Single Pellet String Reactor for Intensification of Catalyst Testing in Gas/Liquid/Solid Configuration

Hipolito, A.I.; Rolland, Matthieu; Boyer, Claudine; Bellefon, Claude de

doi:10.2516/ogst/2009079

Cited by 31 publications

(20 citation statements)

References 17 publications

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“…In this geometry, the reactor diameter is close to the particle one (tube diameter/particle diameter \1.2) and the ratio between a reactor length and its diameter is very large [13]. Channeling and wall effects often occurred in fix bed reactors but were not observed in the SPSR configuration [12]. The small diameter of SPSR allows obtaining high flow superficial velocities, close to the industrial ones.…”

Section: Introductionmentioning

confidence: 95%

“…This is problematic for quick reactions, where the reaction rate is faster than the mass transfer flux that arrives from the bulk liquid or gas to the catalytic sites in the particle [9]. An elegant way to circumvent these difficulties was suggested by Scott et al [13] and later by Hippolito group [9,12,13]: large spherical porous pellets are in reactor tube stacked in a column on each other. Such a configuration was called single-pellet-string reactor (SPSR) [13].…”

Section: Introductionmentioning

confidence: 99%

“…Despite the obvious benefits of SPSR, these laboratory reactors are not commonly used for laboratory catalysts testing and only a few works describing their use were published, e.g. for the fast hydrogenation of allene [12], hydrogenation of cinnamaldehyde [14], hydrogenation of alphamethylstyrene [15] and hydrodesulfurized heavy gas oil fractions [10,11].…”

Section: Introductionmentioning

confidence: 99%

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Advantage of the single pellet string reactor for testing real-size industrial pellets of potassium-doped CoMnAl catalyst for the decomposition of N2O

Klyushina

Pacultová

Obalová

2015

Reac Kinet Mech Cat

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Two tubular laboratory reactors, the single pellet string reactor (i.d. = 0.55 cm) and the fixed bed reactor (i.d. = 5 cm) were compared on the basis of laboratory experiments of N 2 O catalytic decomposition and measurements of residence time distribution curves. K/Co 4 MnAlO x mixed oxide in the form of cylinders (5.1 mm 9 5.1 mm) was used as a catalyst. The influence of external diffusion, deviation from plug flow and influence of axial dispersion on N 2 O conversion obtained in both reactors were discussed. The influence of macroscopic phenomena on the rate of catalytic reaction was significantly lower in the single pellet string reactor, which predetermined it as a suitable laboratory reactor for testing of real-size industrial catalysts. Experimentally obtained results were confirmed by mathematical modeling.Keywords Single pellet string reactor Á Fixed bed reactor Á External diffusion Á Axial dispersion Á Peclet number Á RTD List of symbolsKnudsen diffusivity (m 2 s -1 ) D ij Binary diffusion coefficient of molecular diffusivity (m 2 s -1 )

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Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Advantage of the single pellet string reactor for testing real-size industrial pellets of potassium-doped CoMnAl catalyst for the decomposition of N2O

Klyushina

Pacultová

Obalová

2015

Reac Kinet Mech Cat

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“…Zum Einfluss der Betriebsbedingungen auf die erzielbare Stoffumwandlung, d. h. die Reaktorleistung, werden in der Fachliteratur widersprüchliche Abhängigkeiten berichtet. So wurde durch einen erhöhten Druck im Reaktor eine Erhöhung des Umsatzes [9], ein konstanter Umsatz [10] sowie ein steigender und fallender Umsatz bewirkt [20]. Jedoch beobachteten Tadepalli et al [20] einen gegenläufigen Trend.…”

Section: Introductionunclassified

“…Verweilzeit im ReaktorDie Verweilzeit der flüssigen Phase im Reaktor bestimmt die Kontaktzeit mit dem heterogenen Katalysator und damit die erzielbaren Umsätze am Reaktorausgang. Für Festbettreaktoren korreliert der Stoffübergangskoeffizient mit der Strömungsgeschwindigkeit zur Potenz 2/3[10]. Im Filmströmungsregime strömt die Flüssigkeit größtenteils schwerkraftgetrieben und verhältnismäßig langsam über die Katalysatorpartikel.…”

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Hydrodynamics and Mass Transfer in a Pellet String Reactor for Gas‐Liquid‐Solid Reactions

Langsch

Haase

Lange

2013

Chemie Ingenieur Technik

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In dieser Arbeit wurden die Hydrodynamik einer Gas/Flüssig-Zweiphasenströmung und erzielbare Stofftransportraten in einem Perlschnurreaktor charakterisiert. Die Katalysatorpackung im Reaktor besteht aus runden Kanälen mit einem Kanaldurchmesser von 1,41 mm, in die kugelförmige Katalysatorpartikel mit einem Durchmesser von 0,8 mm integriert sind. Bei gleichzeitig ablaufender Reaktion (Flüssigphasenhydrierung von a-Methylstyrol) konnten volumetrische Gesamtstoffdurchgangskoeffizienten für Wasserstoff zwischen 0,8 und 5,5 s -1 ermittelt werden. Aufgrund der hohen erzielbaren Stofftransportraten und des einfachen Aufbaus können Perlschnurreaktoren schnell in der Industrie implementiert werden und tragen zur Generierung hocheffizienter Reaktionsapparate bei.In this work, a pellet string reactor was characterized with respect to hydrodynamics and mass transfer. The catalyst packing consists of a cylindrical channel with a diameter of 1.41 mm, which was filled with spherical catalyst particles, having an outer diameter of 0.8 mm. Under reaction conditions (liquid phase hydrogenation of a-methylstyrene) overall (gasliquid-solid) volumetric mass transfer coefficients for hydrogen between 0.8 and 5.5 s -1 were computed. Due to high mass transfer rates and simple reactor geometry, pellet string reactors can be applied in industry as highly efficient reaction units. Abbildung 3. Strömungskarte für den untersuchten Perlschnurreaktor (d K = 1,5 mm, d P = 0,8 mm, p = 1,1 MPa, T = 298,15 K, w AMS = 0,2, Stickstoff).Abbildung 4. Scheinbare kinetische Konstanten bei verschiedenen Reaktionstemperaturen im untersuchten Perlschnurreaktor (u G,S = 1,18 m s -1 , u L,S = 0,05 m s -1 ).

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Three‐phase fixed‐bed reactors

Iliuta

Larachi

2016

Multiphase Catalytic Reactors

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Single Pellet String Reactor for Intensification of Catalyst Testing in Gas/Liquid/Solid Configuration

Cited by 31 publications

References 17 publications

Advantage of the single pellet string reactor for testing real-size industrial pellets of potassium-doped CoMnAl catalyst for the decomposition of N2O

Advantage of the single pellet string reactor for testing real-size industrial pellets of potassium-doped CoMnAl catalyst for the decomposition of N2O

Hydrodynamics and Mass Transfer in a Pellet String Reactor for Gas‐Liquid‐Solid Reactions

Three‐phase fixed‐bed reactors

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