Papović, Snežana


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Link to this page

http://cer.ihtm.bg.ac.rs/APP/faces/author.xhtml?author_id=45a136ee-0d8d-4ecc-8e3e-f9b6f8ab989b&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
45a136ee-0d8d-4ecc-8e3e-f9b6f8ab989b	Papović, Snežana (3)

Projects

RIBIDF - Research and Development of Ionic Bio Fluids	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200026 (University of Belgrade, Institute of Chemistry, Technology and Metallurgy - IChTM)
Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200125 (University of Novi Sad, Faculty of Science)	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200135 (University of Belgrade, Faculty of Technology and Metallurgy)

Author's Bibliography

Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures

Zarić, Milana; Vraneš, Milan B.; Bikić, Siniša M.; Tot, Aleksandar; Papović, Snežana; Borović, Teona Teodora; Kijevčanin, Mirjana; Radović, Ivona

(USA : American Chemical Society, 2022)

TY  - JOUR
AU  - Zarić, Milana
AU  - Vraneš, Milan B.
AU  - Bikić, Siniša M.
AU  - Tot, Aleksandar
AU  - Papović, Snežana
AU  - Borović, Teona Teodora
AU  - Kijevčanin, Mirjana
AU  - Radović, Ivona
PY  - 2022
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/5414
AB  - Ethylene glycol is recognized as a heat transfer fluid. To improve its performance, caffeine is added to pure ethylene glycol. The experimental measurements of densities at pressures of up to 60 MPa and in the range of temperatures 293.15-413.15 K were performed. Obtained experimental results were fitted by the modified Tammann-Tait equation, and parameters were used to determine some valuable thermodynamic and mechanical properties, the isothermal compressibility, the isobaric thermal expansibility, the internal pressure, and the difference of specific heat capacity at constant pressure and constant volume. The same approach was applied to the equimolar mixture of ethylene glycol and water. The results confirm negligible changes in the investigated thermodynamic properties with the addition of caffeine into pure ethylene glycol and significantly smaller dependence on temperature compared to the mixture of ethylene glycol and water.
PB  - USA : American Chemical Society
T2  - Journal of Chemical & Engineering Data
T1  - Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures
VL  - 67
IS  - 11
SP  - 3351
EP  - 3363
DO  - 10.1021/acs.jced.2c00401
ER  -

@article{
author = "Zarić, Milana and Vraneš, Milan B. and Bikić, Siniša M. and Tot, Aleksandar and Papović, Snežana and Borović, Teona Teodora and Kijevčanin, Mirjana and Radović, Ivona",
year = "2022",
abstract = "Ethylene glycol is recognized as a heat transfer fluid. To improve its performance, caffeine is added to pure ethylene glycol. The experimental measurements of densities at pressures of up to 60 MPa and in the range of temperatures 293.15-413.15 K were performed. Obtained experimental results were fitted by the modified Tammann-Tait equation, and parameters were used to determine some valuable thermodynamic and mechanical properties, the isothermal compressibility, the isobaric thermal expansibility, the internal pressure, and the difference of specific heat capacity at constant pressure and constant volume. The same approach was applied to the equimolar mixture of ethylene glycol and water. The results confirm negligible changes in the investigated thermodynamic properties with the addition of caffeine into pure ethylene glycol and significantly smaller dependence on temperature compared to the mixture of ethylene glycol and water.",
publisher = "USA : American Chemical Society",
journal = "Journal of Chemical & Engineering Data",
title = "Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures",
volume = "67",
number = "11",
pages = "3351-3363",
doi = "10.1021/acs.jced.2c00401"
}

Zarić, M., Vraneš, M. B., Bikić, S. M., Tot, A., Papović, S., Borović, T. T., Kijevčanin, M.,& Radović, I.. (2022). Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures. in Journal of Chemical & Engineering Data
USA : American Chemical Society., 67(11), 3351-3363.
https://doi.org/10.1021/acs.jced.2c00401

Zarić M, Vraneš MB, Bikić SM, Tot A, Papović S, Borović TT, Kijevčanin M, Radović I. Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures. in Journal of Chemical & Engineering Data. 2022;67(11):3351-3363.
doi:10.1021/acs.jced.2c00401 .

