Creation of Impurity Source inside Plasmas with Various Types of Tracer-Encapsulated Solid Pellet

Tamura, N.; Sudo, S.; Suzuki, C.; Funaba, H.

doi:10.1585/pfr.10.1402056

Cited by 8 publications

(4 citation statements)

References 23 publications

(24 reference statements)

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“…From past experience with such polystyrene shells, and to be on the safe side, the polystyrene shell with an outer diameter of 900 μm and an inner core diameter of 660 μm (the shell thickness being 120 μm) is currently under development. Compared with the thick-shell-type TESPEL 24 having the outer diameter of 900 μm and the inner core diameter of 300 μm, i.e., a shell thickness of 300 μm (used in the proof-ofprinciple experiment), the TESPEL payload capacity will increase approximately tenfold. Therefore, based on the results of the second test of the proof-of-principle experiment, a single TESPEL containing a sufficient amount of the inorganic compound impurity tracer will be applicable in the very near future.…”

Section: Discussionmentioning

confidence: 99%

A new multi-tracer pellet injection for a simultaneous study of low- and mid/high-Z impurities in high-temperature plasmas

Tamura

Yoshinuma

Yin

et al. 2021

Review of Scientific Instruments

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A new multi-tracer technique in the Tracer-Encapsulated Solid Pellet (TESPEL) method has been developed in order to acquire simultaneously the information about the behaviors of various impurities, i.e., to study concurrently the behaviors of low-and mid/high-Z impurities in magnetically confined high-temperature plasmas. In this new technique, an inorganic compound (for example, lithium titanate, Li 2 TiO 3 ) is proposed to be used as a tracer embedded in the core of the TESPEL, instead of pure elements. The results of the proof-ofprinciple experiment clearly demonstrate the applicability of the new multi-tracer technique in the TESPEL method for the simultaneous study of behaviors of low-and mid/high-Z impurities in high-temperature plasmas.

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Section: Discussionmentioning

confidence: 99%

A new multi-tracer pellet injection for a simultaneous study of low- and mid/high-Z impurities in high-temperature plasmas

Tamura

Yoshinuma

Yin

et al. 2021

Review of Scientific Instruments

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“…Core-shell spheres have also been developed and adopted in MF applications-see two examples shown in figure 10. Small hollow pellets are excellent tools for the calibration of spectroscopic diagnostics in tokamaks and stellarators like LHD [9,39], as a well-known quantity of the desired mat erial can be delivered to the plasma core. The shell protects the core material from ablation and loss in the launch tube and plasma edge region and ensures that the desired quantity of mat erial to be studied reaches the core.…”

Section: Existing Optionsmentioning

confidence: 99%

Hollow pellet injection for magnetic fusion

et al. 2019

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The precise delivery of mass to burning plasmas is an area of growing interest in magnetic fusion (MF). The amount of mass that is necessary and sufficient can vary depending on such parameters as the type of atoms involved, the type of applications, plasma conditions, mass injector, and injection timing. Motivated by edge localized mode (ELM) control in H-mode plasmas, disruption mitigation and other applications in MF, we report the progress and new possibilities in mass delivery based on hollow pellets. Here, a hollow pellet refers to a spherical shell mass structure with a hollow core. Based on an empirical model of pellet ablation, coupled with BOUT++ simulations of the ELM triggering threshold, hollow pellets are found to be attractive in comparison with solid spheres for ELM control. By using hollow pellets, it is possible to tailor mass delivery to certain regions of edge plasmas while minimizing core contamination and reducing the total amount of mass needed. We also include the experimental progress in mass delivery experiments, in situ diagnostics and hollow pellet fabrication, and emphasize new experimental possibilities for ELM control based on hollow pellets. A related application is the disruption mitigation scheme using powder encapsulated inside hollow shells. Further experiments will also help to resolve known discrepancies between theoretical predictions and experiments in using mass injection for ELM control and leading to better predictive models for ELM stability and triggering.

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“…Preliminary results showed that the edge flow structure is oscillated in the condition near the density threshold of transition and turbulence intensity is related with the flow, but it is changed during the oscillatory phase. Solitary and mono-cycle shaped flow structure appears by the small pellet (TESPEL [51]) injection in which the local potential change travels towards the core with two different time scales and the sign of flow velocity in the edge region changes abruptly.…”

Section: Flow Structuresmentioning

confidence: 99%

The 7th Asia-Pacific Transport Working Group (APTWG) meeting

Ida¹,

Kong²,

Fujita³

et al. 2017

Nucl. Fusion

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This conference report summarizes the contributions to, and discussions at, the 7th Asia-Pacific Transport Working Group Meeting held at Nagoya University, Japan, during 5–8 June 2017. The topics of the meeting were organized under four main headings: (1) turbulence and blob at the boundary of magnetic topology, (2) model reduction and experiments for validation, (3) mode competition in turbulence and MHD driven by energetic particle, (4) mechanism determining plasma flows and their impact on transport and MHD. The Young Researchers Forum which was held in this meeting is also described in this report.

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Creation of Impurity Source inside Plasmas with Various Types of Tracer-Encapsulated Solid Pellet

Cited by 8 publications

References 23 publications

A new multi-tracer pellet injection for a simultaneous study of low- and mid/high-Z impurities in high-temperature plasmas

A new multi-tracer pellet injection for a simultaneous study of low- and mid/high-Z impurities in high-temperature plasmas

Hollow pellet injection for magnetic fusion

The 7th Asia-Pacific Transport Working Group (APTWG) meeting

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