2 by absorbing the C4 hydrocarbons, comprising 1,3-butadiene, butanes, and 2-butene, in an absorbent, wherein an absorbent flow loaded with C4 hydrocarbons and the gas flow e2 are obtained, and Eb) subsequently desorbing the C4 hydrocarbons from the loaded absorbent flow, wherein a C4 hydrocarbon flow e1 is obtained; F) separating the C4 hydrocarbon flow e1 by extractive distillation by means of a solvent selective for 1,3-butadiene into a material flow f1, containing 1,3-butadiene and the solvent, and a material flow f2, containing butanes and 2-butene, characterized in that at least 90% of the 1-butene contained in flow b is converted in step C) and a product flow f2 containing butanes and 2-butene is obtained in step F.
    • 本发明涉及由正丁烯生产1,3-丁二烯的方法,其包括以下步骤:A)提供包含丁烷,1-丁烯,2-丁烯,异丁烯和可能的1,3-丁二烯的进料气流a; 来自流化催化裂化装置的丁二烯; B)从原料气流a分离异丁烯,其中获得含有丁烷,1-丁烯,2-丁烯和可能的1,3-丁二烯的物料流b; C)将含丁烷,1-丁烯和2-丁烯的材料流b,可能含有氧气的气体和可能的水蒸汽送入至少一个脱氢区,并将1-丁烯和2-丁烯脱氢成1,3-丁二烯, 丁二烯,其中获得包含1,3-丁二烯,丁烷,2-丁烯,水蒸气,可能的氧气,低沸点烃,高沸点次要组分,可能的碳氧化物和可能的惰性气体的产物气流c ; D)冷却并压缩产物气流c,其中至少含有可能含有1,3-丁二烯,丁烷,2-丁烯,水蒸汽,可能的氧,低沸点烃的含水冷凝物流d1和气流d2 碳氧化物和可能的惰性气体; Ea)将包含低沸点烃,可能氧,可能碳氧化物和可能的惰性气体的不可冷凝和低沸点气体成分作为来自气流d2的气体流e2通过吸收包含1, 3-丁二烯,丁烷和2-丁烯,在吸收剂中获得负载有C 4烃和气流e 2的吸收剂流,并且E b)随后从负载的吸收剂流中解吸C 4烃,其中C 4烃流 e1被获得; F)通过萃取蒸馏借助于对1,3-丁二烯选择性的溶剂将C4烃流e1分离成包含1,3-丁二烯和溶剂的物料流f1和包含丁烷和2-丁烯的物料流f2, 其特征在于流程b中包含的1-丁烯的至少90%在步骤C)中转化并且在步骤F中获得包含丁烷和2-丁烯的产物流f2。
    • 8. 发明公开
    • PROCESS FOR PREPARING 1,3-BUTADIENE FROM N-BUTENES BY OXIDATIVE DEHYDROGENATION
    • 由氧化脱氢制备N-丁烯制备1,3-丁二烯的方法
    • EP3215478A1
    • 2017-09-13
    • EP15788406.5
    • 2015-11-02
    • BASF SELinde AG
    • GRÜNE, PhilippDEUBLEIN, StephanWALSDORFF, ChristianJOSCH, Jan PabloRAHM, RainerREYNEKE, HendrikWELLENHOFER, AntonWENNING, UlrikeTOEGEL, ChristineBOELT, Heinz
    • C07C5/48C07C7/04C07C7/08C07C7/11C07C11/167
    • C07C5/48C07C7/005C07C7/04C07C7/08C07C7/11C07C11/167C07C2523/31C07C2523/843C07C2523/847
    • The invention relates to a process for preparing butadiene from n-butenes, comprising the steps of: A) providing an input gas stream a comprising n-butenes; B) feeding the input gas stream a comprising n-butenes and a gas containing at least oxygen into at least one oxidative dehydrogenation zone and oxidatively dehydrogenating n-butenes to butadiene, giving a product gas stream b comprising butadiene, unconverted n-butenes, water vapor, oxygen, low-boiling hydrocarbons and high-boiling secondary components, with or without carbon oxides and with or without inert gases; Ca) cooling the product gas stream b by contacting with a circulating cooling medium in at least one cooling zone, the cooling medium being at least partly recycled and having an aqueous phase and an organic phase comprising an organic solvent; Cb) compressing the cooled product gas stream b which may have been depleted of high-boiling secondary