Journal article
A MINi Powder INjector (MINPIN) for the SMART tokamak
Review of scientific instruments, v 97(3), 033504
01 Mar 2026
PMID: 41784497
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Abstract
This article presents the design and performance characterization of a MINi Powder INjector (MINPIN) developed for boron wall conditioning (boronization) in the SMall Aspect Ratio Tokamak (SMART) at the University of Seville, Spain. SMART studies positive and negative triangularity plasmas within the low aspect ratio range of 1.4 < R/a < 3, with a major radius (R) of 0.40-0.60 m and a minor radius (a) of 0.20-0.33 m. MINPIN, in design, will gravitationally deliver boron (B) powder into the plasma, which ablates and transports the injected material. Mounted on the top of the vessel, the MINPIN will drop controlled amounts of powder using a piezoelectric blade driven by a signal generator that vibrates at a set frequency. The B will then be deposited in a layer on SMART's stainless steel vacuum vessel walls, and this boronization process reduces the influx of intrinsic wall impurities, such as oxygen, carbon, nitrogen, and iron, which radiate power and cool the plasma. In the laboratory, we calibrated the drop rate for 1-10 mg/s, which will enable controlled boronization coating while achieving efficient powder ablation. We propose MINPIN's operational scenarios based on the calibrated drop rate and estimated drop duration, assuming the distance from MINPIN to SMART's plasmas.
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Details
- Title
- A MINi Powder INjector (MINPIN) for the SMART tokamak
- Creators
- S Abe - Princeton Plasma Physics Laboratory, Princeton, New Jersey 08543, USAA Luby - Drexel University, PhysicsA Rodriguez-Gonzalez - Universidad de SevillaF Nespoli - Princeton Plasma Physics LaboratoryS Sawford - Pennsylvania State UniversityR Lunsford - Princeton Plasma Physics LaboratoryJ W Berkery - Princeton Plasma Physics LaboratoryD J Cruz-Zabala - Universidad de SevillaJ Salas-Suarez-Barcena - Universidad de SevillaM Garcia-Munoz - Universidad de SevillaE Viezzer - Universidad de Sevilla
- Publication Details
- Review of scientific instruments, v 97(3), 033504
- Publisher
- AIP Publishing
- Number of pages
- 7
- Grant note
- U.S. Department of Energy: DE-AC02-09CH11466
We acknowledge Dennis Mansfield, Rajesh Maingi, Alessandro Bortolon, and Syun'ichi Shiraiwa for their support of experimental resources, technical support, and advice. This manuscript has been authored by Princeton University's Princeton Plasma Physics Laboratory under Contract No. DE-AC02-09CH11466 with the U.S. Department of Energy. We also acknowledge support of this work by the U.S. Department of Energy, Office of Science/Fusion Energy Sciences under the DOE SULI program.
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Physics
- Web of Science ID
- WOS:001707305900001
- Scopus ID
- 2-s2.0-105032071595
- Other Identifier
- 991022170456104721