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Indeed, as oilfields mature, they produce increasing quantities of water that can lead to hydrate nucleation, growth and agglomeration, and potentially cause pipeline blockage.",[],{"_key":1304,"_type":13,"children":1305,"markDefs":1326,"style":21},"6adac5e6642d",[1306,1310,1314,1318,1322],{"_key":1307,"_type":17,"marks":1308,"text":1309},"747a5e2c2db60",[],"There exist several ways to ",{"_key":1311,"_type":17,"marks":1312,"text":1313},"747a5e2c2db61",[126],"mitigate this problem",{"_key":1315,"_type":17,"marks":1316,"text":1317},"747a5e2c2db62",[],": Either via thermodynamic inhibitors, which ensure that the temperature and pressure conditions that favor hydrate formation lie outside of the operation range, or via low-dosage inhibitors, which either delay hydrate nucleation (“kinetic inhibitors”) or prevent the agglomeration of small hydrate particles into larger blockages (“anti-agglomerants (AAs)”). These AAs are typically ",{"_key":1319,"_type":17,"marks":1320,"text":1321},"747a5e2c2db63",[126],"amphiphilic surfactants",{"_key":1323,"_type":17,"marks":1324,"text":1325},"747a5e2c2db64",[]," containing a polar headgroup and a nonpolar tail.",[],{"_key":1328,"_type":13,"children":1329,"markDefs":1365,"style":21},"9587ff9717c3",[1330,1334,1338,1342,1346,1350,1354,1358,1362],{"_key":1331,"_type":17,"marks":1332,"text":1333},"19a1db37a7500",[],"Since 2019, Nextmol has been working on computational solutions to ",{"_key":1335,"_type":17,"marks":1336,"text":1337},"19a1db37a7501",[126],"accelerate the development of new AAs",{"_key":1339,"_type":17,"marks":1340,"text":1341},"19a1db37a7502",[],". To this end, we exploit various computational techniques, amongst others ",{"_key":1343,"_type":17,"marks":1344,"text":1345},"19a1db37a7503",[126],"Machine Learning (ML) and Molecular Dynamics (MD)",{"_key":1347,"_type":17,"marks":1348,"text":1349},"19a1db37a7504",[],", to study the fundamental properties of the AAs, their interaction with the hydrate surface and how they can inhibit the agglomeration of hydrate particles, and perform ",{"_key":1351,"_type":17,"marks":1352,"text":1353},"19a1db37a7505",[126],"High-Throughput screenings",{"_key":1355,"_type":17,"marks":1356,"text":1357},"19a1db37a7506",[]," to identify new ",{"_key":1359,"_type":17,"marks":1360,"text":1361},"19a1db37a7507",[126],"molecules with enhanced properties",{"_key":1363,"_type":17,"marks":1364,"text":1212},"19a1db37a7508",[],[],{"_key":1367,"_type":13,"children":1368,"markDefs":1397,"style":21},"f73e4c98cc3d",[1369,1373,1377,1381,1385,1389,1393],{"_key":1370,"_type":17,"marks":1371,"text":1372},"7948c2f2e2da0",[],"A particular characteristic of a hydrate crystal is that even below the melting point its ",{"_key":1374,"_type":17,"marks":1375,"text":1376},"7948c2f2e2da1",[126],"surface is covered by a small film of liquid water",{"_key":1378,"_type":17,"marks":1379,"text":1380},"7948c2f2e2da2",[]," (a phenomenon called “premelting”), whose thickness depends on the subcooling (i.e. the temperature gap with respect to the melting point). In the context of flow assurance, this ",{"_key":1382,"_type":17,"marks":1383,"text":1384},"7948c2f2e2da3",[126],"liquid layer plays an important role",{"_key":1386,"_type":17,"marks":1387,"text":1388},"7948c2f2e2da4",[]," in the interaction between hydrate particles and pipe walls or between hydrate particles themselves by enabling the formation of a capillary bridge, which is one of the ",{"_key":1390,"_type":17,"marks":1391,"text":1392},"7948c2f2e2da5",[126],"dominant mechanisms of the hydrate agglomeration ",{"_key":1394,"_type":17,"marks":1395,"text":1396},"7948c2f2e2da6",[],"process. However, despite