Cristin-prosjekt-ID: 496450
Sist endret: 19. desember 2015 20:06
Cristin-prosjekt-ID: 496450
Sist endret: 19. desember 2015 20:06
Prosjekt

Nordic-Russian project NCM-RU-2013/10060 “The Master and PhD Program on Materials Simulation & Design for Environmental Applications”

prosjektleder

Morten Christian Melaaen
ved Universitetet i Sørøst-Norge

prosjekteier / koordinerende forskningsansvarlig enhet

  • Universitetet i Sørøst-Norge

Tidsramme

Avsluttet
Start: 19. desember 2015 Slutt: 1. februar 2016

Beskrivelse Beskrivelse

Tittel

Nordic-Russian project NCM-RU-2013/10060 “The Master and PhD Program on Materials Simulation & Design for Environmental Applications”

Vitenskapelig sammendrag

Computational modeling plays an important role in scientific research activity when it is impossible or impractical to do experiment, to help understanding materials properties at atomic level, to study properties of existing materials or to design materials of expected properties. Modern powerful supercomputers, workstations, and computer programs have further triggered increasing the role of modeling in scientific research. Nowadays, involvement of modeling is crucial in many timely important research activities such as carbon capture and storage, materials corrosion, petroleum, sensors, etc.. This creates the necessity in trained people on modeling, programming, and code developing. The main objective of the project is to develop educational program for Master and PhD students on simulation & design of materials for environmental related applications. The program will be a synergy of the expertise of our team members in environmental technologies and their materials physics and in multiscale approach to simulation & design of materials. Some of the subjects touched within the environmental technologies and their materials physics course will be, for example: aspects of CO2 capture and storage, engineering properties of liquids and natural gas mixtures, properties of complex fluids and their interaction with solid surfaces, solid matrixes for CO2 technologies, and so on. The simulation & design courses will comprise a modern vision on self-consistent combination of micro- (ab initio, molecular statics and molecular dynamics), meso- (Monte-Carlo, cluster dynamics, cellular automata,etc), and macro-scale methods (computational thermodynamics, CFD, etc.) to trace interconnections between atomic scale phenomena and macroscale device performance. The expected outcomes are manifold: (i) the development and implementation of a combination of on-site and on-line modeling-related courses for PhD and Master students; (ii) development and implementation of virtual laboratory program for guided modeling practices; (iii) co-supervising two Master students, (iv) implementation of internship program between the project partners for Master students; (v) on the basis of the implemented lecture courses to write a text book on materials simulation & design techniques for Master and PhD students, (iv) writing a larger joint proposal for higher education, (v) establishing the link between universities, research Institutes, and industries for performing the above-types of modeling according to needs of industries. The planned program is multidisciplinary and emphasizes combination of competence of experts from the Telemark University-College (TUC), Norway, Institute for Energy Technology (IFE), Norway, Aalto University (AU), Finland, National Research Nuclear University MEPhI (NRNU), Russia on modeling in different fields such as CO2 capture, nanoscience and nanotechnology; computational physics, high performance computing and programming; physics and chemistry of atoms, molecules, and materials.

This will be complemented by the given background in modern vision on environmental physics and training of the student under the guidance of professionals from the high-tech Research Institute (Institute for Energy Technology, Norway) within the environmental related industrial projects.

prosjektdeltakere

prosjektleder

Morten Christian Melaaen

  • Tilknyttet:
    Prosjektleder
    ved Universitetet i Sørøst-Norge

Smagul Karazhanov

  • Tilknyttet:
    Lokalt ansvarlig
    ved Institutt for energiteknikk

Amir Ebrahim Yazdanpanah Amin

  • Tilknyttet:
    Prosjektdeltaker
    ved Universitetet i Sørøst-Norge

Lars Erik Øi

  • Tilknyttet:
    Prosjektdeltaker
    ved Universitetet i Sørøst-Norge
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Resultater Resultater

DFT and device modeling.

Karazhanov, Smagul. 2015, Winter school “Materials for Energy and Environmental Technologies (MEET)” for MAster and PhD students as well as for young researchers. IFEFaglig foredrag

Metal hydrides for smart window applications.

Karazhanov, Smagul. 2015, Winter school “Materials for Energy and Environmental Technologies (MEET)” for Master and PhD students as well as for young researchers. IFEFaglig foredrag

Introduction to photovoltaics, wafer-based and thin film solar cells.

Karazhanov, Smagul. 2015, Winter school “Materials for Energy and Environmental Technologies (MEET)” for Master and PhD students as well as for young researchers. IFEFaglig foredrag

Theoretical and experimental study of Cu2ZnSnS4: synthesis and characterization.

Arici, Elif; Ergun, R.; Karaagac, H.; Mingazov, Azat; Klopov, M.; Subrahmanyan, A.; Karazhanov, Smagul. 2015, International Conference on Nanomaterials for Frontier Applications (ICNFA 2015) . IFEFaglig foredrag

New insight into common materials - magnesium and calcium hydroxides: Multifunctionality driven by the electronic charge localization.

Pishtshev, Aleksandr; Karazhanov, Smagul. 2015, International Conference on Nanomaterials for Frontier Applications. IFEFaglig foredrag
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