Effect of rheology and interfacial tension on spreading of emulsion drops impacting a solid surface; Physics of Fluids; Vol. 33, iss. 8

Effect of rheology and interfacial tension on spreading of emulsion drops impacting a solid surface; Physics of Fluids; Vol. 33, iss. 8

Bibliographic Details
Parent link:	Physics of Fluids Vol. 33, iss. 8.— 2021.— [083309, 15 p.]
Corporate Author:	Национальный исследовательский Томский политехнический университет Инженерная школа энергетики Научно-образовательный центр И. Н. Бутакова (НОЦ И. Н. Бутакова)
Other Authors:	Piskunov M. V. Maksim Vladimirovich, Semyonova A. E. Aleksandra Evgenjevna, Khomutov N. A. Nikita Andreevich, Ashikhmin A. E. Alexander Evgenjevich, Yanovsky V. A. Vyacheslav Aleksadrovich
Summary:	Title screen This paper presents an experimental and theoretical study of Newtonian and non-Newtonian (Bingham plastic) emulsion drop impact on a solid non-heated surface. The utilization of different emulsifiers at a constant concentration of continuous and dispersed phases in emulsions allows the considerable variation of the surface tension at the liquid-liquid interface. Our data for the maximum spreading diameter of water, n-decane, and emulsion drops impacting on a surface are compared with that predicted from the existing models for single-phase liquid drops. All selected models underpredict the experimental data. As a result, the importance of considering the capillary effects at the internal interfaces of the emulsion drops and the careful examination of all rheological properties in the case of Bingham plastic fluids is confirmed experimentally and is taken into account theoretically. The models of Pasandideh-Fard et al. [“Capillary effects during droplet impact on a solid surface,” Phys. Fluids 8, 650 (1996)] and Ukiwe and Kwok [“On the maximum spreading diameter of impacting droplets on well-prepared solid surfaces,” Langmuir 21, 666-673 (2005)] are modified and adapted to the emulsion drop by means of including the additional surface energy term at the liquid-liquid interface of the emulsion drop in the energy conservation equation and the non-Newtonian Reynolds number. The predictions of the maximum spreading diameter give good agreement with the measured one. Several constraints and future lines of research that relate to a specific behavior of the compound liquid drops at the impact on a solid surface are highlighted. Режим доступа: по договору с организацией-держателем ресурса
Language:	English
Published:	2021
Subjects:	электронный ресурс труды учёных ТПУ реология межфазное натяжение растекание капли эмульсии твердые поверхности
Online Access:	https://doi.org/10.1063/5.0059079
Format:	Electronic Book Chapter
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=666199

Similar Items

Effects of wall temperature and temperature-dependent viscosity on maximum spreading of water-in-oil emulsion droplet; International Journal of Heat and Mass Transfer; Vol. 185
Published: (2022)

Study on interfacial tension of surfactant and its oil displacement performance; IOP Conference Series: Materials Science and Engineering; Vol. 1019 : 14th International Forum on Strategic Technology (IFOST 2019)
by: Risu Na
Published: (2021)

Micro-explosion of droplets containing liquids with different viscosity, interfacial and surface tension; Chemical Engineering Research and Design; Vol. 158
Published: (2020)

The influence of the drop formation rate at spreading over a microstructured surface on the contact angle; Thermophysics and Aeromechanics; Vol. 25, iss. 2
Published: (2018)

Influence of viscosity, surface and interfacial tensions on the liquid droplet collisions; Chemical Engineering Science; Vol. 220
by: Shlegel N. E. Nikita Evgenjevich
Published: (2020)

Regimes of Spreading of a Water Droplet Over Substrates with Varying Wettability; Journal of Engineering Physics and Thermophysics; Vol. 89, iss. 2
by: Kuznetsov G. V. Geny Vladimirovich
Published: (2016)

Нефтяные дисперсные системы учебное пособие
by: Манжай В. Н.
Published: (Томск, ТПУ, 2016)

Влияние свойств жидкостей на динамические характеристики капель обратных эмульсий при взаимодействии с твердой нагретой стенкой; Проблемы геологии и освоения недр; Т. 2
by: Хомутов Н. А. Никита Андреевич
Published: (2022)

Эмульсии, стабилизированные твердыми частицами: монография
by: Нуштаева А. В. Алла Владимировна
Published: (Москва, Инфра-М, 2014)

Влияние реологии топливных эмульсий на взаимодействие их капель с твердой поверхностью; Проблемы геологии и освоения недр; Т. 2
by: Ашихмин А. Е. Александр Евгеньевич
Published: (2021)

Experimental Studies of the Droplet Evolution during its Forced Spreading over Modified Brass Surfaces; AIP Conference Proceedings; Vol. 2422 : Heat and mass transfer in the thermal control system of technical and technological energy equipment (HMTTSC 2021)
by: Borovikov S. Sergei
Published: (2021)

Закономерности массообмена при лимитирующем сопротивлении сплошной фазы в условиях спонтанной межфазной конвекции в процессах жидкостной экстракции: диссертация на соискание ученой степени кандидата технических наук; Спец. 05.17.08.
by: Поломарчук Н. И. Нина Ивановна
Published: (Уфа, 1990)

