SATTLER J J H B , RUIZ-MARTINEZ J , SANTILLAN-JIMENEZ E , et al . Catalytic dehydrogenation of light alkanes on metals and metal oxides [J ] . Chemical Reviews , 2014 , 114 ( 20 ): 10613 - 10653 .

CHEN S , CHANG X , SUN G D , et al . Propane dehydrogenation: Catalyst development, new chemistry, and emerging technologies [J ] . Chemical Society Reviews , 2021 , 50 ( 5 ): 3315 - 3354 .

LI C Y , WANG G W . Dehydrogenation of light alkanes to mono-olefins [J ] . Chemical Society Reviews , 2021 , 50 ( 7 ): 4359 - 4381 .

HU Z P , YANG D D , WANG Z , et al . State-of-the-art catalysts for direct dehydrogenation of propane to propylene [J ] . Chinese Journal of Catalysis , 2019 , 40 ( 9 ): 1233 - 1254 .

YAN W F , SUN Q M , YU J H . Dehydrogenation of propane marches on [J ] . Matter , 2021 , 4 ( 8 ): 2642 - 2644 .

WEGRZYNIAK A , JARCZEWSKI S , WEGRZYNOWICZ A , et al . Catalytic behavior of chromium oxide supported on nanocasting-prepared mesoporous alumina in dehydrogenation of propane [J ] . Nanomaterials , 2017 , 7 : 249 .

XU L L , WANG Z L , SONG H L , et al . Catalytic dehydrogenation of isobutane over ordered mesoporous Cr 2 O 3 -Al 2 O 3 composite oxides [J ] . Catalysis Communications , 2013 , 35 : 76 - 81 .

WANG H Z , SUN L L , SUI Z J , et al . Coke formation on Pt-Sn/Al 2 O 3 catalyst for propane dehydrogenation [J ] . Industrial & Engineering Chemistry Research , 2018 , 57 ( 26 ): 8647 - 8654 .

GASCÓN J , TÉLLEZ C , HERGUIDO J , et al . Propane dehydrogenation over a Cr 2 O 3 /Al 2 O 3 catalyst: Transient kinetic modeling of propene and coke formation [J ] . Applied Catalysis A: General , 2003 , 248 : 105 - 116 .

KUMAR P , SRIVASTAVA V C . Elucidation of catalytic propane dehydrogenation using theoretical and experimental approaches: Advances and outlook [J ] . Energy Fuels , 2023 , 37 ( 23 ): 18369 - 18394 .

陈光文 , 阳永荣 , 戎顺熙 . 在Pt-Sn/Al 2 O 3 催化剂上丙烷脱氢反应动力学 [J ] . 化学反应工程与工艺 , 1998 , 14 ( 2 ): 130 - 137 ．

CHEN G W , YANG Y R , RONG S X . Study on the intrinsic kinetics of propane dehydrogenation over Pt-Sn/Al 2 O 3 catalyst [J ] . Chemical Reaction Engineering and Technology , 1998 , 14 ( 2 ) : 130 - 137 .

CONLEY M P , DELLEY M F , NUŃEZ-ZARUR F , et al . Heterolytic activation of C—H bonds on Cr III —O surface sites is a key step in catalytic polymerization of ethylene and dehydrogenation of propane [J ] . Inorganic Chemistry , 2015 , 54 ( 11 ): 5065 - 5078 .

AIRAKSINEN S M K , HARLIN M E , KRAUSE A O I . Kinetic modeling of dehydrogenation of isobutane on chromia/alumina catalyst [J ] . Industrial & Engineering Chemistry Research , 2002 , 41 : 5619 - 5626 .

LILLEHAUG S , BØRVE K J , SIERKA M , et al . Catalytic dehydrogenation of ethane over mononuclear Cr(III) surface sites on silica. Part I. C—H activation by σ-bond metathesis [J ] . Journal of Physical Organic Chemistry , 2004 , 17 ( 11 ): 990 - 1006 .

LILLEHAUG S , JENSEN V R , BØRVE K J . Catalytic dehydrogenation of ethane over mononuclear Cr(III)-silica surface sites. Part 2: C—H activation by oxidative addition [J ] . Journal of Physical Organic Chemistry , 2006 , 19 ( 1 ): 25 - 33 .

