563e experimental and theoretical study of viscosity
563e experimental and theoretical study of viscosity
563e experimental and theoretical study of viscosity
563e experimental and theoretical study of viscosity
563e experimental and theoretical study of viscosity
(563e) experimental and theoretical study of viscosity behavior of sulfonated partially hydrolyzed polyacrylamides (s-hpam) with long-term thermal

(563e) Experimental and Theoretical Study of Viscosity Behavior of Sulfonated Partially Hydrolyzed Polyacrylamides (S-HPAM) with Long-Term Thermal

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experimental and theoretical study of viscosity reduction in heavy crude oils by addition of nanoparticles | energy & fuels - acs publications

Experimental and Theoretical Study of Viscosity Reduction in Heavy Crude Oils by Addition of Nanoparticles | Energy & Fuels - ACS Publications

In this sense, the main objective of this paper is to provide unexpected experimental evidence of heavy oil and extra-heavy crude oils viscosity reduction resulting from the presence of nanoparticles (NPs) of different chemical natures (SiO 2, Fe 3 O 4, and Al 2 O 3 ), particle size, surface acidity, and concentration at low-volume fractions.

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experimental and theoretical study of dilute polyacrylamide solutions: effect of salt concentration | journal of molecular modeling

Experimental and theoretical study of dilute polyacrylamide solutions: effect of salt concentration | Journal of Molecular Modeling

The structure and intrinsic viscosity of the partially hydrolyzed polyacrylamide (HAPM) and polyacrylamide (PAM) in aqueous solution were investigated by comparative studies of molecular dynamics simulation over a wide range of the NaCl concentration.

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experimental and theoretical study of viscosity reduction in heavy crude oils by addition of nanoparticles - energy & fuels ... - acs publications

Experimental and Theoretical Study of Viscosity Reduction in Heavy Crude Oils by Addition of Nanoparticles - Energy & Fuels ... - ACS Publications

The said model that relates the concentration of nanoparticles to the fluid mixture viscosity was validated successfully using experimental data, as evidenced by RSME% values lower than 10%. The importance of our findings lies in the lack of previous experimental and theoretical data in the open literature showing heavy crude oil viscosity reduction in the presence of nanoparticles.

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experimental and theoretical studies on the viscosity¨cstructure correlation for high alumina-silicate melts - springer

Experimental and Theoretical Studies on the Viscosity¨CStructure Correlation for High Alumina-Silicate Melts - Springer

Experimental viscosity measurements are performed above the liquidus temperature in the range of 1748 K to 1848 K (1475 ¡ãC to 1575 ¡ãC). The viscosity values obtained from FactSage closely fit with the experimental values. The viscosity and the slag structure properties are intent by Fourier Transform Infrared (FTIR) and Raman spectroscopy.

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a novel empirical equation for the effective viscosity of nanofluids based on theoretical and empirical results

A novel empirical equation for the effective viscosity of nanofluids based on theoretical and empirical results

One is the Brownian motion. Experimental viscosity correlations are currently of limited use. In the present study, we provide a new correlation for the viscosity of nanofluids using regression analysis based on experimental and theoretical data available in the

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polymers | free full-text | new considerations on the determination of the apparent shear viscosity of polymer melt with micro capillary dies

Polymers | Free Full-Text | New Considerations on the Determination of the Apparent Shear Viscosity of Polymer Melt with Micro Capillary Dies

Capillary rheometers have been widely used for the rheological measurement of polymer melts. However, when micro capillary dies are used, the results are usually neither accurate nor consistent, even under the same measurement conditions. In this work, theoretical modeling and experimental studies were conducted for a more profound understanding of the mechanism by which the initial and

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predicting temperature-dependent viscosity of amazonian vegetable oils and their mixtures from fatty acid composition - taylor & francis online

Predicting Temperature-Dependent Viscosity of Amazonian Vegetable Oils and Their Mixtures from Fatty Acid Composition - Taylor & Francis Online

INTRODUCTION Vegetable oils and their mixtures are important in human nutrition as a source of energy, essential fatty acids (FAs), and fat-soluble vitamins (A, D, E, and K) playing important functional and sensory roles. [Citation 1, Citation 2] Outside the realm of food manufacture, vegetable oils feature in a wide variety of industries ranging from production of paints, varnishes

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origin of the low-viscosity of [emim][(fso2)2n] ionic liquid and its lithium salt mixture: experimental and theoretical study of self-diffusion

Origin of the Low-Viscosity of [emim][(FSO2)2N] Ionic Liquid and Its Lithium Salt Mixture: Experimental and Theoretical Study of Self-Diffusion

Origin of the Low-Viscosity of [emim][(FSO 2) 2 N] Ionic Liquid and Its Lithium Salt Mixture: Experimental and Theoretical Study of Self-Diffusion Coefficients, Conductivities, and Intermolecular Interactions Seiji Tsuzuki * ? Kikuko Hayamizu ?, and Shiro Seki * ?

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viscosity in water from first-principles and deep-neural-network simulations | npj computational materials

Viscosity in water from first-principles and deep-neural-network simulations | npj Computational Materials

In Fig. 9 we compare with the experiment the SCAN-NNP predictions for the viscosity of water, on a temperature scale that has been offset by the difference between the predicted melting

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