this importance, the liquid layer is often not included in the computational models or it is set up quite arbitrarily.",[],{"_key":1399,"_type":13,"children":1400,"markDefs":1428,"style":21},"6213752259cc",[1401,1405,1409,1413,1417,1421,1425],{"_key":1402,"_type":17,"marks":1403,"text":1404},"f797e3b7d8d90",[],"The shed light upon the behavior of this liquid layer and how it affects the performance of AAs, researches from Nextmol, in collaboration with our client Clariant Oil Services and Clariant Produkte (Deutschland) GmbH, have performed MD simulations to ",{"_key":1406,"_type":17,"marks":1407,"text":1408},"f797e3b7d8d91",[126],"study the adsorption of 10 AAs",{"_key":1410,"_type":17,"marks":1411,"text":1412},"f797e3b7d8d92",[]," onto a mixed methane–propane sII hydrate surface covered by layers of liquid water of various thickness. As a general trend, it was found that ",{"_key":1414,"_type":17,"marks":1415,"text":1416},"f797e3b7d8d93",[126],"the more liquid water is present on the hydrate surface, the less favorable the adsorption becomes",{"_key":1418,"_type":17,"marks":1419,"text":1420},"f797e3b7d8d94",[],". However, there are considerable differences between the individual molecules, indicating that ",{"_key":1422,"_type":17,"marks":1423,"text":1424},"f797e3b7d8d95",[126],"the presence and thickness of this liquid water layer are crucial parameters for AA adsorption 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db6944fb876920e33f36402bdbef554b3867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we found that there exists an optimal thickness of the liquid water layer favoring hydrate growth due to the presence of both liquid water and hydrate-forming guest molecules. For all other cases of liquid water layer thickness, hydrate growth is slower due to the limited availability of hydrate-forming guests close to the hydrate formation front. Finally, we investigated the connection between the thickness of the liquid water layer and the degree of subcooling and found a ",{"_key":1469,"_type":17,"marks":1470,"text":1471},"0c1189121f171",[126],"very good agreement between our MD simulations and theoretical predictions and experimental measurements",{"_key":1473,"_type":17,"marks":1474,"text":1212},"0c1189121f172",[],[],{"_key":1477,"_type":13,"children":1478,"markDefs":1490,"style":21},"28ccc3250540",[1479,1483,1487],{"_key":1480,"_type":17,"marks":1481,"text":1482},"85e58bf2ba6c0",[],"To summarize, our study indicates that neglecting the liquid layer represents a severe bias and can lead to wrong conclusions. A careful determination of the liquid water layer under the given conditions and its integration into the simulation setup is, therefore, highly advisable. Our study gives indications on how the liquid layer should be set up and, consequently, represents an",{"_key":1484,"_type":17,"marks":1485,"text":1486},"85e58bf2ba6c1",[126]," important reference for future studies concerning simulations of gas hydrates",{"_key":1488,"_type":17,"marks":1489,"text":1212},"85e58bf2ba6c2",[],[],{"_key":1492,"_type":13,"children":1493,"markDefs":1521,"style":21},"846f5646a73e",[1494,1498,1502,1506,1510,1514,1518],{"_key":1495,"_type":17,"marks":1496,"text":1497},"ed874dfc4b6a0",[],"All of these valuable insights could be obtained thanks to the ",{"_key":1499,"_type":17,"marks":1500,"text":1501},"ed874dfc4b6a1",[126],"atomistic resolution of our MD approach",{"_key":1503,"_type":17,"marks":1504,"text":1505},"ed874dfc4b6a2",[]," that allows to easily set up any model of interest and model it under and the thermodynamic conditions of interest. Moreover, the execution of the overall 70 simulation