SUN X Y , XUE J H , REN Y , et al . Revealing nature of active site and reaction mechanism of supported chromium oxide catalyst in propane direct dehydrogenation [J ] . Molecular Catalysis , 2021 , 505 : 111520 .

王德龙 . 丙烷脱氢催化剂载体性能调控及积炭生成机制研究 [D ] . 天津 : 天津科技大学 , 2018 .

WANG D L . Study on performance control of catalyst supports and the mechanism of coke formation of propane dehydrogenation [D ] . Tianjin : Tianjin University of Science & Technology , 2018 .

师连杰 , 李 博 , 李长明 . 丙烷脱氢催化剂积炭失活机理研究进展 [J ] . 江西化工 , 2022 , 3 : 70 - 73 .

SHI L J , LI B , LI C M . Research progress on deactivation mechanism of carbon deposition in propane dehydrogenation catalyst [J ] . Jiangxi Chemical Industry , 2022 , 3 : 70 - 73 .

AIRAKSINEN S M K , KANERVO J M , KRAUSE A O I . Deactivation of CrO x /Al 2 O 3 catalysts in the dehydrogenation of i -butane [J ] . Studies in Surface Science and Catalysis , 2001 , 136 : 153 - 158 .

FRIDMAN V Z , XING R . Deactivation studies of the CrO x /Al 2 O 3 dehydrogenation catalysts under cyclic redox conditions [J ] . Industrial & Engineering Chemistry Research , 2017 , 56 : 7937 - 7947 .

WECKHUYSEN B M , SCHOONHEYDT R A . Alkane dehydrogenation over supported chromium oxide catalysts [J ] . Catalysis Today , 1999 , 51 : 223 - 232 .

FREY F E , HUPPKE W F . Equilibrium dehydrogenation of ethane, propane, and the butanes [J ] . Industrial & Engineering Chemistry Research , 1933 , 25 ( 1 ): 54 - 59 .

BHASIN M M , MCCAIN J H , VORA B V , et al . Dehydrogenation and oxydehydrogenation of paraffins to olefins [J ] . Applied Catalysis A: General , 2001 , 221 : 397 - 419 .

DINES T J , INGLIS S . Raman spectroscopic study of supported chromium(VI) oxide catalysts [J ] . Physical Chemistry Chemical Physics , 2003 , 5 ( 6 ): 1320 - 1328 .

WECKHUYSEN B M , WACHS I E , SCHOONHEYDT R A . Surface chemistry and spectroscopy of chromium in inorganic oxides [J ] . Chemical Reviews , 1996 , 96 ( 8 ): 3327 - 3349 .

WECKHUYSEN B M , SCHOONHEYDT R A , JEHNG J M , et al . Combined DRS-RS-EXAFS-XANES-TPR study of supported chromium catalysts [J ] . Journal of the Chemical Society , Faraday Transactions, 1995 , 91 ( 18 ): 3245 - 3253 .

YIM S D , NAM I S . Characteristics of chromium oxides supported on TiO 2 and Al 2 O 3 for the decomposition of perchloroethylene [J ] . Journal of Catalysis , 2004 , 221 ( 2 ): 601 - 611 .

FRIDMAN V Z , XING R , SEVERANCE M . Investigating the CrO x /Al 2 O 3 dehydrogenation catalyst model: I. Identification and stability evaluation of the Cr species on the fresh and equilibrated catalysts [J ] . Applied Catalysis A: General , 2016 , 523 : 39 - 53 .

DINES T J , INGLIS S . Raman spectroscopic study of supported chromium(VI) oxide catalysts [J ] . Physical Chemistry Chemical Physics , 2003 , 5 : 1320 - 1328 .

GROPPO E , LAMBERTI C , BORDIGA S , et al . The structure of active centers and the ethylene polymerization mechanism on the Cr/SiO 2 Catalyst: A frontier for the characterization methods [J ] . Chemical Reviews , 2005 , 105 ( 1 ): 115 - 184 .

VUURMAN M A , WACHS I E . In situ Raman spectroscopy of alumina-supported metal oxide catalysts [J ] . Journal of Physical Chemistry , 1992 , 96 : 5008 - 5016 .

