Search Results - "Semenov, Matvei E."

Promising Hydrate Formation Promoters Based on Sodium Sulfosuccinates of Polyols by Chirkova, Yulia F., Mirzakimov, Ulukbek Zh, Semenov, Matvei E., Pavelyev, Roman S., Varfolomeev, Mikhail A.

“…The use of natural gas as an energy source is increasing significantly due to its low greenhouse gas emissions. However, the common methods of natural gas…”
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Dual Promotion–Inhibition Effects of Novel Ethylenediaminetetraacetic Acid Bisamides on Methane Hydrate Formation for Gas Storage and Flow Assurance Applications by Pavelyev, Roman S, Gainullin, Shamil E, Semenov, Matvei E, Zaripova, Yulia F, Yarkovoi, Vladimir V, Luneva, Anna I, Farhadian, Abdolreza, Varfolomeev, Mikhail A

“…Surfactants have been reported as the most efficient gas hydrate promoters (GHPs) for gas storage and transportation; however, slow kinetics of nucleation and…”
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Molecular and experimental insights into the inhibition effects of chitosan biguanidine on the kinetic and agglomeration of gas hydrates by Chen, Zherui, Farhadian, Abdolreza, Shaabani, Alireza, Semenov, Matvei E., Chen, Cong

“…[Display omitted] •Chitosan biguanidine was synthesized and evaluated for its inhibitory effects on methane hydrate formation and agglomeration.•CSG…”
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Branched sulfonated promoter: Achieving high methane uptake and foam-free gas recovery for solidified gas storage by Sadeh, Elaheh, Farhadian, Abdolreza, Maddah, Mina, Semenov, Matvei E., Mohammadi, Abolfazl, Wang, Fei

“…[Display omitted] •Branched sulfonated promoter is a promising alternative to conventional surfactants.•BSP effectively influences hydrate quality, resulting…”
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NMR transverse relaxation times and phase equilibria of methane hydrate in mesoporous alumina by Manakov, Andrey Y., Shumskayte, Mariya Y., Mezin, Andrey A., Adamova, Tatiana P., Semenov, Matvei E., Stoporev, Andrey S.

“…•Methane hydrate formation from water adsorbed in the pores of alumina was studied.•Low-field NMR spin–spin relaxation time (T2) method was used.•No movement…”
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Novel Amino Acid Derivatives for Efficient Methane Solidification Storage via Clathrate Hydrates without Foam Formation by Gainullin, Shamil E., Farhadian, Abdolreza, Kazakova, Polina Y., Semenov, Matvei E., Chirkova, Yulia F., Heydari, Atousa, Pavelyev, Roman S., Varfolomeev, Mikhail A.

“…Although anionic surfactants are considered the most efficient kinetic gas hydrate promoters for gas storage applications, gas recovery and reuse of…”
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Xenon hydrate formation in water-in-oil emulsion: Investigation with the radiographic method by Manakov, Andrey Yu, Kuper, Konstantin E., Drobchik, Arkadi N., Sagidullin, Alexey K., Semenov, Matvei E., Stoporev, Andrey S.

“…•Xenon hydrate formation in water in oil emulsion was studied by radiographic method.•Hydrate formation follows two stages.•The first stage is the rapid growth…”
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Influence of kinetic promoters with different surface-active properties on methane and natural gas hydrate formation in porous media by Chirkova, Yulia F., Varfolomeev, Mikhail A., Zh. Mirzakimov, Ulukbek, Gainullin, Shamil E., Semenov, Matvei E., Stoporev, Andrey S., Pavelyev, Roman S.

“…•The difference in the promotion of hydrates of different types (sI, sII) was found.•The difference in the action for promoters with strong and weak surface…”
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High storage capacity and rapid methane hydrate formation using low concentrations of a new surfactant: A mimic of SDS and amino acid scaffold by Sadeh, Elaheh, Farhadian, Abdolreza, Maddah, Mina, Semenov, Matvei E., Son, Evgeniy R., Heydari, Atousa, Mirzakimov, Ulukbek Zh, Valiullin, Lenar R., Varfolomeev, Mikhail A.

