WO2017001448A1 - Dehydrogenation catalyst and process utilizing the catalyst - Google Patents

Dehydrogenation catalyst and process utilizing the catalyst Download PDF

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Publication number
WO2017001448A1
WO2017001448A1 PCT/EP2016/065087 EP2016065087W WO2017001448A1 WO 2017001448 A1 WO2017001448 A1 WO 2017001448A1 EP 2016065087 W EP2016065087 W EP 2016065087W WO 2017001448 A1 WO2017001448 A1 WO 2017001448A1
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WIPO (PCT)
Prior art keywords
catalyst
mixtures
hydrocarbon
range
hydrocarbon conversion
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PCT/EP2016/065087
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English (en)
French (fr)
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WO2017001448A8 (en
Inventor
Kongkiat Suriye
Amnart Jantharasuk
Wuttithep Jareewatchara
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SMH Co Ltd
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SMH Co Ltd
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Priority to US15/737,848 priority Critical patent/US10472304B2/en
Priority to JP2017567290A priority patent/JP6698110B2/ja
Priority to KR1020177036793A priority patent/KR20180021711A/ko
Priority to ES16732668T priority patent/ES2740724T3/es
Priority to CN201680027012.0A priority patent/CN107847908B/zh
Priority to EP16732668.5A priority patent/EP3277421B1/en
Priority to PL16732668T priority patent/PL3277421T3/pl
Publication of WO2017001448A1 publication Critical patent/WO2017001448A1/en
Anticipated expiration legal-status Critical
Publication of WO2017001448A8 publication Critical patent/WO2017001448A8/en
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    • Y02P20/50Improvements relating to the production of bulk chemicals
    • Y02P20/52Improvements relating to the production of bulk chemicals using catalysts, e.g. selective catalysts
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P20/00Technologies relating to chemical industry
    • Y02P20/50Improvements relating to the production of bulk chemicals
    • Y02P20/584Recycling of catalysts

