Exfoliated graphite as a heat-conductive frame for a new pelletized Fischer–Tropsch synthesis catalyst

Asalieva, E. Yu.; Синева, Л. В.; Sinichkina, Svetlana; Соломоник, И. Г.; Gryaznov, K. O.; Pushina, Ekaterina A.; Kulchakovskaya, Ekaterina V.; Gorshkov, A. S.; Kulnitskiy, B.A.; Ovsyannikov, D. A.; Zholudev, S. I.

doi:10.1016/j.apcata.2020.117639

Cited by 20 publications

(4 citation statements)

References 27 publications

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“…Приготовление катализатора В настоящей работе был испытан катализатор, который был приготовлен в соответствии с методикой, описанной в [15]. Носитель представляет собой гранулы пористого композитного материала, состоящего из цеолита HBeta (ZEOLYST), связующего -бемита (SASOL) и теплопроводящей добавки -терморасширенного графита (ТРГ, АО УНИХИМТЕК).…”

Section: сканирующая электронная микроскопияunclassified

“…Такая углеродная оболочка может быть свидетельством локальных перегревов в грануле катализатора. Это не противоречит заявленному высокому коэффициенту теплопроводности гранулы катализатора, который составляет 8,99 Вт/(м×К) по сравнению с классическим алюмооксидным катализатором СФТ -0,25 Вт/(м•К) [15]. В данном случае наблюдаемый эффект связан с тем, что данная гранула была взята из лобового слоя, области контакта свежего синтез-газа с гранулами катализатора, в котором выделение тепла реакции СФТ максимально.…”

Section: ресурсные испытанияunclassified

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Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

2022

Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol.

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In this work, several ways to decrease the deactivation degree were proposed. To prevent local overheating, exfoliated graphite was used as a heat-conductive additive in catalyst composition. To decrease the deposition of heavy waxes, H-Beta zeolite was used for secondary reactions intensification and decreasing hydrocarbons chain length in the product. In this work, pelletized zeolite-containing cobalt catalyst with exfoliated graphite as a heat-conductive additive was investigated. The test run was 2200 h long and included continuous synthesis in a 6-meter high pilot reactor. The deactivation degree after 2200 h of the test run was 13%. The investigation of catalyst samples after synthesis by means of scanning electron microscopy showed that heavy hydrocarbons did not block the pore structure of catalytic pellets. Deactivation of cobalt catalyst was decelerated seriously due to zeolite-induced decrease in molecular weight of formed hydrocarbons. Investigation of catalysts before and after the test by means of transmission electron microscopy and X-ray diffraction analysis showed an increase in the size of clusters by 3–5 times, which is another important cause for catalyst deactivation. As a result, it was found that investigated cobalt catalyst for Fisher–Tropsch synthesis has a low deactivation rate. Its implementation in the industry can help gaining better economic performance for the synthetic fuel production process.

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Section: сканирующая электронная микроскопияunclassified

Section: ресурсные испытанияunclassified

Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

2022

Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol.

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“…In a number of studies, attempts were made to obtain Co-catalysts with high thermal conductivity. [9][10][11][12][13][14] The porous structure of the catalyst is essential for efficient mass transfer. A number of studies are aimed at developing catalysts with an optimal porous structure.…”

Section: Introductionmentioning

confidence: 99%

CoZr nanocomposites in a ceramic–metal AlO_x(OH)_y/Al matrix with a different Co/Zr ratio and its potential for syngas processing

Dokuchits,

Tikhov,

Valeev

et al. 2024

Dalton Trans.

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“…A promising approach involves the use of carbon materials or carbon/ceramic composites as supports for FT catalysts since they can offer distinct advantages compared with oxides materials, such as higher resistance to acidic or basic media, higher thermal stability, lower metal-support interactions and higher metal-supported reducibility [7]. In addition to this, the high thermal conductivity of carbon materials has evidenced to favor the catalyst heat-transfer properties during the highly exothermic FTS reaction [7][8][9]. Different carbon-based materials have been widely used as supports for cobalt-based FT catalysts, such as activated carbons (Co/AC) [10][11][12][13][14], carbon nanotubes and nanofibers (Co/CNT and Co/CNF) [5,12,[15][16][17], carbon spheres (Co/CS) [18], ordered mesoporous carbons (Co/CMK-3) [18,19] etc., and carbon/ceramic composites, such as Co/C-mesoHZSM-5 [20], Co/C-SiO 2 [21], Co/C-TiO 2 [22] and, most recently, Metal Organic Frameworks (MOFs) derived catalysts via the MOF-mediated synthesis route (Co@C) [23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Fischer-Tropsch synthesis over lignin-derived cobalt-containing porous carbon fiber catalysts

Valero-Romero

García-Mateos²,

Kapteijn³

et al. 2023

Applied Catalysis B: Environmental

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Exfoliated graphite as a heat-conductive frame for a new pelletized Fischer–Tropsch synthesis catalyst

Cited by 20 publications

References 27 publications

Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

CoZr nanocomposites in a ceramic–metal AlO_x(OH)_y/Al matrix with a different Co/Zr ratio and its potential for syngas processing

Fischer-Tropsch synthesis over lignin-derived cobalt-containing porous carbon fiber catalysts

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Exfoliated graphite as a heat-conductive frame for a new pelletized Fischer–Tropsch synthesis catalyst

Cited by 20 publications

References 27 publications

Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

Deactivation Behaviour of Bifunctional Cobalt Fisher–tropsch Catalyst in Long-Run Test

CoZr nanocomposites in a ceramic–metal AlOx(OH)y/Al matrix with a different Co/Zr ratio and its potential for syngas processing

Fischer-Tropsch synthesis over lignin-derived cobalt-containing porous carbon fiber catalysts

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Product

Resources

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CoZr nanocomposites in a ceramic–metal AlO_x(OH)_y/Al matrix with a different Co/Zr ratio and its potential for syngas processing