SANTHOSH K M , HAMMER N , RONNING M , et al . The nature of active chromium species in Cr-catalysts for dehydrogenation of propane: New insights by a comprehensive spectroscopic study [J ] . Journal of Catalysis , 2009 , 261 ( 1 ): 116 - 128 .

WERTZ J E , COFFMAN R E . Thermoluminescent formation of Cr 2+ in magnesium oxide [J ] . Journal of Applied Physics , 1965 , 36 : 2959 - 2961 .

LUGO H J , LUNSFORD J H . The dehydrogenation of ethane over chromium catalysts [J ] . Journal of Catalysis , 1985 , 91 ( 1 ): 155 - 166 .

HAKULI A , KYTÖKIVI A , KRAUSE A O I , et al . Initial activity of reduced chromia/alumina catalyst in n -butane dehydrogenation monitored by on-line FT-IR gas analysis [J ] . Journal of Catalysis , 1996 , 161 : 393 - 400 .

WECKHUYSEN BERT M , VERBERCKMOES AN A , DEBAERE J , et al . In situ UV-Vis diffuse reflectance spectroscopy on line activity measurements of supported chromium oxide catalysts: Relating isobutane dehydrogenation activity with Cr-speciation via experimental design [J ] . Journal of Molecular Catalysis A: Chemical , 2000 , 151 : 115 - 131 .

MICHORCZYK P , OGONOWSKI J , ZEŃCZAK K . Activity of chromium oxide deposited on different silica supports in the dehydrogenation of propane with CO 2 —A comparative study [J ] . Journal of Molecular Catalysis A: Chemical , 2011 , 349 : 1 - 12 .

HE D D , ZHANG Y L , YANG S , et al . Investigation of the isolated Cr(VI) species in Cr/MCM-41 catalysts and its effect on catalytic activity for dehydrogenation of propane [J ] . ChemCatChem , 2018 , 10 ( 23 ): 5434 - 5440 .

DE ROSSI S , FERRARIS G , FREMIOTTI S , et al . Propane dehydrogenation on chromia/zirconia catalysts [J ] . Applied Catalysis A: General , 1992 , 81 : 113 - 132 .

DE ROSSI S , FERRARIS G , FREMIOTTI S , et al . Propane dehydrogenation on chromia/silica and chromia/alumina catalysts [J ] . Journal of Catalysis , 1994 , 148 : 36 - 46 .

KYTOKIVI A , JACOBS J P , HAKULI A , et al . Surface characteristics and activity of chromia/alumina catalysts prepared by atomic layer epitaxy [J ] . Journal of Catalysis , 1996 , 162 : 190 - 197 .

HAKULI A , KYTÖKIVI A , KRAUSE A O I . Dehydrogenation of i -butane on CrO x /Al 2 O 3 catalysts prepared by ALE and impregnation techniques [J ] . Applied Catalysis A: General , 2000 , 190 : 219 - 232 .

WECKHUYSEN B M , BENSALEM A , SCHOONHEYDT R A . In situ UV-Vis diffuse reflectance spectroscopy—On-line activity measurements signi-cance of Cr n + species ( n = 2, 3 and 6) in n -butane dehydrogenation catalyzed by supported chromium oxide catalysts [J ] . Journal of the Chemical Society, Faraday Transactions , 1998 , 94 ( 14 ): 2011 - 2014 .

PE’REZ-REINA F J , RODRIGUEZ-CASTELLON E , JIME’NEZ-LO’PEZ A . Dehydrogenation of propane over chromia-pillared zirconium phosphate catalysts [J ] . Langmuir , 1999 , 15 : 8421 - 8428 .

FRIDMAN V Z , XING R . Investigating the CrO x /Al 2 O 3 dehydrogenation catalyst model: II. Relative activity of the chromium species on the catalyst surface [J ] . Applied Catalysis A: General , 2017 , 530 : 154 - 165 .

CAVANI F , KOUTYREV M , TRIFIRO F , et al . Chemical and physical characterization of alumina-supported chromia-based catalysts and their activity in dehydrogenation of isobutane [J ] . Journal of Catalysis , 1996 , 158 : 236 - 250 .

