Effect of Different Mesostructured Material Based on Silica (TiO2, SBA-15 and CAB-O-SIL) as Cobalt Supports for Fischer-tropsch Synthesis PDF Download
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Author: Mohamad Irsyad Mohamad Mazuki
Publisher:
ISBN:
Category : Catalysis
Languages : en
Pages : 43
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Book Description
The research was about the synthesis of active and selective for syngas processing via Fischer-Tropsch synthesis (FTS) producing clean and best fuel. A series of 20 wt. % cobalt catalysts be prepared by impregnation of a mesoporous molecular sieve based on silica as 75 wt. % of cobalt catalytic supporters (SBA-15, TiO and CabO-Sil) with 5 wt. % Zn promoter for comparison purposes. All materials used characterizing by several analysis equipments which are SEM, TGA and FTIR. The characterization results achieve gave a great influence of mesoporous support porosity on the structure, reducibility of cobalt oxide species supported over the selected materials. Firstly, the experiment was started from the synthesis of SBA-15. TiO2 and Cab-O-Sil are commercialized support. Then, the silica as cobalt supporters were synthesized by incipient wetness impregnation method of using mixture of Cobalt (II) Nitrate and Zinc Nitrate Hexahydrate solution. Next, the prepared catalysts were calcined at 350°C for 6 h by increasing the temperature at a controlled heating rate of 2°C/min. The characterization of catalysts and catalyst studies was performed. The result from experiment was SBA-15 supporter shown the better result compared to other samples as the microscopic size captured by SEM equipment prove that SBA-15 had smoothest and smallest of mesoporous surface size. The result from FTIR showed that the peak at around 3,440 cm-1 have the hydroxyl groups and about 1,630 cm -12 is due to the bending vibrations of O-H bonds that the percentage reflectance of O-H bonds which indicates the SBA-15 can effectively restrain the loss of surface hydroxyl groups during calcinations. The peak around 1000-1200 cm1 can be assigned to the siloxane or Si-O-Si stretching bands; peak appears as a broad and strong peaking the sample. Lastly, TGA result showed that SBA-15 can help the catalyst samples restrained more water content in the evaporation process and had high thermal stability that can prolong life at high temperature and high pressure in the Fischer-Tropsch synthesis. The new silica as cobalt supporter will be developed to enhance the performance of the best and clean fuel production. This research hopefully can be carried out successful in order to get the new invention for production of catalyst that will produce the best and clean fuel and to get rid of exceed cost of production but in the same quality of expensive product.
Author: Mohamad Irsyad Mohamad Mazuki
Publisher:
ISBN:
Category : Catalysis
Languages : en
Pages : 43
Get Book Here
Book Description
The research was about the synthesis of active and selective for syngas processing via Fischer-Tropsch synthesis (FTS) producing clean and best fuel. A series of 20 wt. % cobalt catalysts be prepared by impregnation of a mesoporous molecular sieve based on silica as 75 wt. % of cobalt catalytic supporters (SBA-15, TiO and CabO-Sil) with 5 wt. % Zn promoter for comparison purposes. All materials used characterizing by several analysis equipments which are SEM, TGA and FTIR. The characterization results achieve gave a great influence of mesoporous support porosity on the structure, reducibility of cobalt oxide species supported over the selected materials. Firstly, the experiment was started from the synthesis of SBA-15. TiO2 and Cab-O-Sil are commercialized support. Then, the silica as cobalt supporters were synthesized by incipient wetness impregnation method of using mixture of Cobalt (II) Nitrate and Zinc Nitrate Hexahydrate solution. Next, the prepared catalysts were calcined at 350°C for 6 h by increasing the temperature at a controlled heating rate of 2°C/min. The characterization of catalysts and catalyst studies was performed. The result from experiment was SBA-15 supporter shown the better result compared to other samples as the microscopic size captured by SEM equipment prove that SBA-15 had smoothest and smallest of mesoporous surface size. The result from FTIR showed that the peak at around 3,440 cm-1 have the hydroxyl groups and about 1,630 cm -12 is due to the bending vibrations of O-H bonds that the percentage reflectance of O-H bonds which indicates the SBA-15 can effectively restrain the loss of surface hydroxyl groups during calcinations. The peak around 1000-1200 cm1 can be assigned to the siloxane or Si-O-Si stretching bands; peak appears as a broad and strong peaking the sample. Lastly, TGA result showed that SBA-15 can help the catalyst samples restrained more water content in the evaporation process and had high thermal stability that can prolong life at high temperature and high pressure in the Fischer-Tropsch synthesis. The new silica as cobalt supporter will be developed to enhance the performance of the best and clean fuel production. This research hopefully can be carried out successful in order to get the new invention for production of catalyst that will produce the best and clean fuel and to get rid of exceed cost of production but in the same quality of expensive product.