components in at least one compression stage, giving at least one aqueous condensate stream c1 and one gas stream c2 comprising butadiene, n-butenes, water vapor, oxygen and low-boiling hydrocarbons, with or without carbon oxides and with or without inert gases;D) removing uncondensable and low-boiling gas constituents comprising oxygen and low-boiling hydrocarbons, with or without carbon oxides and with or without inert gases, as gas stream d2 from the gas stream c2 by absorbing the C4 hydrocarbons comprising butadiene and n-butenes in an absorbent, giving an absorbent stream laden with C4 hydrocarbons and the gas stream d2, and then desorbing the C4 hydrocarbons from the laden absorbent stream, giving a C4 product gas stream d1; E) separating the C4 product stream d1 by extractive distillation with a butadiene- selective solvent into a stream e1 comprising butadiene and the selective solvent and a stream e2 comprising n-butenes; F) distilling the stream e1 comprising butadiene and the selective solvent into a stream f1 consisting essentially of the selective solvent and a stream f2 comprising butadiene; which comprises G) removing a portion of the aqueous phase of the cooling medium which circulates in step Ca) and has an aqueous phase and an organic phase as aqueous purge stream g; H) distillatively separating the aqueous purge stream g into a fraction h1 enriched in organic constituents and a fraction h2 depleted of organic constituents.
    • 本发明涉及由正丁烯制备丁二烯的方法,其包括以下步骤:A)提供包含正丁烯的输入气流a; B)将包含正丁烯的输入气流a和至少含氧的气体送入至少一个氧化脱氢区,并将正丁烯氧化脱氢为丁二烯,得到含丁二烯的产物气流b,未转化的正丁烯,水 蒸气,氧气,低沸点烃和高沸点次要组分,有或没有碳氧化物,有或没有惰性气体; Ca)通过在至少一个冷却区中与循环冷却介质接触来冷却产物气流b,所述冷却介质至少部分再循环并且具有水相和包含有机溶剂的有机相; Cb)将在至少一个压缩阶段中可能已经耗尽高沸点次要组分的冷却产物气流b压缩,得到至少一种含水冷凝物流c1和一种气体料流c2,所述气体料流包含丁二烯,正丁烯,水蒸气, 氧和低沸点烃,有或没有碳氧化物,有或没有惰性气体; D)除去含有氧和低沸点烃的不可冷凝和低沸点气体成分,有或没有碳氧化物,有或没有惰性气体,如 通过在吸收剂中吸收包含丁二烯和正丁烯的C 4烃,从气流c 2中产生气流d 2,产生负载有C 4烃和气流d 2的吸收剂流,然后从负载吸收剂流解吸C 4烃,得到 C4产物气流d1; E)通过用丁二烯选择性溶剂萃取蒸馏将C4产物流d1分离成包含丁二烯和选择性溶剂的物流e1和包含正丁烯的物流e2; F)将包含丁二烯和选择性溶剂的物流e1蒸馏成基本上由选择性溶剂组成的物流f1和包含丁二烯的物流f2; 其包括G)除去在步骤Ca)中循环的冷却介质的一部分水相并且具有水相和有机相作为含水清洗流g; H)蒸馏分离含水清扫流g成为富含有机成分的部分h1和贫化有机成分的部分h2。
    • 10. 发明公开
    • VERFAHREN ZUR HERSTELLUNG VON 1,3-BUTADIEN AUS N-BUTENEN DURCH OXIDATIVE DEHYDRIERUNG
    • EP3197851A1
    • 2017-08-02
    • EP15763001.3
    • 2015-09-14
    • BASF SELinde AG
    • JOSCH, Jan PabloGRÜNE, PhilippBENFER, ReginaVICARI, MaximilianBIEGNER, AndreBLOCH, GregorBOELT, HeinzREYNEKE, HendrikTOEGEL, ChristineWENNING, Ulrike
    • C07C5/48C07C7/08C07C7/11C07C7/04C07C11/167
    • C07C5/48B01D3/40C07C5/333C07C7/005C07C7/05C07C7/08C07C7/11C07C11/167