EGOROVA S R , TUKTAROV R R , BORETSKAYA A V , et al . Stabilizing effect of α -Cr 2 O 3 on highly active phases and catalytic performance of a chromium alumina catalyst in the process of isobutane dehydrogenation [J ] . Molecular Catalysis , 2021 , 509 : 111610 .

NAZIMOV D A , KLIMOV O V , TRUKHAN S N , et al . The effect of transition alumina ( γ -, η -, χ -Al 2 O 3 ) on the activity and stability of chromia/alumina catalysts. Part I: Model catalysts and aging cond itions [J ] . Energy Technology , 2019 , 7 : 1800735 .

CIMINO A , CORDISCHI D , DE ROSSI S , et al . Studies on chromia/zirconia catalysts I. Preparation and characterization of the system [J ] . Journal of Catalysis , 1991 , 127 : 744 - 760 .

DE ROSSI S , CASALETTO M P , FERRARIS G , et al . Chromia/zirconia catalysts with Cr content exceeding the monolayer: A comparison with chromia/alumina and chromia/silica for isobutane dehydrogenation [J ] . Applied Catalysis A: General , 1998 , 167 : 257 - 270 .

ZHANG X Z , YUE Y H , GAO Z . Chromium oxide supported on mesoporous SBA-15 as propane dehydrogenation and oxidative dehydrogenation catalysts [J ] . Catalysis Letters , 2002 , 83 : 19 - 25 .

LI Y , ZHAO H B . A tandem system of Cr/HZSM-5 and bismuth-modified CeZrO 2 for coupling of ethane dehydrogenation to selective H 2 combustion [J ] . Fuel , 2025 , 400 : 135819 .

ZHANG Y Y , DAI Y , LI H S , et al . The fundamentals for efficient non-oxidative propane dehydrogenation over ZrO 2 -based catalysts [J ] . Accounts of Materials Research , 2025 , 6 ( 5 ): 589 - 599 .

NAZIMOV D A , KLIMOV O V , DANILOVA I G , et al . Effect of alumina polymorph on the dehydrogenation activity of supported chromia/alumina catalysts [J ] . Journal of Catalysis , 2020 , 391 : 35 - 47 .

VUURMAN M A , WACHS I E , STUFKENS D J , et al . Characterization of chromium oxide supported on Al 2 O 3 , ZrO 2 , TiO 2 , and SiO 2 under dehydrated conditions [J ] . Journal of Molecular Catalysis , 1993 , 80 : 209 - 227 .

JOZWIAK W K , IGNACZAK W , DOMINIAK D , et al . Thermal stability of bulk and silica supported chromium trioxide [J ] . Applied Catalysis A: General , 2004 , 258 : 33 - 45 .

SCIERKA S J , HOUALLA M , PROCTOR A , et al . Dispersion and coverage of Cr/Al 2 O 3 Catalysts [J ] . The Journal of Physical Chemistry , 1995 , 99 : 1537 - 1542 .

SPANOS N , SLAVOV S , KORDULIS C , et al . Mechanism of deposition of the CrO <math id="M11"><msubsup><mrow/><mrow><mn mathvariant="normal">4</mn></mrow><mrow><mn mathvariant="normal">2</mn><mo>-</mo></mrow></msubsup></math> https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517710&type= https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517686&type= 2.37066650 3.64066648 , HCrO <math id="M12"><msubsup><mrow/><mrow><mn mathvariant="normal">4</mn></mrow><mrow><mo>-</mo></mrow></msubsup></math> https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517688&type= https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517700&type= 1.10066664 3.64066648 , and Cr 2 O <math id="M13"><msubsup><mrow/><mrow><mn mathvariant="normal">7</mn></mrow><mrow><mn mathvariant="normal">2</mn><mo>-</mo></mrow></msubsup></math> https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517689&type= https://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=99517712&type= 2.37066650 3.64066648 ions on the γ -alumina surface [J ] . Langmuir , 1994 , 10 : 3134 - 3147 .