Author: Mohamad Firdaus Mohamad Ghazali
Publisher:
ISBN:
Category : Catalysts
Languages : en
Pages : 38
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Book Description
This research about the synthesis and characterization cobalt supported TiO2 catalyst for Fischer-Tropsch synthesis (FTS) producing clean and best fuel. In variety of type of promoters, the effect is determined. The catalytic material will be prepared by impregnation of a mesoporous molecular sieve based on silica which is TiO2 as cobalt catalytic supporters and Zn/Zr/Mn as promoters for comparison purposes. All materials will be used characterizing by several physico-chemical techniques such as SEM, , TGA, FTIR. The catalytic and characterization results achieve give a great influence of mesoporous support porosity on the structure, reducibility and Fischer-Tropsch synthesis catalytic behavior of cobalt oxide species supported over these ordered materials. The size of supported cobalt oxide species formed during the calcination step increased with the average pore size (Dp) of the mesoporous support. Thus, the catalyst with larger Co oxide species located in wide pore silica showed to be easily reducible, more active and very selective toward the fuel fraction. The additional of promoters will be used to increase the performances of Fischer-Tropsch synthesis.
Author: Prasong Nakaew
Publisher:
ISBN:
Category : Cobalt
Languages : en
Pages : 208
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Book Description
Author: Jarkko Hukkamäki
Publisher:
ISBN: 9789524585323
Category :
Languages : en
Pages : 36
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Book Description
Author: Bing Zhou
Publisher: Springer Science & Business Media
ISBN: 0387346880
Category : Technology & Engineering
Languages : en
Pages : 342
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Book Description
This volume continues the tradition formed in Nanotechnology in Catalysis 1 and 2. As with those books, this one is based upon an ACS symposium. Some of the most illustrious names in heterogeneous catalysis are among the contributors. The book covers: Design, synthesis, and control of catalysts at nanoscale; understanding of catalytic reaction at nanometer scale; characterization of nanomaterials as catalysts; nanoparticle metal or metal oxides catalysts; nanomaterials as catalyst supports; new catalytic applications of nanomaterials.
Author: Anwaraporn Niltharach
Publisher:
ISBN:
Category : Catalysts supports
Languages : en
Pages : 368
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Book Description
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 381
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Book Description
La present tesis va consistir en el disseny de nous nanocatalitzadors de cobalt per a la reacció de Fischer-Tropsh (FT). Les nano partícules de Cobalt van ser sintetitzades utilitzant diferents metodologies: reducció química utilitzant borohidrur de sodi com agent reductor o, descomposició tèrmica de compostos organometàl·lics tals com Co2(CO)8. Les síntesis van ser realitzades en presència de polímers com agents estabilitzants. Després de la síntesis, les nano partícules de cobalt foren aïllades, caracteritzades (utilitzant TEM, HR-TEM, XRD, XPS, ICP, FTIR, TGA i RAMAN) i provades en la reacció de Fischer-Tropsch en fase aquosa. Amb la finalitat de comparar amb catalitzadors suportats clàssics, les nano partícules de cobalt van ser immobilitzades amb TiO2 i provades en FT utilitzant un reactor de llit fix. En aquest estudi es va observar que l'activitat i la selectivitat de les nanopartícules de cobalt en ambdós sistemes catalítics depenien altament de paràmetres tals com el mètode de síntesis, el polímer estabilitzant i la mida de partícula. Aquestes diferències van ser atribuïdes a variacions en l'estructura i composició de les nano partícules que alhora eren intrínseques de cada paràmetre d'estudi.