setups was facilitated via a High-Throughput approach that allows to execute a large number of simulations in an ",{"_key":1507,"_type":17,"marks":1508,"text":1509},"ed874dfc4b6a3",[126],"automated way",{"_key":1511,"_type":17,"marks":1512,"text":1513},"ed874dfc4b6a4",[]," and with only minimal human interaction. With a purely experimental approach, such a systematic investigation would hardly be possible and, in any case, be very time consuming and costly. This underlies the ",{"_key":1515,"_type":17,"marks":1516,"text":1517},"ed874dfc4b6a5",[126],"added value that Computational Chemistry can bring to R&D activities",{"_key":1519,"_type":17,"marks":1520,"text":1212},"ed874dfc4b6a6",[],[],{"_key":1523,"_type":13,"children":1524,"markDefs":1547,"style":21},"90aaa5f415cb",[1525,1529,1534,1538,1543],{"_key":1526,"_type":17,"marks":1527,"text":1528},"0bdc8c3128d90",[],"This work has been published in ",{"_key":1530,"_type":17,"marks":1531,"text":1533},"0bdc8c3128d91",[126,1532],"31695af01eb5","The Journal of Chemical Physics",{"_key":1535,"_type":17,"marks":1536,"text":1537},"0bdc8c3128d92",[],". ",{"_key":1539,"_type":17,"marks":1540,"text":1542},"0bdc8c3128d93",[1541],"b9217f9faad3","Contact us",{"_key":1544,"_type":17,"marks":1545,"text":1546},"0bdc8c3128d94",[]," for more information.",[1548,1553],{"_key":1541,"_type":33,"externalUrl":44,"href":1549,"internalLink":1550,"isInternalLink":37,"title":44},"https://www.nextmol.com/contact-us/",{"_id":1551,"_type":35,"slug":1552},"c7817c8e-080e-4b07-b776-b11cf27270c4","contact",{"_key":1532,"_type":33,"externalUrl":44,"internalLink":1554,"isInternalLink":37,"title":44},{"_id":1555,"_type":1556,"slug":1557},"ce46a793-ddeb-4c76-8930-2e1bd7128018","new","paper-assessing-the-effect-of-a-liquid-water-layer-on-the-adsorption-of-hydrate-antiagglomerants-using-molecular-simulations-published-in-journal-of-chemical-physics","2024-04-10T08:00:00.000Z",{"asset":1560},{"altText":44,"metadata":1561,"originalFilename":1586,"url":1587},{"_type":1239,"blurHash":1562,"dimensions":1563,"hasAlpha":37,"isOpaque":967,"lqip":1567,"palette":1568},"MBJas1~o009G00%Mj?RjayWB00M|~Wt6-p",{"_type":1242,"aspectRatio":1564,"height":1565,"width":1566},2.3333333333333335,567,1323,"data:image/png;base64,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",{"_type":1246,"darkMuted":1569,"darkVibrant":1572,"dominant":1575,"lightMuted":1576,"lightVibrant":1578,"muted":1581,"vibrant":1584},{"_type":1248,"background":1570,"foreground":1250,"population":1571,"title":1250},"#3a4e49",0.1,{"_type":1248,"background":1573,"foreground":1250,"population":1574,"title":1250},"#040c09",0.13,{"_type":1248,"background":1573,"foreground":1250,"population":1574,"title":1250},{"_type":1248,"background":1577,"foreground":1258,"population":1262,"title":1250},"#acd4bc",{"_type":1248,"background":1579,"foreground":1258,"population":1580,"title":1258},"#daccac",0.04,{"_type":1248,"background":1582,"foreground":1250,"population":1583,"title":1250},"#845c5c",0.01,{"_type":1248,"background":1585,"foreground":1250,"population":1262,"title":1250},"#3fbf8f","paper-06_figure.svg","https://cdn.sanity.io/images/pztud2pd/development/519624a75774002bb8d1124f4ecedc4a81a5519a-1323x567.svg",{"externalUrl":44,"internalLink":44,"isInternalLink":967},{"ogdescription":1590,"ogimage":44,"ogtitle":1591},"Blog article about Surfactants for Flow Assurance: Adsorption study via Molecular Modeling.","Nextmol | Surfactants for Flow Assurance: Adsorption study via Molecular Modeling",{"_type":58,"current":1593},"surfactants-for-flow-assurance-adsorption-study-via-md","Surfactants for Flow Assurance: Adsorption study via Molecular Modeling",1756987674817]