Zarić, Milana, Vraneš, Milan B., Bikić, Siniša M., Tot, Aleksandar, Papović, Snežana, Borović, Teona Teodora, Kijevčanin, Mirjana, Radović, Ivona, "Thermodynamic Properties of Caffeine in Ethylene Glycol at High Pressures and High Temperatures" in Journal of Chemical & Engineering Data, 67, no. 11 (2022):3351-3363,
https://doi.org/10.1021/acs.jced.2c00401 . .

	1
	1

Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence

Vraneš, Milan B.; Radović, Ivona; Bikić, Siniša M.; Tot, Aleksandar; Kijevčanin, Mirjana; Zarić, Milana; Borović, Teona Teodora; Papović, Snežana

(Elsevier, 2021)

TY  - JOUR
AU  - Vraneš, Milan B.
AU  - Radović, Ivona
AU  - Bikić, Siniša M.
AU  - Tot, Aleksandar
AU  - Kijevčanin, Mirjana
AU  - Zarić, Milana
AU  - Borović, Teona Teodora
AU  - Papović, Snežana
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4485
AB  - In this article, detailed physicochemical characterization of ethylene glycol and caffeine + ethylene glycol mixtures is performed based on density, viscosity and refractive indices measurements in temperature range from (288.15 to 343.15) K. The apparent molar volume (Vϕ), apparent molar volume at infinite dilution (Vϕo), Masson's experimental slope (Sv), limiting apparent molar expansibility, (Eϕo), viscosity B-coefficient, thermodynamical parameters of viscous flow and molar refractions (Rm) have been evaluated from experimental measurements and results are additionally proven by molecular dynamic simulations. The addition of caffeine reduces viscosity of ethylene glycol, while caffeine molecules have high tendency to form self-aggregates due to weak interactions with ethylene glycol. Compared to aqueous solution of caffeine, caffeine + ethylene glycol mixtures are characterized with significantly lower solvation number and with more pronounced caffeine self-aggregation.
PB  - Elsevier
T2  - Journal of Molecular Liquids
T1  - Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence
VL  - 333
IS  - 0167-7322
IS  - 1873-3166
SP  - 115918
DO  - 10.1016/j.molliq.2021.115918
ER  -

@article{
author = "Vraneš, Milan B. and Radović, Ivona and Bikić, Siniša M. and Tot, Aleksandar and Kijevčanin, Mirjana and Zarić, Milana and Borović, Teona Teodora and Papović, Snežana",
year = "2021",
abstract = "In this article, detailed physicochemical characterization of ethylene glycol and caffeine + ethylene glycol mixtures is performed based on density, viscosity and refractive indices measurements in temperature range from (288.15 to 343.15) K. The apparent molar volume (Vϕ), apparent molar volume at infinite dilution (Vϕo), Masson's experimental slope (Sv), limiting apparent molar expansibility, (Eϕo), viscosity B-coefficient, thermodynamical parameters of viscous flow and molar refractions (Rm) have been evaluated from experimental measurements and results are additionally proven by molecular dynamic simulations. The addition of caffeine reduces viscosity of ethylene glycol, while caffeine molecules have high tendency to form self-aggregates due to weak interactions with ethylene glycol. Compared to aqueous solution of caffeine, caffeine + ethylene glycol mixtures are characterized with significantly lower solvation number and with more pronounced caffeine self-aggregation.",
publisher = "Elsevier",
journal = "Journal of Molecular Liquids",
title = "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence",
volume = "333",
number = "0167-7322, 1873-3166",
pages = "115918",
doi = "10.1016/j.molliq.2021.115918"
}