    • The invention relates to a process for preparing butadiene from n-butenes, comprising the steps of: A) providing an input gas stream (a) comprising n-butenes, B) feeding the input gas stream (a) comprising n-butenes and a gas containing at least oxygen into at least one oxidative dehydrogenation zone and oxidatively dehydrogenating n-butenes to butadiene, wherein a product gas stream (b) comprising butadiene, unconverted n-butenes, water vapour, oxygen, low-boiling hydrocarbons and high-boiling secondary components, optionally carbon oxides and optionally inert gases is obtained; Ca) cooling the product gas stream (b) by bringing into contact with a cooling medium in at least one cooling zone, the cooling medium being at least partly recycled and having an aqueous phase and an organic phase ; Cb) compressing the cooled product gas stream (b) which may have been depleted of high-boiling secondary components in at least one compression stage, giving at least one aqueous condensate stream (c1) and one gas stream (c2) comprising butadiene, n-butenes, water vapour, oxygen and low-boiling hydrocarbons, optionally carbon oxides and optionally inert gases; D) removing uncondensable and low-boiling gas constituents comprising oxygen and low-boiling hydrocarbons, with or without carbon oxides and with or without inert gases, as gas stream (d2) from the gas stream (c2) by absorbing the C
      4 hydrocarbons comprising butadiene and n-butenes in an absorbent, giving an absorbent stream laden with C
      4 hydrocarbons and the gas stream (d2), and then desorbing the C
      4 hydrocarbons from the laden absorbent stream, giving a C
      4 product gas stream (d1), E) separating the C
      4 product stream (d1) by extractive distillation with a butadiene-selective solvent into a stream (e1) comprising butadiene and the selective solvent and a stream (e2) comprising n-butenes; F) distilling the stream (e1) comprising butadiene and the selective solvent into a stream (f1) consisting essentially of the selective solvent and a stream (f2) comprising butadiene, charactersied in that step Cb) comprises at least two compression stages Cba) and at least two cooling stages Cbb), which are designed as quench columns, in the cooling stage, the cooling takes place by bringing into direct contact with the two phase cooling medium having an aqueous and an organic phase.
    • 本发明涉及由正丁烯制备丁二烯的方法,其包括以下步骤:A)提供包含正丁烯的输入气流(a),B)将包含正丁烯的输入气流(a)和 将至少含氧的气体送入至少一个氧化脱氢区并将正丁烯氧化脱氢成丁二烯,其中产物气流(b)包含丁二烯,未转化的正丁烯,水蒸气,氧气,低沸点烃和高沸点 获得次要组分,任选的碳氧化物和任选的惰性气体; Ca)通过在至少一个冷却区中与冷却介质接触来冷却产物气流(b),冷却介质至少部分地再循环并且具有水相和有机相; Cb)压缩在至少一个压缩阶段中可能已经耗尽高沸点次要组分的冷却产物气流(b),得到至少一种含水冷凝物流(c1)和一种包含丁二烯的气体流(c2),n 丁烯,水蒸汽,氧气和低沸点烃,任选的碳氧化物和任选的惰性气体; D)通过吸收包含丁二烯的C4烃作为来自气流(c2)的气流(d2),从气体流(c2)中除去含有氧气和低沸点烃的含有或不含有碳氧化物和有或没有惰性气体的不可冷凝和低沸点气体成分 和正丁烯在吸收剂中反应,产生充满C4烃和气体物流(d2)的吸收剂物流,然后从装载的吸收剂物流中解吸出C4烃,得到C4产物气流(d1),E) C4产物流(d1)通过用丁二烯选择性溶剂萃取蒸馏到包含丁二烯和选择性溶剂的物流(e1)和包含正丁烯的物流(e2)中; F)将包含丁二烯和选择性溶剂的物流(e1)蒸馏成基本上由选择性溶剂组成的物流(f1)和包含丁二烯的物流(f2),其特征在于该步骤Cb)包括至少两个压缩阶段Cba)和 在冷却阶段中设计为骤冷塔的至少两个冷却阶段Cbb)通过与具有水相和有机相的两相冷却介质直接接触而进行冷却。