A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak

R. Bhattacharyay; H. Zushi; K. Nakashima; T. Shikama; M. Sakamoto; N. Yoshida; S. Kado; K. Sawada; Y. Hirooka; K. Nakamura; K. Hanada; H. Idei; M. Hasegawa; K. N. Sato; M. Ogawa; O. Takaki; K. Sasaki; H. Xu; S. Kawasaki; H. Nakashima; A. Higashijima

doi:10.1088/0029-5515/47/8/018

A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak

R. Bhattacharyay, H. Zushi, K. Nakashima, T. Shikama, M. Sakamoto, N. Yoshida, S. Kado, K. Sawada, Y. Hirooka, K. Nakamura, K. Hanada, H. Idei, M. Hasegawa, K. N. Sato, M. Ogawa, O. Takaki, K. Sasaki, H. Xu, S. Kawasaki, H. NakashimaA. Higashijima

Division of Nuclear Fusion Dynamics

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

In order to investigate the surface temperature effects on plasma fuel recycling and impurity release from the plasma facing components, plasma discharges have been performed under selected plasma-wall interaction (PWI) conditions in the high-field superconducting tokamak, TRIAM-1M. By moving a water-cooled molybdenum movable limiter (ML) beyond the last closed flux surface, as defined by poloidal limiters, the surface temperature profile on it is varied. Hot spots have been observed on the ML surface in such conditions. The release behaviour of fuel as well as impurity particles from the ML surface has been studied as a function of hot spot temperature (T_hot) by means of wide range spectroscopy (200-1600 nm). A critical T_hot is found to be ∼2100 K above which the emission of both hydrogen and impurity particles enhances significantly. This is indicative of some thermally activated process playing an important role in PWIs between the limiter and the edge plasma. With the rise in hot spot temperature localized PWI at the ML is found to dominate the global recycling even when external fuelling is stopped.

Original language	English
Article number	018
Pages (from-to)	864-874
Number of pages	11
Journal	Nuclear Fusion
Volume	47
Issue number	8
DOIs	https://doi.org/10.1088/0029-5515/47/8/018
Publication status	Published - Aug 1 2007

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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Bhattacharyay, R., Zushi, H., Nakashima, K., Shikama, T., Sakamoto, M., Yoshida, N., Kado, S., Sawada, K., Hirooka, Y., Nakamura, K., Hanada, K., Idei, H., Hasegawa, M., Sato, K. N., Ogawa, M., Takaki, O., Sasaki, K., Xu, H., Kawasaki, S., ... Higashijima, A. (2007). A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak. Nuclear Fusion, 47(8), 864-874. Article 018. https://doi.org/10.1088/0029-5515/47/8/018

Bhattacharyay, R, Zushi, H, Nakashima, K, Shikama, T, Sakamoto, M, Yoshida, N, Kado, S, Sawada, K, Hirooka, Y, Nakamura, K, Hanada, K , Idei, H , Hasegawa, M, Sato, KN, Ogawa, M, Takaki, O, Sasaki, K, Xu, H, Kawasaki, S, Nakashima, H & Higashijima, A 2007, 'A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak', Nuclear Fusion, vol. 47, no. 8, 018, pp. 864-874. https://doi.org/10.1088/0029-5515/47/8/018

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title = "A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak",

abstract = "In order to investigate the surface temperature effects on plasma fuel recycling and impurity release from the plasma facing components, plasma discharges have been performed under selected plasma-wall interaction (PWI) conditions in the high-field superconducting tokamak, TRIAM-1M. By moving a water-cooled molybdenum movable limiter (ML) beyond the last closed flux surface, as defined by poloidal limiters, the surface temperature profile on it is varied. Hot spots have been observed on the ML surface in such conditions. The release behaviour of fuel as well as impurity particles from the ML surface has been studied as a function of hot spot temperature (Thot) by means of wide range spectroscopy (200-1600 nm). A critical Thot is found to be ∼2100 K above which the emission of both hydrogen and impurity particles enhances significantly. This is indicative of some thermally activated process playing an important role in PWIs between the limiter and the edge plasma. With the rise in hot spot temperature localized PWI at the ML is found to dominate the global recycling even when external fuelling is stopped.",

author = "R. Bhattacharyay and H. Zushi and K. Nakashima and T. Shikama and M. Sakamoto and N. Yoshida and S. Kado and K. Sawada and Y. Hirooka and K. Nakamura and K. Hanada and H. Idei and M. Hasegawa and Sato, {K. N.} and M. Ogawa and O. Takaki and K. Sasaki and H. Xu and S. Kawasaki and H. Nakashima and A. Higashijima",

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AU - Bhattacharyay, R.

AU - Zushi, H.

AU - Nakashima, K.

AU - Shikama, T.

AU - Sakamoto, M.

AU - Yoshida, N.

AU - Kado, S.

AU - Sawada, K.

AU - Hirooka, Y.

AU - Nakamura, K.

AU - Hanada, K.

AU - Idei, H.

AU - Hasegawa, M.

AU - Sato, K. N.

AU - Ogawa, M.

AU - Takaki, O.

AU - Sasaki, K.

AU - Xu, H.

AU - Kawasaki, S.

AU - Nakashima, H.

AU - Higashijima, A.

PY - 2007/8/1

Y1 - 2007/8/1

N2 - In order to investigate the surface temperature effects on plasma fuel recycling and impurity release from the plasma facing components, plasma discharges have been performed under selected plasma-wall interaction (PWI) conditions in the high-field superconducting tokamak, TRIAM-1M. By moving a water-cooled molybdenum movable limiter (ML) beyond the last closed flux surface, as defined by poloidal limiters, the surface temperature profile on it is varied. Hot spots have been observed on the ML surface in such conditions. The release behaviour of fuel as well as impurity particles from the ML surface has been studied as a function of hot spot temperature (Thot) by means of wide range spectroscopy (200-1600 nm). A critical Thot is found to be ∼2100 K above which the emission of both hydrogen and impurity particles enhances significantly. This is indicative of some thermally activated process playing an important role in PWIs between the limiter and the edge plasma. With the rise in hot spot temperature localized PWI at the ML is found to dominate the global recycling even when external fuelling is stopped.

AB - In order to investigate the surface temperature effects on plasma fuel recycling and impurity release from the plasma facing components, plasma discharges have been performed under selected plasma-wall interaction (PWI) conditions in the high-field superconducting tokamak, TRIAM-1M. By moving a water-cooled molybdenum movable limiter (ML) beyond the last closed flux surface, as defined by poloidal limiters, the surface temperature profile on it is varied. Hot spots have been observed on the ML surface in such conditions. The release behaviour of fuel as well as impurity particles from the ML surface has been studied as a function of hot spot temperature (Thot) by means of wide range spectroscopy (200-1600 nm). A critical Thot is found to be ∼2100 K above which the emission of both hydrogen and impurity particles enhances significantly. This is indicative of some thermally activated process playing an important role in PWIs between the limiter and the edge plasma. With the rise in hot spot temperature localized PWI at the ML is found to dominate the global recycling even when external fuelling is stopped.

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A study on temperature effects on hydrogen recycling and molybdenum impurity emission from a movable limiter in TRIAM-1M Tokamak

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