Vraneš, M. B., Radović, I., Bikić, S. M., Tot, A., Kijevčanin, M., Zarić, M., Borović, T. T.,& Papović, S.. (2021). Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence. in Journal of Molecular Liquids
Elsevier., 333(0167-7322), 115918.
https://doi.org/10.1016/j.molliq.2021.115918

Vraneš MB, Radović I, Bikić SM, Tot A, Kijevčanin M, Zarić M, Borović TT, Papović S. Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence. in Journal of Molecular Liquids. 2021;333(0167-7322):115918.
doi:10.1016/j.molliq.2021.115918 .

Vraneš, Milan B., Radović, Ivona, Bikić, Siniša M., Tot, Aleksandar, Kijevčanin, Mirjana, Zarić, Milana, Borović, Teona Teodora, Papović, Snežana, "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence" in Journal of Molecular Liquids, 333, no. 0167-7322 (2021):115918,
https://doi.org/10.1016/j.molliq.2021.115918 . .

	1
	4
	6

Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence"

Vraneš, Milan B.; Radović, Ivona; Bikić, Siniša M.; Tot, Aleksandar; Kijevčanin, Mirjana; Zarić, Milana; Borović, Teona Teodora; Papović, Snežana

(Elsevier, 2021)

TY  - DATA
AU  - Vraneš, Milan B.
AU  - Radović, Ivona
AU  - Bikić, Siniša M.
AU  - Tot, Aleksandar
AU  - Kijevčanin, Mirjana
AU  - Zarić, Milana
AU  - Borović, Teona Teodora
AU  - Papović, Snežana
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4486
AB  - The tabular values and graphical representations of measured densities of caffeine+ethylene glycol solutions along with derived properties (thermal expansion coefficients, apparent and partial molar volumes and limiting molar expansibility) and used equations. The tabulated values of measured viscosities of solutions, the calculated thermodynamic parameters and the values of shear rate and shear stress.
PB  - Elsevier
T2  - Journal of Molecular Liquids
T1  - Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence"
UR  - https://hdl.handle.net/21.15107/rcub_cer_4486
ER  -

@misc{
author = "Vraneš, Milan B. and Radović, Ivona and Bikić, Siniša M. and Tot, Aleksandar and Kijevčanin, Mirjana and Zarić, Milana and Borović, Teona Teodora and Papović, Snežana",
year = "2021",
abstract = "The tabular values and graphical representations of measured densities of caffeine+ethylene glycol solutions along with derived properties (thermal expansion coefficients, apparent and partial molar volumes and limiting molar expansibility) and used equations. The tabulated values of measured viscosities of solutions, the calculated thermodynamic parameters and the values of shear rate and shear stress.",
publisher = "Elsevier",
journal = "Journal of Molecular Liquids",
title = "Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence"",
url = "https://hdl.handle.net/21.15107/rcub_cer_4486"
}

Vraneš, M. B., Radović, I., Bikić, S. M., Tot, A., Kijevčanin, M., Zarić, M., Borović, T. T.,& Papović, S.. (2021). Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence". in Journal of Molecular Liquids
Elsevier..
https://hdl.handle.net/21.15107/rcub_cer_4486

Vraneš MB, Radović I, Bikić SM, Tot A, Kijevčanin M, Zarić M, Borović TT, Papović S. Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence". in Journal of Molecular Liquids. 2021;.
https://hdl.handle.net/21.15107/rcub_cer_4486 .

Vraneš, Milan B., Radović, Ivona, Bikić, Siniša M., Tot, Aleksandar, Kijevčanin, Mirjana, Zarić, Milana, Borović, Teona Teodora, Papović, Snežana, "Supplementary data for: "Improving ethylene glycol transport properties by caffeine – Thermodynamic and computational evidence"" in Journal of Molecular Liquids (2021),
https://hdl.handle.net/21.15107/rcub_cer_4486 .