Definitions

  • the present invention relates to a hydrocarbon conversion catalyst and a process for conversion of a hydrocarbon feed comprising saturated hydrocarbon compounds to olefin products.
  • Olefins especially light olefins including ethylene and propylene, are valuable hydrocarbon products. They are useful for preparing a wide variety of end products, including ethylene oxide, propylene oxide, ethyl benzene, acetone, phenol, polyethylene, polypropylene, other polymers, and other petrochemical products. Even though their prices have fluctuated over time, the demands in the industry have still been continuously growing.
  • Catalytic cracking is a later developed method. With appropriate catalytic materials, generally zeolite-based materials, hydrocarbon cracking can occur at less severe operating conditions.
  • a hydrocarbon conversion catalyst comprising i) a catalyst in oxidic form, comprising metals Ml, M2, M3 and M4, wherein: Ml is selected from Si, Al, Zr, and mixtures thereof; M2 is selected from Pt, Cr, and mixtures thereof; M3 is selected from W, Mo, Re and mixtures thereof; M4 is selected from Sn, K, Y, Yb arid mixtures thereof; wherein the mass fraction of Ml is in the range of 0.1 to 0.8; the mass fraction of M2 is in the range of 0.001 to 0.2; the mass fraction of M3 is in the range of 0.001 to 0.2; the mass fraction of M4 is in the range of 0.0001 to 0.2; and the mass fraction of oxygen is in the range of 0.1 to 0.8; and ii) a hydrogen scavenger selected from at least one alkali and/or alkaline earth metal derivative, preferably in metallic, hydride, salt, complex or alloy form.
  • Ml is selected from Si, Al
  • According to the invention is also a process for conversion of a hydrocarbon feed comprising saturated hydrocarbon compounds to olefin products comprising contacting a hydrocarbon feed stream with the inventive hydrocarbon conversion catalyst.
  • the mass fraction of Ml is in the range of 0.2 to 0.6
  • the mass fraction of M2 is in the range of 0.0015 to 0.15, preferably 0.0015 to 0.05
  • the mass fraction of M3 is in the range of 0.005 to 0.15, preferably 0.01 to 0.1
  • the mass fraction of M4 is in the range of 0.00015 to 0.03, preferably 0.0003 to 0.01.
  • the mass fraction of oxygen is in the range of 0.2 to 0.6.
  • M2 is Pt and/or M3q
  • the process for conversion of the hydrocarbon feed of the present invention is carried out at a temperature in the range of 200-700°C, preferably 300-650°C, more preferably 400-600°C.
  • the catalyst in oxidic form further comprises metal M5 ⁇ i.e. a catalyst ofthe formula M1M2M3M4M50).
  • M5 is selected from Mg, Ca, Me, Fe, Co, Ni, Cu, and mixtures thereof;
  • the mass fraction of M5 is preferably in the range of 0.005 to 0.1, more preferably 0.005 to 0.05.
  • the at least one alkali and/or alkaline earth metal is selected from Li, Na, K, Mg, Ca, and mixtures thereof, preferably Na, and Mg.
  • a hydrogen scavenger utilized in the inventive hydrocarbon conversion catalyst is capable of scavenging hydrogen in unwanted situations.
  • the hydrogen scavenger selected for the present invention contains some hydrogen storage capacity.
  • the hydrogen storage capability of the hydrogen scavenger can be either reversible or irreversible.
  • the catalyst in oxidic form can be prepared by mixing all precursors of the elements Ml to M4 or Ml to M5 together followed by a suitable heat treatment in order to obtain the desired multi-metal composition.
  • Element precursors are starting compounds containing the desired elements which can be converted to the desired form of elements, preferably oxides, in the final catalyst by a suitable heat treatment.
  • precursor of Ml to M5 may include oxides, haiides, alkoxides, nitrates, carbonates, formates, oxalates, amines, or hydroxides of the elements.
  • Mixing of element precursors can occur in dry form or wet form. When they are mixed in dry form, the element precursors may conveniently be provided in powder form.
  • Powder of the element precursors can be easily mixed by physical mixing in a blender.
  • the element precursors' mixture is then subjected to a suitable heat treatment, preferably calcination, to obtain the final catalyst in oxidic form.
  • a suitable heat treatment preferably calcination
  • the element precursors may be provided in solution and/or suspension form.
  • a mixture of the element precursors' solutions and/or suspensions is then dried to remove the solvents.
  • the dried mixture is subjected to a suitable heat treatment, preferably calcination, to obtain the final catalyst.
  • some of the element precursors may be provided in dry form and some of the element precursors may be provided in wet form.
  • the dry and wet element precursors can be combined by conventional methods including impregnation, incipient wetness, ion-exchange, or other methods known in the art.
  • the obtained mixture is then subjected to a suitable heat treatment, preferably calcination, to obtain the final catalyst
  • a suitable heat treatment involves a selected atmosphere and a selected temperature capable of removing and or converting at least a part of the element precursors to the desired form of the corresponding elements in the final catalyst.
  • the elements are in oxidic form in the final catalyst.
  • the selected atmosphere may include oxidizing atmosphere, reducing atmosphere, and inert atmosphere.
  • the prepared catalyst powder is subjected to calcination in air at a temperature in the range of 300°C to 800°C for 1 to 24 hours, even more preferably 400°C to 700°C for 2 to 10 hours.
  • the catalyst in oxidic form can be also prepared by separately calcining one or more of the element precursors, then combining respective oxidic element precursors and finally calcining.
  • the element precursors For example, supports of zirconia, alumina, silica and/or zeolite (Ml) are used to impregnate individually or simultaneously M2, M3 and M4 and/or M5 thereon. Respectively prepared individual compositions are then physically mixed and finally calcined.
  • the hydrogen scavenger may be added to either of these mixtures or may be added when preparing the final mixture of all metals M1-M5 and the hydrogen scavenger.
  • the hydrocarbon conversion catalyst is prepared by physically mixing the catalyst in oxidic form, which is calcined and in a solid form, with the hydrogen scavenger, which is preferably also provided in solid form.
  • the hydrogen scavenger is a derivative form of an alkali and/or alkaline earth metal, preferably metallic, hydride, salt, complex, alloy, or mixtures thereof.
  • the hydrogen scavenger is preferably prepared by subjecting a hydrogen scavenger precursor to an appropriate heat treatment, preferably calcination at a temperature in the range of 300 e C to 700°C, more preferably 400 e C to 600°C, for 2 to 24 hours.
  • the hydrogen scavenger precursor can be a compound of an alkali and/or alkaline earth metal, preferably salt of an alkali and/or alkaline earth metal.