VUURMAN M A , STUFKENS D J , OSKAM A , et al . Raman spectra of chromium oxide species in CrO 3 /Al 2 O 3 catalysts [J ] . Journal of Molecular Catalysis , 1990 , 60 : 83 - 98 .

GROENEVELD C , WITTGEN P P M M , VAN KERSBERGEN A M , et al . Hydrogenation of olefins and polymerization of ethene over chromium oxide/silica catalysts: I. Preparation and structure of the catalyst [J ] . Journal of Catalysis , 1979 , 59 : 153 - 167 .

NAZIMOV D A , KLIMOV O V , SAIKO A V , et al . Effect of alumina surface chemistry on chromia dispersion and dehydrogenation activity of CrO x / η -Al 2 O 3 catalysts with high Cr content [J ] . Molecular Catalysis , 2022 , 521 : 112180 .

BORISEVICH A Y , WANG S , RASHKEEV S N , et al . Dual nanoparticle/substrate control of catalytic dehydrogenation [J ] . Advanced Materials , 2007 , 19 : 2129 - 2133 .

ZHAO H H , SONG H L , CHOU L J . Synthesis and catalytic application in isobutane dehydrogenation of the mesoporous chromia/alumina catalysts based on a metal-organic framework [J ] . Microporous and Mesoporous Materials , 2013 , 181 : 182 - 191 .

王嘉 , 彭冲 , 唐磊 , 等 . 渣油加氢催化剂活性相结构调控及对反应性能影响 [J ] . 化工进展 , 2023 , 42 ( 4 ): 1811 ⁃ 1821 .

WANG J , PENG C , TANG L , et al . Modification of the active phase structure of residue hydrogenation catalyst and its catalytic performance [J ] . Chemical Industry and Engineering Progress , 2023 , 42 ( 4 ): 1811 ⁃ 1821 .

季洪海 , 凌凤香 , 王少军 , 等 . 工业应用 γ -Al 2 O 3 载体表面酸性与微观结构的关系 [J ] . 石油炼制与化工 , 2015 , 46 ( 10 ): 17 - 21 .

JI H H , LING F X , WANG S J , et al . Relationship between surface acidity and microstructure of industrial γ -Al 2 O 3 [J ] . Petroleum Processing and Petrochemicals , 2015 , 46 ( 10 ): 17 - 21 .

SHI L , DENG G M , LI W C , et al . Al 2 O 3 nanosheets rich in pentacoordinate Al 3+ ions stabilize Pt-Sn clusters for propane dehydrogenation [J ] . Angewandte Chemie International Edition , 2015 , 127 : 14200 - 14204 .

DEWANGAN N , ASHOK J , SETHIA M , et al . Cobalt-based catalyst supported on different morphologies of alumina for non-oxidative propane dehydrogenation: Effect of metal support interaction and Lewis acidic sites [J ] . ChemCatChem , 2019 , 11 : 4923 - 4934 .

KIMA T H , GIMA M Y , SONGA J H , et al . Deactivation behavior of CrO y /Al 2 O 3 -ZrO 2 catalysts in the dehydrogenation of propane to propylene by lattice oxygen [J ] . Catalysis Communications , 2017 , 97 : 37 - 41 .

SIM S , GONG S , BAE J , et al . Chromium oxide supported on Zr modified alumina for stable and selective propane dehydrogenation in oxygen free moving bed process [J ] . Molecular Catalysis , 2017 , 436 : 164 - 173 .

GOLUBINA E V , KAPLIN I YU , GORODNOVA A V , et al . Non-oxidative propane dehydrogenation on CrO x -ZrO 2 -SiO 2 catalyst prepared by one-pot template-assisted method [J ] . Molecules , 2022 , 27 : 6095 .

ROMBI E , CUTRUFELLO M G , SOLINAS V , et al . Effects of potassium addition on the acidity and reducibility of chromia/alumina dehydrogenation catalysts [J ] . Applied Catalysis A: General , 2003 , 251 : 255 - 266 .

SINGH R , SINGH R , DEO G . Developing a supported metal oxide catalyst for direct dehydrogenation of propane to propene [J ] . Applied Catalysis A: General , 2025 , 703 : 120354 .

