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valentina.biagioni@uniroma1.it
Valentina Biagioni
Assegnista di ricerca
Struttura:
DIPARTIMENTO DI INGEGNERIA CHIMICA, MATERIALI, AMBIENTE
E-mail:
valentina.biagioni@uniroma1.it
Pagina istituzionale corsi di laurea
Curriculum Sapienza
Pubblicazioni
Titolo
Pubblicato in
Anno
Analytic prediction of the effective reaction rate for methane cracking in molten catalysts: Transition from kinetics-dominated to diffusion-limited regimes
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
2024
Fractionation of a three-particle mixture by Brownian sieving hydrodynamic chromatography
CHEMICAL ENGINEERING & TECHNOLOGY
2023
Impact of transversal vortices on the performance of open-tubular liquid chromatography
JOURNAL OF CHROMATOGRAPHY A
2022
Taming Taylor-Aris dispersion through chaotic advection
JOURNAL OF CHROMATOGRAPHY A
2022
50-Fold reduction of separation time in open-channel hydrodynamic chromatography via lateral vortices
ANALYTICAL CHEMISTRY
2022
Shape-enhanced open-channel hydrodynamic chromatography
ANALYTICAL CHEMISTRY
2022
Estimate of the height of molten metal reactors for methane cracking
CHEMICAL ENGINEERING TRANSACTIONS
2022
Brownian sieving effect for boosting the performance of microcapillary hydrodynamic chromatography. Proof of concept
ANALYTICAL CHEMISTRY
2021
Brownian sieving enhancement of microcapillary hydrodynamic chromatography. Analysis of the separation performance based on Brenner's macro-transport theory
JOURNAL OF CHROMATOGRAPHY A
2021
Combining electrostatic, hindrance and diffusive effects for predicting particle transport and separation efficiency in deterministic lateral displacement microfluidic devices
BIOSENSORS
2020
Numbering-up strategies for microfluidics-assisted water treatment processes. Deterministic lateral displacement for the removal of bacteria and parasites as a case study
CHEMICAL ENGINEERING TRANSACTIONS
2019
On the three-dimensional structure of the flow through deterministic lateral displacement devices and Its effects on particle separation
PROCESSES
2019
Progetti di Ricerca
Boosting separation efficiency of Brownian Sieving Hydrodynamic Chromatography separation technique
Combining electrostatic, diffusion and three-dimensional effects for predicting particle transport and separation ef¿ciency in Deterministic Lateral Displacement micro¿uidic devices.
Gruppi di ricerca
μSEP- Microfluidic separations
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