“…The development of efficient, non-foaming promoters is essential for advancing the industrial applications of solidified gas hydrates in carbon capture,…”
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Efficient carbon dioxide capture using biodegradable surfactants in form of clathrate hydrate: New eco-friendly approach by Farhadian, Abdolreza, Semenov, Matvei E., Mohammadi, Abolfazl, Mirzakimov, Ulukbek Zh, Son, Evgenii R., Varfolomeev, Mikhail A.

“…CO2 hydrate formation kinetics are relatively slow, hindering large-scale implementation for carbon capture and storage. Amino acids have been widely…”
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Sulfonated Castor Oil as an Efficient Biosurfactant for Improving Methane Storage in Clathrate Hydrates by Farhadian, Abdolreza, Stoporev, Andrey S., Varfolomeev, Mikhail A., Zaripova, Yulia F., Yarkovoi, Vladimir V., Semenov, Matvei E., Kiiamov, Airat G., Pavelyev, Roman S., Aimaletdinov, Aleksandr M., Mohammad, Tharaa, Nurgaliev, Danis K.

“…High toxicity and huge foaming are two severe challenges for gas storage strategies based on promoting the gas hydrate formation using surfactants. The present…”
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Equilibrium conditions of the methane and natural gas hydrates formation in sodium bicarbonate solutions by Kalacheva, Liudmila P., Ivanova, Izabella K., Portnyagin, Albert S., Semenov, Matvei E., Ivanov, Viktor K., Bubnova, Alla R.

“…[Display omitted] Empirical correlations were obtained to calculate the equilibrium pressure of the methane and natural gas (the Srednevilyui gas and…”
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Carriers for Methane Hydrate Production: Cellulose-Based Materials as a Case Study by Gong, Yinghua, Semenov, Matvei E., Emelianov, Dmitrii A., Kiiamov, Airat G., Cherednichenko, Kirill A., Novikov, Andrei A., Semenov, Anton P., Li, Tianduo, Vinokurov, Vladimir, Stoporev, Andrey S.

“…Methane hydrate growth and decomposition in the cellulose-based materials containing water were studied. Cellulose microfibrils (CMFs) and their composite with…”
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Enhanced methane storage capacity in clathrate hydrate induced by novel biosurfactants: Kinetics, stability, in vivo, and biodegradation investigations by Mirzakimov, Ulukbek Zh, Farhadian, Abdolreza, Semenov, Matvei E., Pavelyev, Roman S., Heydari, Atousa, Chirkova, Yulia F., Varfolomeev, Mikhail A., Aimaletdinov, Aleksandr M., Valiullin, Lenar R.

“…Fast kinetics of gas hydrate growth, high storage capacity, high stability of hydrates formed, and no foam formation in the gas recovery stage are key factors…”
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Employing phosphorylated betaines as kinetic hydrate promoters for gas storage application by Chirkova, Yulia F., Davletshin, Rustam R., Gayneev, Aidar M., Mirzakimov, Ulukbek Zh, Semenov, Matvei E., Pavelyev, Roman S., Stoporev, Andrey S., Varfolomeev, Mikhail A.

“…[Display omitted] Pursuing an effective promoter of gas hydrate formation remains a relevant issue in the potential development of solidified natural gas…”
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Solidified Methane Storage Using an Efficient Class of Anionic Surfactants under Dynamic and Static Conditions: An Experimental and Computational Investigation by Farhadian, Abdolreza, Mirzakimov, Ulukbek Zh, Semenov, Matvei E., Maddah, Mina, Chirkova, Yulia F., Pavelyev, Roman S., Heydari, Atousa, Nazarychev, Sergei A., Aimaletdinov, Aleksandr M., Varfolomeev, Mikhail A.

“…Rapid hydrate formation and high storage capacity are two key parameters in commercializing hydrate-based solidified natural gas technology. Surfactants are…”
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