LIU D L , BAI P , WU P P , et al . Surface chemistry and catalytic performance of chromia/alumina catalysts derived from different potassium impregnation sequences [J ] . Applied Surface Science , 2015 , 351 : 250 - 259 .

FU H Y , QIAN W X , ZHANG H T , et al . Different alkali metals promoted Cr/Al 2 O 3 catalysts for propane dehydrogenation [J ] . Fuel , 2023 , 342 : 127774 .

KARAMI H , SOLTANALI S , AMANATI M , et al . The promotion effects of alkaline earth metals on the properties of Cr/ η -Al 2 O 3 catalysts for propane dehydrogenation [J ] . Journal of Saudi Chemical Society , 2024 , 28 : 101929 .

LI P P , LANG W Z , XIA K , et al . The promotion effects of Ni on the properties of Cr/Al catalysts for propane dehydrogenation reaction [J ] . Applied Catalysis A: General , 2016 , 522 : 172 - 179 .

ZHANG Y L , YANG S , LU J C , et al . Effect of a Ce promoter on nonoxidative dehydrogenation of propane over the commercial Cr/Al 2 O 3 catalyst [J ] . Industrial & Engineering Chemistry Research , 2019 , 58 : 19818 - 19824 .

ZHANG L , CHEN K Z , CHEN H R , et al . El ucidating the promoting advantages and fundamentals for their creation in Sn-modified commercial CrO x /Al 2 O 3 catalyst for propane dehydrogenation [J ] . Chemical Engineering Journal , 2024 , 483 : 149366 .

OTROSHCHENKO T P , RODEMERCK U , LINKE D , et al . Synergy effect between Zr and Cr active sites in binary CrZrO x or supported CrO x /LaZrO x : Consequences for catalyst activity, selectivity and durability in non-oxidative propane dehydrogenation [J ] . Journal of Catalysis , 2017 , 356 : 197 - 205 .

HAN S L , ZHAO Y , OTROSHCHENKO T , et al . Unraveling the origins of the synergy effect between ZrO 2 and CrO x in supported CrZrO x for propene formation in nonoxidative propane dehydrogenation [J ] . ACS Catalysis , 2020 , 10 ( 2 ): 1575 - 1590 .

LIU J , LIU Y , NI Y M , et al . Enhanced propane dehydrogenation to propylene over zinc-promoted chromium catalysts [J ] . Catalysis Science & Technology , 2020 , 10 : 1739 - 1746 .

OYEGOKE T , DABAI F N , WAZIRI S M , et al . Impact of Mo and W on CrXO 3 (X = Cr, Mo, W) catalytic performance in a propane non-oxidative dehydrogenation process [J ] . Kemija U Industriji-Journal of Chemists and Chemical Engineers , 2022 , 71 ( 9/10 ): 583 - 590 .

SALAEVA A A , SALAEV M A , MAMONTOV G V . Effect of Cu modifier on the performance of CrO x /Al 2 O 3 catalysts for isobutane dehydrogenation [J ] . Chemical Engineering Science , 2020 , 215 : 115462 .

GHAZIMORADI M , NAJAFI A M , KARAMI H , et al . Synergistic effects of cerium and zirconium as promoters on the performance of Cr/ η -Al 2 O 3 catalysts for propane dehydrogenation [J ] . Fuel , 2025 , 394 : 135148 .

MATHUR I , BAKHSHI N N , MATHEWS J F . Study of chromia alumia catalysts [J ] . Canadian Journal of Chemical Engineering , 1980 , 58 : 601 - 607 .

LANG W Z , HU C L , CHU L F , et al . Hydrothermally prepared chromia-alumina ( x Cr/Al 2 O 3 ) catalysts with hierarchical structure for propane dehydrogenation [J ] . RSC Advances , 2014 , 4 : 37107 .

胡昌龙 . 丙烷脱氢制丙烯含铬催化剂制备与催化性能的研究 [D ] . 上海 : 上海师范大学 , 2014 .

HU C L . Prepared Cr-based catalyst for dehydrogenation of propane to propene and its catalytic activity [D ] . Shanghai : Shanghai Normal University , 2014 .