Author: Maria Zakharova
Publisher:
ISBN:
Category :
Languages : en
Pages : 191
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Book Description
Nowadays over 80% of the chemical industry is based on heterogeneous catalytic processes supplying us with energy, aliments, medicines, crop protection, and new commodities. Even though catalysis remains a strategic field of chemistry, the level of understanding of heterogeneous catalysis is still quite limited, especially when compared to that of homogeneous catalysis. In the present work, we try to expand the knowledge of heterogeneous catalytic systems based on functionalized hybrid mesoporous silica and probe them in different green chemistry processes, especially in relation to the capture and transformation of CO2. For CO2 capture, the well-known concept of frustrated Lewis pairs is translated on the surface of mesoporous silica, resulting in the synthesis of stable heterogenized Lewis acid-base pairs. Firstly, the synthesis of Al-, Ti-, Zr-SBA-15 mesoporous silica carrying very strong Lewis acidic character through the reaction of surface silanol groups with homogeneous metallic complexes is presented. The ability of these materials to catalyse the direct amidation of electron-poor and bulky amines supports the presence of highly active Lewis acidic metallic centers and their water-tolerance. Furthermore, the development of solid supported frustrated Lewis pairs (sFLPs) using Al-, Ti-, Zr-SBA-15 mesoporous silica is discussed. A series of conventional Lewis bases, such as diethylenetriamine, diphenylphosphine derivatives, triethylamine, and tetramethylpiperidine are grafted or impregnated on the surface of Ti-, Al-, Zr-SBA-15 to generate air-stable solid-supported Lewis acid-base pairs. The preservation of both Lewis acidic and basic properties after the solid Lewis acid-base pairs are formed is examined. Study of their interactions with CO2 is performed using solid state NMR spectroscopy and CO2 adsorption experiments, which provides a new insight in their applicability as solid CO2 adsorbents. A correlation between the solid supported Lewis acid-base pair strength and the affinity to CO2 is proposed based on the calculation of isosteric heat of adsorption. For CO2 transformation, the study of confinement effect in silica nanopores and its application in catalytic cycloaddition of carbon dioxide to epoxides is presented. The synthesis of hybrid mesoporous adsorbents of CO2 on the base of MCM-41 and SBA-15 silica is performed and the criteria for an efficient catalytic system are defined and optimised, providing a novel and very efficient heterogeneous catalyst, capable of performing the transformation of carbon dioxide at room temperature under an atmospheric pressure without any chemical pre-activation of starting materials.
Author: Bruce R. Outland
Publisher:
ISBN:
Category : Catalysts
Languages : en
Pages : 110
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Author: John Regalbuto
Publisher: CRC Press
ISBN: 1420006509
Category : Science
Languages : en
Pages : 490
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Book Description
This text explores the optimization of catalytic materials through traditional and novel methods of catalyst preparation, characterization, and monitoring for oxides, supported metals, zeolites, and heteropolyacids. It focuses on the synthesis of bulk materials and of heterogeneous materials, particularly at the nanoscale. The final chapters examine pretreatment, drying, finishing effects, and future applications involving catalyst preparation and the technological advances necessary for continued progress. Topics also include heat and mass transfer limitations, computation methods for predicting properties, and catalyst monitoring on laboratory and industrial scales.
