Your search keyword '"Bartzis, Vasileios"' showing total 10 results

1. Advanced Technology for Desalination and Water Purification

Author

Bartzis, Vasileios, primary and Sarris, Ioannis E., additional

Published

2024

2. Exploring the Impact of Steric Effects on Ion Removal of Water Solutions under the Influence of an Electric Field.

Author

Bartzis, Vasileios, Merlemis, Nikolaos, Ninos, Georgios, and Sarris, Ioannis E.

Subjects

SALINE waters, ELECTRIC fields, ELECTRIC capacity, IONS

Abstract

In this study, we examine the movement of ions that are in a water solution which flows along a duct, due to the existence of an electric field, taking into account the size of the ions, a phenomenon known as the steric effect. We compare the results from the above model with the classical one (the one that uses the Boltzmann distribution where ions are considered dimensionless) for various parameters such as surface charge density, electric field and differential capacitance. It is shown that for dilute water solutions (1019–1024 ions/m3 final concentration at the center of the duct), with ions of valence z = 1 (let us say saline water), steric effects become important for potentials greater than 1 V, and the phenomenon is more pronounced at higher concentrations. Furthermore, the steric effect model is applied to the calculation of the percentage of reduction in ion concentration in the main volume of the solution as a function of duct width for various electrode potentials and initial ion concentrations. Removal times are also calculated using Modified PNP equations which take into account steric effects. It is found that with a potential of 2.6 V, a 96% reduction in ions is achieved in the main volume of the solution for duct width 0.1 mm for 1021 ions/m3 final concentration at the center of the duct within approximately 1.6 s, while the percentage drops to 80% for duct width 1 mm. For smaller potentials, no noticeable decrease in concentration is observed, while for higher potentials, there are more impressive results, but we must be very careful because there is the case of other electrochemical phenomena taking place. The results are better when reducing the width of the duct, but relatively large widths are considered for the method to be practically applicable. With the increase in the concentration of the ions, their reduction percentage in the main volume of the solution decreases but remains significant up to 1023 ions/m3 final concentration at the center of the duct. In addition, the completion time is shown to be proportional to the duct width. Therefore, for example, with the other parameters the same (2.6 V, 1021 ions/m3) but with L ~ 1   mm , the completion time can be estimated to be approximately 16 s. This observation enables us to estimate the completion time for different duct widths, eliminating the need for repeated numerical computation of the MPNP equations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Electric field distribution and diffuse layer thickness study due to salt ion movement in water desalination

Author

Bartzis, Vasileios and Sarris, Ioannis E.

Published

2020

4. Electric Field Induced Drift of Bacterial Protein Toxins of Foodborne Pathogens Staphylococcus aureus and Escherichia coli from Water

Author

Bartzis, Vasileios, primary, Batrinou, Anthimia, additional, Sarris, Ioannis E., additional, Konteles, Spyros J., additional, Strati, Irini F., additional, and Houhoula, Dimitra, additional

Published

2022

5. Application of Electric Field Force for the Accumulation of Anthocyanins from Winery Wastewater.

Author

Bartzis, Vasileios, Strati, Irini F., Sarris, Ioannis E., Tsiaka, Thalia, Batrinou, Anthimia, Konteles, Spyros J., and Sinanoglou, Vassilia J.

Subjects

ELECTRIC fields, ANTHOCYANINS, SEWAGE, SURFACE charges, WINERIES, ELECTRIC equipment

Abstract

The recovery of anthocyanins from winery wastewater constitutes an attractive option for both environmental and commercial valorization, as food colorants and nutraceutical ingredients. In this study, the electric field induced ion drift method is proposed as a promising technique for the purification of wastewater solutions as well as for the accumulation of anthocyanins. The cation of the anthocyanidin malvidin (C17H15O7+) was selected as the most representative of winery waste, in order to develop a theoretical model. The main principle of the model is based on the displacement of charged anthocyanin ions, under the influence of an electric field vertical to the flow of the solution, and their accumulation on the side walls of a conductor. Apparatus inducing an electric field drift is described, and critical parameters (i.e., final spatial distribution of concentration, electric field intensity, surface charge density, and potential) were calculated. The proposed model succeeded in reducing anthocyanin concentration by more than 90%, for duct widths smaller than 1 mm in the bulk of the solution, for applied potentials φ(0) in the range of 0.2–0.4 V and target concentrations equal to 1.2 × 10−3 mol/m3. [ABSTRACT FROM AUTHOR]

Published

2023

6. Water Purification from Heavy Metals Due to Electric Field Ion Drift

Author

Bartzis, Vasileios, primary, Ninos, Georgios, additional, and Sarris, Ioannis E., additional

Published

2022

7. Time Evolution Study of the Electric Field Distribution and Charge Density Due to Ion Movement in Salty Water

Author

Bartzis, Vasileios, primary and Sarris, Ioannis E., additional

Published

2021

8. Impact of tannin addition on the antioxidant activity and sensory character of Malagousia white wine

Author

Strati, Irini F., primary, Tataridis, Panagiotis, additional, Shehadeh, Adnan, additional, Chatzilazarou, Arhontoula, additional, Bartzis, Vasileios, additional, Batrinou, Anthimia, additional, and Sinanoglou, Vassilia J., additional

Published

2021

9. Παλαιοοικολογική ανάλυση Ολοκαινικών ιζημάτων του Σαρωνικού κόλπου με τη χρήση των Οστρακωδών

Author

BARTZIS VASILEIOS

Subjects

Θετικές Επιστήμες, Science

Abstract

Σκοπός της παρούσας εργασίας είναι η προσπάθεια ανασύστασης του παλαιοπεριβάλλοντος και της παλαιοοικολογίας της υπό μελέτης περιοχής (Σαρωνικός κόλπος). Για την επίτευξη του στόχου αυτού επεξεργάστηκε η μικροπανίδα της περιοχής αυτής και πιο συγκεκριμένα η ομάδα των Οστρακωδών τα οποία απαντώνται σε όλα τα θαλάσσια περιβάλλοντα. The purpose of this paper is the attempt to reconstitute the paleoenvironment and the paleoecology of the studied area (Saronic Gulf, Greece). In order to achieve this goal the microfauna of the area and more specifically the class of Ostracoda was studied.

Published

2017

10. CALCULATION OF THE FOCAL LENGTH OF A TWO-LENS SYSTEM - AN EDUCATIONAL EXPERIMENT.

Author

Zekou, Evangelini, Vamvakas, Ioannis, Bartzis, Vasileios, and Merlemis, Nikolaos

Subjects

FOCAL length, EXPERIMENTAL methods in education

Abstract

In the present work, an educational experiment is presented for the estimation of the focal lengths of the individual lenses that compose a two-lens system. The method is based on the measurement of the back focal length and the equivalent focal length of the two-lens system. The experimental setup is simple, two convex lenses of equal focal lengths are positioned at a distance d and by measuring the back focal length of the two-lens system the unknown focal lengths are derived. In addition, the image size observed by the two-lens system is compared to that of different single test lenses in order to derive the equivalent focal length. The experimental methodology is straightforward and provides all the important information that can be obtained for a two-lens system in a geometrical optics laboratory, without expensive equipment. [ABSTRACT FROM AUTHOR]

Published

2020