Simulation of hydrogen isotopes absorption by metals under uncompensated pressure conditions

Timur Kulsartov, Zhanna Zaurbekova, Maratbek Gabdullin, Evgeny Nesterov, Natalia Varlamova, Alexander Novodvorskiy, Anastasya Evdakova

Research output: Contribution to journalArticle

Abstract

This paper presents a model that allows to describe the absorption of hydrogen isotopes by a thin sample with known geometric dimensions. The sample was saturated with hydrogen isotopes from the gas phase at a given temperature in experimental chamber under uncompensated pressure. The initial pressure and gas composition of hydrogen isotopes mixture was fixed. The model was applied to describe the results of experiments on the saturation of V4Cr4Ti vanadium alloy sample with hydrogen isotopes.

Original languageEnglish
JournalInternational Journal of Hydrogen Energy
DOIs
Publication statusPublished - 1 Jan 2019

Fingerprint

hydrogen isotopes
Isotopes
Hydrogen
Metals
metals
simulation
vanadium alloys
Vanadium alloys
gas composition
Gases
chambers
vapor phases
saturation
Chemical analysis
Experiments
Temperature
temperature

Keywords

  • alloy
  • deuterium
  • Hydrogen
  • simulation
  • sorption
  • V4Cr4Ti vanadium

ASJC Scopus subject areas

  • Renewable Energy, Sustainability and the Environment
  • Fuel Technology
  • Condensed Matter Physics
  • Energy Engineering and Power Technology

Cite this

Simulation of hydrogen isotopes absorption by metals under uncompensated pressure conditions. / Kulsartov, Timur; Zaurbekova, Zhanna; Gabdullin, Maratbek; Nesterov, Evgeny; Varlamova, Natalia; Novodvorskiy, Alexander; Evdakova, Anastasya.

In: International Journal of Hydrogen Energy, 01.01.2019.

Research output: Contribution to journalArticle

Kulsartov, Timur ; Zaurbekova, Zhanna ; Gabdullin, Maratbek ; Nesterov, Evgeny ; Varlamova, Natalia ; Novodvorskiy, Alexander ; Evdakova, Anastasya. / Simulation of hydrogen isotopes absorption by metals under uncompensated pressure conditions. In: International Journal of Hydrogen Energy. 2019.
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