  • the hydrogen scavenger precursor is selected from Ca(BH4)2, Mg(BH4)2, Ca(N03)2, K(N03)2, Na(N03)2, and mixtures thereof.
  • the hydrogen scavenger precursor is decomposed to be a derivative form of the alkali and/or alkaline earth metal.
  • the hydrogen scavenger is not present in oxidic form in the hydrocarbon conversion catalyst, but is present in a derivative form of alkali and/or alkaline earth metal, preferably metallic, hydride, salt, complex, alloy form or mixtures thereof.
  • preparation of the hydrocarbon conversion catalyst according to the present invention may further involve forming the catalyst powder into a shape suitable for a commercial reactor.
  • Shapes suitable for a commercial reactor may include pellets, extrudates, spheres, and the like.
  • Sufficient binder materials may be further added to the catalyst composition to facilitate forming of the catalyst.
  • Contacting the hydrocarbon feed stream with the catalyst i) and the hydrogen scavenger ii) may occur separately or simultaneously.
  • the catalyst i) and the hydrogen scavenger ii) are mixed, and contacting the hydrocarbon feed stream with the catalyst i) and the hydrogen scavenger ii) occurs simultaneously.
  • Mixing of the catalyst i) and the hydrogen scavenger ii) may be performed in microscopic level or macroscopic level.
  • the hydrogen scavenger or its precursor is added to the preparation step of the catalyst i).
  • powders of the catalyst i) and the hydrogen scavenger ii) are physically mixed prior to contacting with the hydrocarbon feed stream.
  • the powders mixture may be formed into a suitable shape, optionally with a suitable binder added, prior to contacting with the hydrocarbon feed stream.
  • the catalyst i) and the hydrogen scavenger ii) are physically mixed in a suitable weight ratio prior to contacting with the hydrocarbon feed stream.
  • a suitable weight ratio of catalyst i) and hydrogen scavenger ii) in this regard may be from 1-99 to 99-1.
  • a preferred weight ratio of catalyst i) to hydrogen scavenger ii) is in the range of 1-30 to 1, more preferably 2-25 to 1, even more preferably 4-20 to 1 , even further more preferably 5-15 to 1.
  • the hydrocarbon feed stream comprises a paraffinic hydrocarbon.
  • the hydrocarbon feed stream comprises a paraffin having 2 to 5 carbon atoms.
  • the hydrocarbon feed stream comprises a paraffin selected from ethane, propane, butane, pentane and mixtures thereof, preferably propane, butane, and a mixture thereof.
  • the hydrocarbon conversion process can be operated in a wide range of operating conditions. However, some specific ranges of operating conditions can result in high olefins production selectivity.
  • the process is carried out at a temperature in the range of 200°C to 700°C, preferably 300°C to 650°C, even more preferably 400°C to 600°C.
  • the process is carried out at a pressure in the range of 0.01 to 10 bar gauge, preferably 0.05 to 5 bar gauge.
  • the contact time needed to obtain a desirable yield of olefins product depends upon several factors such as operating temperature, operating pressure, and catalyst activity.
  • the process is carried out at a weight hourly space velocity (WHSV) in the range of 0.01 to 20 hr 1 , preferably 0.05 to 5 hr "1 .
  • WHSV weight hourly space velocity
  • the process can be conducted in a batch manner or a continuous manner. For commercial scale, it is favorable that the process is continuously operated. Continuous operation can be performed with fixed bed, fluidized bed, or other techniques known in the art with fixed bed being typically preferred.
  • the catalyst i) and the hydrogen scavenger ii) may optionally be pretreated.
  • the pretreatment condition may include contacting the catalyst i) and the hydrogen scavenger ii) with an inert gas, an oxidizing gas, a reducing gas, a hydrocarbon, preferably a C2-C6 aliphatic hydrocarbon, and any mixture thereof .
  • the pretreatment may be divided into several steps wherein each step may employ different conditions and atmospheres. It is generally preferred that the pretreatment is performed at a heated temperature, preferably 200°C to 700°C, more preferably 300°C to 600°C, even more preferably 350T to 550'C.
  • the hydrocarbon conversion process comprises a regeneration step wherein the regeneration step includes contacting the hydrocarbon conversion catalyst with an oxidizing agent at a high temperature.
  • the regeneration step should be carefully controlled to avoid overheating and destroying structure of the catalyst.
  • the regeneration step is carried out at a temperature in the range of 200°C to 700°C, preferably 300°C to 600°C. Other known regeneration techniques can be employed without limitation.
  • hydrocarbon conversion catalysts according to the invention have been prepared and tested according to the above disclosure. It was surprisingly found by the inventors that catalyst systems (of inventive catalyst and inventive hydrogen scavenger) falling within the scope of the claims featured better catalytic activity and selectivity in comparison to non- inventive catalyst systems.
  • Each example catalyst was prctreated by contacting with air at approximately 500X for 30 minutes and with hydrogen at approximately 500°C for 90 minutes before contacted with
  • a catalyst sample containing O.Bl l wt% of Al, 1.792 wt% of Mg, 50.495 wt% of O, 0.501 wt% of Pt, 42.526 wt% of Si, 3.396 wt% of W, 0.076 wt% of Yb, and 0.403 wt% Zr was calcined at 550"C for 3 hours in air before subjected to the reaction test.
  • This catalyst is a standard catalyst for conversion of paraffins into olefins without adding hydrogen scavenger.
  • Example 2 (comparativel
  • the catalyst sample was prepared by:
  • step 2) Calcining the powder catalyst in step 1) at 550°C for 3 hours in air.
  • the catalyst sample was prepared by:
  • the catalyst sample was prepared by the same steps as Example 3, but 10 wt% of Na(N03) was used.
  • the catalyst sample was prepared by the same steps as the Example 3, but 10 wt% of K(N03) was used instead of Na(N03).
  • Each example catalyst was pretreated by contacting with air at approximately 500 e C for 30 minutes and with hydrogen at approximately 500°C for 90 minutes before contacted with
  • a catalyst sample containing 0.324 wt% of Al, 0.715 wt% of Mg, 49.624 wt% of O, 4.277 wt% of Pt, 42.700 wt% of SI, 1.355 wt% of W, 0.390 wt% of Yb, and 0.641 wt% Zr was calcined at 550°C for 3 hours in air before subjected to the reaction test.
  • the catalyst sample was prepared by:
  • step 2) Calcining the powder catalyst in step 1) at 550°C for 3 hours in air.
  • the catalyst sample was prepared by the same steps as the Example 7, but 6.5 wt% of Mg(BH4)2 was used instead of Ca(BH4)2.
  • Use of Ms catalyst cm suppress hydrogenation side reaction. This is evidenced by lower C2H6 and C4H10 selectivity compared to the standard P20s catalyst in Example 6.

