Your search keyword '"Akihiro Togari"' showing total 2 results

1. Deuterium Removal Efficiency in Tungsten as a Function of Hydrogen Ion Beam Fluence and Temperature

Author

Mingzhong Zhao, Akihiro Togari, Naoaki Yoshida, Qilai Zhou, Fei Sun, Yasuhisa Oya, Yuji Hatano, and Moeko Nakata

Subjects

Materials science, Hydrogen, Thermal desorption spectroscopy, Analytical chemistry, food and beverages, chemistry.chemical_element, Tungsten, 01 natural sciences, 010305 fluids & plasmas, chemistry, Deuterium, Vacancy defect, Desorption, 0103 physical sciences, Irradiation, 010306 general physics, Quadrupole mass analyzer

Abstract

Establishment of effective tritium removal method was one of important issues for the development of fusion reactor from the view of fuel recycle and safe operation. The deuterium (D) removal efficiency in tungsten (W) by energetic hydrogen (H) ions under room temperature and baking under 623 K were studied by thermal desorption spectroscopy (TDS). Iron (Fe) damaged W with various damage level by 6 MeV Fe2+ was adopted to simulate neutron irradiation damages. To understand the D removal behavior, the desorption of D2 was measured in-situ by a quadrupole mass spectrometer (QMS) during H2+ implantation and baking. The in-situ results showed that the desorption of D2 started after H2+ implantation and became slowly with the increment of H2+ implantation time. After H2+ implantation, part of D trapped by dislocation loops, vacancy clusters and voids could be removed by hydrogen isotope exchange. However, the removal efficiency by hydrogen isotope exchange decrease obviously as the presence of irradiation damages. The D trapped by dislocation loops and vacancy clusters can be removed by baking with high efficiency. It is worth to note that the D trapped by voids cannot be removed by baking leading to the lower D removal efficiency for W with high damage level.

Published

2018

2. Interaction of Hydrogen Isotopes with Radiation Damaged Tungsten

Author

Qilai Zhou, Keisuke Azuma, Akihiro Togari, Yasuhisa Oya, Yuji Hatano, Robert Kolasinski, Masashi Shimada, and Dean A. Buchenauer

Subjects

010302 applied physics, Materials science, Isotope, Hydrogen, Thermal desorption spectroscopy, Diffusion, Radiochemistry, Analytical chemistry, chemistry.chemical_element, Trapping, Tungsten, Radiation, 01 natural sciences, 010305 fluids & plasmas, chemistry, 0103 physical sciences, Irradiation

Abstract

This paper reviews recent achievement of hydrogen isotope behavior for damaged tungsten. To demonstrate neutron irradiation, the irradiation damages were introduced into W by energetic Fe2+ irradiation and D retention behavior was examined by thermal desorption spectroscopy (TDS). The D trapping behavior was evaluated using Hydrogen Isotope Diffusion and Trapping (HIDT) code. It was found that D trapping states consisted of two-four stages with the trapping energy of 0.60 eV, 0.85 eV, 1.15-1.25 eV and 1.55 eV depending on the damage concentration and distribution. Based on these experimental results, the hydrogen isotope retention behavior in actual fusion condition was demonstrated. It was found that most of hydrogen isotope was retained in tungsten wall even if the wall temperature was kept at operation temperature.

Published

2017