HAKULI A , KYTÖKIVI A , KRAUSE A O I . Dehydrogenation of i -butane on CrO x /Al 2 O 3 catalysts prepared by ALE and impregnation techniques [J ] . Applied Catalysis A: General , 2000 , 190 : 219 - 232 .

GORRIZ O F , CADU’S L E . Supported chromium oxide catalysts using metal carboxylate complexes: Dehydrogenation of propane [J ] . Applied Catalysis A: General , 1999 , 180 : 247 - 260 .

潘淑倩 , 余金鹏 , 徐华胜 , 等 . 前驱试剂对铬系催化剂丙烷脱氢反应的影响 [J ] . 石油与天然气化工 , 2020 , 49 ( 4 ): 48 - 55 .

PAN S Q , YU J P , XU H S , et al . Effect of precursor nature on propane dehydrogenation of chromium catalyst [J ] . Chemical Engineering of Oil & Gas , 2020 , 49 ( 4 ): 48 - 55 .

张哲玮 , 杨双 , 黄子君 , 等 . 前驱体调控铬系催化剂活性位点并用于丙烷非氧化脱氢研究 [J ] . 现代化工 , 2021 , 41 ( 3 ): 125 - 129 .

ZHANG Z W , YANG S , HUANG Z J , et al . Control of active sites of chromium-based catalysts by adjusting precursor and application in non-oxidative dehydrogenation of propane [J ] . Modern Chemical Industry , 2021 , 41 ( 3 ): 125 - 129 .

AGAFONOV YU A , GAIDAI N A , LAPIDUS A L . Influence of the preparation conditions for catalysts CrO x /SiO 2 on their efficiency in propane dehydrogenation in the presence СО 2 [J ] . Russian Chemical Bulletin , 2014 , 63 ( 2 ): 381 - 388 .

WECKHUYSEN B M , SCHOONHEYDT R A . Olefin polymerization over supported chromium oxide catalysts [J ] . Catalysis Today , 1999 , 51 : 215 - 221 .

GAO X Q , LU W D , HU S Z , et al . Rod-shaped porous alumina-supported Cr 2 O 3 catalyst with low acidity for propane dehydrogenation [J ] . Chinese Journal of Catalysis , 2019 , 40 : 184 - 191 .

WECKHUYSEN B M , SCHOONHEYDT R A , MABBS F E , et al . Electron paramagnetic resonance of heterogeneous chromium catalysts [J ] . Journal of the Chemical Society, Faraday Transactions , 1996 , 92 : 2431 - 2436 .

CAI L L , ZHAO Y Z , TIAN X Y . Well-dispersed m onolayer CrO x /silicalite-1 catalysts for efficient propane dehydrogenation [J ] . Chemical Engineering Journal , 2024 , 494 : 152925 .

LI L N , ZHU W L , SHI L , et al . The effect of ethanol on the performance of CrO x /SiO 2 catalysts during propane dehydrogenation [J ] . Chinese Journal of Catalysis , 2016 , 37 : 359 - 366 .

GORRIZ O F , CORTES CORBERAN V , FIERRO J L G . Propane dehydrogenation and coke formation on chromia-alumina catalysts: Effect of reductive pretreatments [J ] . Industrial & Engineering Chemistry Research , 1992 , 31 : 2670 .

AIRAKSINEN S M K , HARLIN M E , KRAUSE A O I . Kinetic modeling of dehydrogenation of isobutane on chromia/alumina catalyst [J ] . Industrial & Engineering Chemistry Research , 2002 , 41 : 5619 .

AIRAKSINEN S M K , KRAUSE A O I . Effect of catalyst prereduction on the dehydrogenation of isobutane over chromia/alumina [J ] . Industrial & Engineering Chemistry Research , 2005 , 44 : 3862 - 3868 .

缪长喜 , 吴省 , 吴文海 , 等 . 预处理对Cr系脱氢催化剂性能的影响研究 [J ] . 复旦学报（自然科学版） , 2012 , 51 ( 5 ): 534 - 538 .

MIAO C X , WU X , WU W H , et al . Effects of different pretreatment conditions on chromia catalyst performance during hydrocarbon dehydrogenation reaction [J ] . Journal of Fudan University (Natural Science) , 2012 , 51 ( 5 ): 534 - 538 .