2023
DOI: 10.1016/j.est.2023.108802
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Enhanced methane storage capacity in clathrate hydrate induced by novel biosurfactants: Kinetics, stability, in vivo, and biodegradation investigations

Ulukbek Zh. Mirzakimov,
Abdolreza Farhadian,
Matvei E. Semenov
et al.
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Cited by 13 publications
(4 citation statements)
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“…Low concentrations of Hofmeister salts including NH 4 Cl, NaCl, and guanidinium chloride at 1 wt % showcased the promotion of methane hydrate formation at 273.2 K and 8 MPa with guanidinium chloride showcasing the highest promotion resulting in 72 mmol/(mol of gas) in about 120 min. 63 Mirzakimov et al 64 studied the effect of four different biosurfactants derived from castor oil on methane hydrate formation at 9 MPa and 274.2 K in a stirred tank reactor. A 500 ppm concentration was optimal, and three of the biosurfactants performed much better than SDS under similar experimental conditions.…”
Section: Dry Water and Dry Gel For Methane Hydratementioning
confidence: 99%
See 1 more Smart Citation
“…Low concentrations of Hofmeister salts including NH 4 Cl, NaCl, and guanidinium chloride at 1 wt % showcased the promotion of methane hydrate formation at 273.2 K and 8 MPa with guanidinium chloride showcasing the highest promotion resulting in 72 mmol/(mol of gas) in about 120 min. 63 Mirzakimov et al 64 studied the effect of four different biosurfactants derived from castor oil on methane hydrate formation at 9 MPa and 274.2 K in a stirred tank reactor. A 500 ppm concentration was optimal, and three of the biosurfactants performed much better than SDS under similar experimental conditions.…”
Section: Dry Water and Dry Gel For Methane Hydratementioning
confidence: 99%
“…Mirzakimov et al . studied the effect of four different biosurfactants derived from castor oil on methane hydrate formation at 9 MPa and 274.2 K in a stirred tank reactor.…”
Section: Methane Storage In Hydratesmentioning
confidence: 99%
“…Based on the advantages of mild formation conditions, high gas content, and safe storage and transportation [5,6], related scholars have proposed the safe storage and transportation of methane gas released via hydrate mining through hydration technology so as to alleviate energy tension [7][8][9][10][11][12]. However, there is a problem in the hydration process, namely, the mass transfer, which has long induction periods, slow formation rates, and high driving forces of hydrate formation [13].…”
Section: Introductionmentioning
confidence: 99%
“…Examples of these agents, known as bioclathrates, are sand, cellulose, coal, and wastes of vegetables [14][15][16][17][18][19][20][21][22][23][24][25]. Alternately, for the promotion of gas hydrates, biological or renewable additives (classified as biosurfactants) have also been tested, like those based on vegetable oils [26] or vegetable materials branched with sodium dodecyl sulfate [27], amino acids [28][29][30], organic amines [31,32], urea [31,33], and oligosaccharides such as dextrin [34,35]. The efficiency of the kinetic activity has been commonly contrasted against sodium dodecyl sulfate on the gas consumption, growth rate, or induction time [36,37].…”
Section: Introductionmentioning
confidence: 99%