Synthesis of the Palladium Catalyst with the Supercritical СO2-Impregnation Method Realized in the Static Mode

Zakharov, A. A.; Jaddoa, Ameer Abed; Bilalov, T. R.; Гумеров, Ф. М.

doi:10.4236/ijamsc.2014.24010

Cited by 13 publications

(5 citation statements)

References 10 publications

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“…In many applications, however, the design limitation is the solubility of the substance in supercritical carbon dioxide. Therefore, the solubility data are essential both for the initial feasibility study and final process design [1][2][3][4][5][6]. The study focused on the following polar additives: Acetone, Ethanol, Methanol, Chloroform, and Dimethyl sulfoxide (DMSO).…”

Section: Convection Heat Transfer In a Porous Tube With Pure Comentioning

confidence: 99%

“…Therefore, the supercritical media being one of the important processes to avoid failure especially it contains many advantages such as no tension in the surface, no phase interaction, and no capillary influence. Also, these benefits lead to porous structure penetration as well as to heterogeneous catalytic regeneration and to avoid synthesis problems [1][2][3][4]. Moreover, supercritical fluids are considered as a way to increase the roughness of surfaces and analyze the free surface energy of the tissue when being not wet, and contact at high water higher than 15O [5].…”

Section: Introductionmentioning

confidence: 99%

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The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

J.Kkihlefa¹,

Jaddoa²,

Reja³

2021

ETJ

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Heat transfer coefficient was bigger about 4 times when using the porous media tube compared with the empty type in the case of using a 5% of acetone solvent.  High mass flow rate because of the sound effect of the thermophysical properties on the convection heat transfer.  Cellulose is containing from paper fibers and produced from recycling about 75 % to 85%.Porous media and solvent CO 2 at supercritical pressure were investigated experimentally to study the effect of convection heat transfer in vertical minitubes. Mini-tubes diameter (5 and 8 mm) with medium porosity of 0.5 are proposed in experimental investigation. Experimental conditions consisted of bulk fluid, wall temperatures ranged from 33 to 55 oC, and 8 to 10 MPa of pressure. Reynolds number, Mass flow rate, and heat flux were 1750 to 21000, 0.5 to 4.5 Kg/h, and 3.25×104 to 1.1×105 W/m2 respectively. Some chemical additives like Ethanol, Chloroform, Acetone, Dimethyl sulfoxide, and Methanol were considered. A special focus was dedicated to studying the influence of heat flux, inlet temperature, and mass flow rate at measured values of wall and fluid bulk temperatures, and coefficients of local heat transfer for mini-tubes and porous media. A higher effect was noticed on the convection heat transfer by buoyancy and properties of the thermophysical variable of solvent CO2 in minitube at vertical position. However, when these results were compared with the controls (empty tube) shoewn dramatically different results. Heat transfer coefficient was bigger about 4 times when using the porous media tube compared with the empty type in the case of using a 5% of acetone solvent.

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Section: Convection Heat Transfer In a Porous Tube With Pure Comentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

J.Kkihlefa¹,

Jaddoa²,

Reja³

2021

ETJ

View full text Add to dashboard Cite

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“…The processing of polymers [31], regeneration and synthesis of catalysts with CO 2 in a supercritical state [32] have become multimillion dollar businesses and the processing of waste from the chemical [33] and atomic energy industries [34] is an important environmental issue. The importance of the use of SFs in SFC, especially in isomer separation, is difficult to overestimate [1]- [8] [35].…”

Section: Discussionmentioning

confidence: 99%

Review: Discovering the Cluster World. Clusters’ Hidden Parameters Extraction from Thermophysical Data and The Wonders of Molecular Interactions. The Experimentally Based Molecular Interaction Features

Brondz¹

2016

IJAMSC

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Nowadays, physical chemistry is intensely discussing studies of macroscopic, atomic, subatomic, and particulate phenomena in chemical systems that are closely connected to clusters, clusters as host molecules for other guest molecules. The clusters as host molecules for other guest molecules could be described as adducts. Intermolecular forces, reaction kinetics and rates of reaction, surface chemistry and electrochemistry of membranes, the electrical conductivity of materials and the identity of ions, electrochemical cells, and many other phenomena depend on the presence and state of cluster molecules and adducts. This review discusses two popular books that give readers an introduction to the theory behind the subject. Together with this theory, several practical approaches for applications described in the above books are discussed and explained.

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“…These technologies permit to extract needed components from solid and liquid substances, including pharmaceutical products [8], plant products [9]- [11], technological waste products [12], nuclear waste materials [13]. They improve effectiveness of the polymerization processes [4] [12] and catalysts production [14]. In analytical methods SF technology improves the selectiveness of needed products [5]- [8].…”

Section: Introductionmentioning

confidence: 99%

Analytical Approach to Clusters in near Critical CO2

Sedunov¹,

Brondz²

2016

IJAMSC

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Clusters greatly influence thermophysical properties of near critical gases. The cluster structures of supercritical fluids in general and Carbon Dioxide especially are important for the advanced supercritical fluid technologies and analytics development. The paper extends to near critical densities the developed earlier methods to extract the clusters' properties from Online Electronic Database of NIST on thermophysical properties of fluids. This Database contains a hidden knowledge of cluster fractions' properties in real gases. The discovered earlier linear chain clusters dominate at intermediate densities. Their properties can be extrapolated to high density gases, thus opening the way to study large 3D clusters in near critical zone. The potential energy density of a gas, cleared from the chain clusters' contribution, reflects only the 3D clusters' characteristics. A series expansion of this value by the Monomer Fraction density discovers properties of n-particle 3D clusters. The paper demonstrates a discrete row of 3D clusters' particle numbers and gives estimations for bond energies of these clusters.

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Synthesis of the Palladium Catalyst with the Supercritical СO2-Impregnation Method Realized in the Static Mode

Cited by 13 publications

References 10 publications

The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

Review: <i>Discovering the Cluster World. Clusters’ Hidden Parameters Extraction from Thermophysical Data</i> and <i>The Wonders of Molecular Interactions. The Experimentally Based Molecular Interaction Features</i>

Analytical Approach to Clusters in near Critical CO<sub>2</sub>

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Synthesis of the Palladium Catalyst with the Supercritical СO2-Impregnation Method Realized in the Static Mode

Cited by 13 publications

References 10 publications

The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

The Influence of Convection Heat Transfers for Vertical Mini-Tubes Using Solvent Carbon Dioxide and Porous Media at Supercritical Pressure

Review: &lt;i&gt;Discovering the Cluster World. Clusters’ Hidden Parameters Extraction from Thermophysical Data&lt;/i&gt; and &lt;i&gt;The Wonders of Molecular Interactions. The Experimentally Based Molecular Interaction Features&lt;/i&gt;

Analytical Approach to Clusters in near Critical CO&lt;sub&gt;2&lt;/sub&gt;

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Product

Resources

About

Review: <i>Discovering the Cluster World. Clusters’ Hidden Parameters Extraction from Thermophysical Data</i> and <i>The Wonders of Molecular Interactions. The Experimentally Based Molecular Interaction Features</i>

Analytical Approach to Clusters in near Critical CO<sub>2</sub>