Interaction Features of Sodium Oleate and Oxyethylated Phosphoric Acid Esters with the Apatite Surface

Сергеев, В. В.; Черемисина, О. В.; Федоров, А. Т.; Gorbacheva, Alexandra A.; Balandinsky, Daniil A.

doi:10.1021/acsomega.1c06047

Cited by 9 publications

(2 citation statements)

References 37 publications

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“…Regarding the apparatus design process, the simplest and most common method used in the industry is the batch reactor of ideal mixing, which is a vessel with a heating element [62,63] and a stirring device [54,64]. Continuous reactors are also widely used in industry-flow-through apparatuses that enable a constant supply of reagents and product withdrawal [64][65][66]. A promising direction for improving reactor design is the development and introduction of membrane reactors that combine the chemical conversion process with a membrane separation process for adding reactants or removing reaction products [67].…”

Section: Introductionmentioning

confidence: 99%

The Physicochemical Basis for the Production of Rapeseed Oil Fatty Acid Esters in a Plug Flow Reactor

Kosolapova,

Smal,

Pyagay

et al. 2024

Processes

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This article describes the results of a comprehensive comparative study of the production of fatty acid ethyl esters (FAEEs) for use as biodiesel in perfect mixing reactors (PMRs) and plug flow reactors (PFRs). The products obtained on a laboratory scale at all stages of the separation and purification of the FAEE phase were analyzed using the FTIR, XRF and GC-MS methods. We compared distillation methods for the separation of stoichiometrically excessive ethanol from the reaction mixture. Neutralization methods with H2SO4 solution and carbonation with CO2 were applied for FAEE phase purification from the catalyst. Emulsions formed during the water flushing stage were analyzed via the optical microscopy method. The optimal conditions of stirring speed and temperature were selected to maintain a high level of FAEE–water phase contact area with minimum phase separation time. The efficiency of the carbonation method for catalyst neutralization in the FAEE phase has been proven, allowing us to consider this method as an alternative to the traditional acid neutralization method. According to the results of experimental studies, we have developed a new high-performance technological scheme for the production of fatty acid esters in PFRs. The synthesis of FAEEs in a stoichiometric excess of ethanol of about 1:50 allowed us to increase the reaction rate and productivity of the synthesis unit after the transition from a PMR to a PFR. The yield of the product amounted to 86.7%. The purified FAEE fraction complied with most EN14214 specifications.

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Section: Introductionmentioning

confidence: 99%

The Physicochemical Basis for the Production of Rapeseed Oil Fatty Acid Esters in a Plug Flow Reactor

Kosolapova,

Smal,

Pyagay

et al. 2024

Processes

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show abstract

“…(Bandosz et al, 1996;Behera et al, 2008;Delgado et al, 2015) The process of sorption on carbon materials is complex, since many factors, such as speci c surface area, pore size, surface homogeneity, etc. will affect the kinetics and thermodynamics of the process (Baran et al, 2014;Sergeev et al, 2022;Takanohashi et al, 2000a).…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic studу of ethyl alcohol sorption on activated petroleum coke

Tsareva,

Poltoratckaya,

Litvinova

et al. 2023

Preprint

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The low-quality petcoke do not find qualified application and is stockpiled at refineries or used as solid fuel. One of the promising uses of low-quality petroleum coke is its physical or chemical activation in order to obtain a highly porous carbon material that can be used as a catalyst carrier, adsorbent, the basis for capacitive electrodes etc. In this work the possibility of using petroleum coke to produce sorbent for organic compounds was studied. The activated petroleum cake was obtained by chemical activation with KOH, and had a specific surface area of 1218 m2/g. Sorption of ethyl alcohol was studied at temperatures 285, 293, and 300 K. It is a physical process, proceeds mainly in pores of activated petroleum coke. Sorption can be described as a reversible exothermic process. The effective Gibbs energy at a temperature of 293 K is -2.75 kJ/mol. The heat of sorption is -25.65 kJ/mol. The obtained data confirm that porous carbon material obtained from petroleum coke can be used as sorbent for ethanol at room temperature. For example, for adsorption of bioethanol from the effluent of the fermentation process or for purification of wastewater from organic compounds.

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Synergistic effect of a mixture of ethoxyphosphoric esters and sodium oleate in aqueous solutions

Cheremisina,

Gorbacheva,

Balandinsky

et al. 2024

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Interaction Features of Sodium Oleate and Oxyethylated Phosphoric Acid Esters with the Apatite Surface

Cited by 9 publications

References 37 publications

The Physicochemical Basis for the Production of Rapeseed Oil Fatty Acid Esters in a Plug Flow Reactor

The Physicochemical Basis for the Production of Rapeseed Oil Fatty Acid Esters in a Plug Flow Reactor

Thermodynamic studу of ethyl alcohol sorption on activated petroleum coke

Synergistic effect of a mixture of ethoxyphosphoric esters and sodium oleate in aqueous solutions

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