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PCT/EP2016/065087 2015-06-29 2016-06-29 Dehydrogenation catalyst and process utilizing the catalyst Ceased WO2017001448A1 (en)

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US15/737,848 US10472304B2 (en) 2015-06-29 2016-06-29 Catalyst and hydrocarbon conversion process utilizing the catalyst
JP2017567290A JP6698110B2 (ja) 2015-06-29 2016-06-29 触媒及び当該触媒を利用した炭化水素転換プロセス
KR1020177036793A KR20180021711A (ko) 2015-06-29 2016-06-29 탈수소화 촉매 및 상기 촉매를 사용하는 방법
ES16732668T ES2740724T3 (es) 2015-06-29 2016-06-29 Catalizador de deshidrogenación y procedimiento que utiliza el catalizador
CN201680027012.0A CN107847908B (zh) 2015-06-29 2016-06-29 催化剂以及使用所述催化剂的烃转化方法
EP16732668.5A EP3277421B1 (en) 2015-06-29 2016-06-29 Dehydrogenation catalyst and process utilizing the catalyst
PL16732668T PL3277421T3 (pl) 2015-06-29 2016-06-29 Katalizator odwodornienia i sposób stosowania tego katalizatora

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CN110180537A (zh) * 2019-06-12 2019-08-30 福州大学 一种用于低碳烷烃脱氢金属合金催化剂及其制备方法和应用
CN114728272B (zh) 2019-11-14 2025-02-21 三菱化学株式会社 催化剂及其制造方法、以及不饱和烃的制造方法

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US20190002372A1 (en) 2019-01-03
KR20180021711A (ko) 2018-03-05
CN107847908B (zh) 2021-12-14
ES2740724T3 (es) 2020-02-06
CN107847908A (zh) 2018-03-27
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PL3277421T3 (pl) 2019-10-31
EP3277421A1 (en) 2018-02-07

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