Your search keyword '"Liggieri, L."' showing total 4 results

1. Intrinsic dynamics of emulsions: Experiments in microgravity on the International Space Station.

Author

Lorusso, V., Orsi, D., Vaccari, M., Ravera, F., Santini, E., Chondrou, A.P., Kostoglou, M., Karapantsios, T.D., McMillin, R., Ferri, J.K., Vincent-Bonnieu, S., Liggieri, L., and Cristofolini, L.

Subjects

*DROP size distribution, *MONTE Carlo method, *NONIONIC surfactants, *SPACE exploration, *SPACE stations

Abstract

[Display omitted] In order to understand the basic mechanisms affecting emulsion stability, the intrinsic dynamics of the drop population must be investigated. We hypothesize that transient ballistic motion can serve as a marker of interactions between drops. In 1G conditions, buoyancy-induced drop motion obscures these interactions. The microgravity condition onboard the International Space Station enable this investigation. We performed Diffusing Wave Spectroscopy (DWS) experiments in the ESA Soft Matter Dynamics (SMD) facility. We used Monte Carlo simulations of photon trajectory to support data analysis. The analysis framework was validated by ground-based characterizations of the initial drop size distribution (DSD) and the properties of the oil/water interface in the presence of surfactant. We characterized the drop size distribution and found to be bi-disperse. Drop dynamics shows transient ballistic features at early times, reaching a stationary regime of primarily diffusion-dominated motion. This suggests different ageing mechanisms: immediately after emulsification, the main mechanism is coalescence or aggregation between small drops. However at later times, ageing proceeds via coalescence or aggregation of small with large drops in some emulsions. Our results elucidate new processes relevant to emulsion stability with potential impact on industrial processes on Earth, as well as enabling technologies for space exploration. [ABSTRACT FROM AUTHOR]

Published

2025

2. Adsorption and surface rheology of <f>n</f>-dodecanol at the water/air interface

Author

Ferrari, M., Ravera, F., Liggieri, L., Motschmann, H., Yi, Z., Krägel, J., and Miller, R.

Subjects

*ADSORPTION (Chemistry), *RHEOLOGY, *PHASE transitions, *OPERATOR theory

Abstract

Adsorption layers of n-dodecanol at the water/air interface show phase transitions at low temperatures [Vollhardt, Fainerman, Emrich, J. Phys. Chem. B 104 (2000) 8536]. Using a drop shape technique it is shown that the dilational elasticity disappears in the coexistence region of the adsorption layer. The relaxation time between the condensed and liquid-like surface states is in the sub-second time range. [Copyright &y& Elsevier]

Published

2004

3. Rheological surface properties of C12DMPO solution as obtained from amplitude- and phase-frequency characteristics of an oscillating bubble system

Author

Kovalchuk, V.I., Krägel, J., Makievski, A.V., Ravera, F., Liggieri, L., Loglio, G., Fainerman, V.B., and Miller, R.

Subjects

*SURFACE chemistry, *STRAINS & stresses (Mechanics), *PHOSPHORUS compounds, *SURFACE active agents, *ELASTICITY

Abstract

The experimental data on the surface rheological characteristics of dodecyl dimethyl phosphine oxide solutions obtained in a fully automatic oscillating bubble device under microgravity conditions in the frequency range 0.01–100 Hz are presented. The complex surface elasticity modulus is obtained form the amplitude- and phase-frequency characteristics of established pressure oscillations in a closed cell without calibration experiments by direct calculation of the necessary coefficients. The characteristics of the adsorption layers obtained from the elasticity modulus are in good agreement with adsorption isotherms and equations of state accounting for the intrinsic (2D) monolayer compressibility. [Copyright &y& Elsevier]

Published

2004

4. Frequency Characteristics of Amplitude and Phase of Oscillating Bubble Systems in a Closed Measuring Cell

Author

Kovalchuk, V. I., Krägel, J., Makievski, A. V., Loglio, G., Ravera, F., Liggieri, L., and Miller, R.

Subjects

*BUBBLES, *FREQUENCIES of oscillating systems, *SURFACE active agents

Abstract

The amplitude- and phase-frequency characteristics of oscillating bubble systems with a closed measuring cell are analyzed. The shape of the frequency characteristics is qualitatively different for bubbles smaller or larger than a hemisphere, respectively, and also for diluted and concentrated surfactant solutions. Moreover, the presence of a surfactant in the solution strongly influences the characteristic frequencies of the system. The experiments performed under ground and microgravity conditions show a good qualitative agreement with theoretically predicted amplitude- and phase-frequency characteristics and confirm the adequacy of the proposed theory. The comparison of high-frequency limits of the surface dilatational elasticity with the theoretical Gibbs elasticities calculated according to the respective adsorption isotherm shows good agreement for small surfactant concentrations. At higher concentrations large discrepancies are observed which can possibly be explained by the violation of the linearity condition for the surface layer. [Copyright &y& Elsevier]

Published

2002