Micellar-polymer for enhanced oil recovery for Upper Assam Basin; Resource-Efficient Technologies; Vol. 3, iss. 1 : TECHNOSCAPE 2016: International Conference on Separation Technologies in Chemical, Biochemical, Petroleum and Environmental Engineering
by: Das B. M.
Published: (2017)

Regime maps of collisions of fuel oil/water emulsion droplets with solid heated surface; Fuel; Vol. 342
by: Shlegel N. E. Nikita Evgenjevich
Published: (2023)

Contact angle hysteresis of a drop spreading over metal surfaces; MATEC Web of Conferences; Vol. 84 : Interfacial Phenomena and Heat Transfer (IPHT 2016)
by: Kuznetsov G. V. Geny Vladimirovich
Published: (2016)

Determination of surface tension and contact angle by the axisymmetric bubble and droplet shape analysis; Thermophysics and Aeromechanics; Vol. 22, iss. 3
Published: (2015)

Численное исследование процесса растекания вязкой капли в условиях теплообмена с подложкой простой геометрии; Теплофизические основы энергетических технологий
by: Крайнов А. В. Александр Валерьевич
Published: (2014)

Исследование межфазного натяжения и адсорбционных характеристик растворов поверхностно-активных веществ; Проблемы геологии и освоения недр; Т. 2
by: Нажису
Published: (2019)

Комбинированные схемы вторичного измельчения капель жидких и композиционных топлив в камерах энергетических установок: диссертация на соискание ученой степени кандидата технических наук; спец. 05.14.04
by: Шлегель Н. Е. Никита Евгеньевич
Published: (Томск, 2021)

Experimental Determination of the Three-Phase Contact Line Speed over Textured Brass Surface; AIP Conference Proceedings; Vol. 2422 : Heat and mass transfer in the thermal control system of technical and technological energy equipment (HMTTSC 2021)
by: Laga E. Yu. Ekaterina Yurjevna
Published: (2021)

Механизм движения контактной линии в условиях растекания капли по твердой поверхности; Интеллектуальные энергосистемы; Т. 1
by: Феоктистов Д. В. Дмитрий Владимирович
Published: (2016)

Spreading of water-in-oil emulsion drop on oleophilic surface; Physics of Fluids; Vol. 37. iss. 5
Published: (2025)

Композиционные материалы на основе алюминиевых сплавов, армированных углеродными волокнами
by: Костиков В. И. Валерий Иванович
Published: (Москва, Интермет Инжиниринг, 2000)

Исследование влияния температуры поверхности подложки на скорость растекания капли; Интеллектуальные энергосистемы; Т. 1
by: Батищева К. А. Ксения Артуровна
Published: (2014)

High-temperature evaporation of water emulsion droplets used in thermal fluid treatment; International Journal of Heat and Mass Transfer; Vol. 126, pt. A
Published: (2018)

Смачивание, растекание и испарение специальных огнетушащих составов на шероховатых и нагретых поверхностях: автореферат диссертации на соискание ученой степени кандидата физико-математических наук; спец. 01.04.17; спец. 01.04.07
by: Исламова А. Г. Анастасия Гомильевна
Published: (Томск, [Б. и.], 2021)

Dynamics of water separation in destruction of water-in-oil emulsions; IOP Conference Series: Earth and Environmental Science; Vol. 43 : Problems of Geology and Subsurface Development
Published: (2016)

Адгезия жидкости и смачивание
by: Зимон А. Д. Анатолий Давыдович
Published: (Москва, Химия, 1974)

Dynamic and kinematic characteristics of unsteady motion of a water-in-oil emulsion droplet in collision with a solid heated wall under conditions of convective heat transfer; International Communications in Heat and Mass Transfer; Vol. 137
Published: (2022)

Эмульсии: пер. с англ.
Published: (Ленинград, Химия, 1972)

Структура и свойства наполненного ПВХ
by: Гузеев В. В. Валентин Васильевич
Published: (СПб., Научные основы и технологии, 2012)

Influence of the component composition of extinguishing fluids on the droplet distribution in an aerosol cloud; Powder Technology; Vol. 395
Published: (2022)

Необыкновенная жизнь обыкновенной капли
by: Волынский М. С. Марк Семенович
Published: (Москва, Знание, 1986)

Высокотемпературные процессы восстановления: научные труды
Published: (Свердловск, Металлургиздат, 1951)

Change of Dynamic Contact Angle of a Drop Spreading over Copper Surface; MATEC Web of Conferences; Vol. 37 : Smart Grids 2015
by: Feoktistov D. V. Dmitriy Vladimirovich
Published: (2015)

Турбулентное течение водонефтяных и модельных водобензиновых эмульсий в присутствии полимерных добавок; Нефтяное хозяйство; № 1
Published: (2016)

Растекание
by: Быховский А. И. Арон Израилевич
Published: (Киев, Наукова думка, 1983)

Spreading behavior of a distilled water drop on a superhydrophobic surface; Язык и мировая культура: взгляд молодых исследователей; Ч. 1
by: Islamova A. G. Anastasiya Gomilievna
Published: (2016)

Evaporation, boiling and explosive breakup of oil–water emulsion drops under intense radiant heating; Chemical Engineering Research and Design; Vol. 127
Published: (2017)

Rheology of Materials and Engineering Structures
by: Sobotka Z. Zdenek
Published: (Prague, Academia, 1984)