Investigating the effect of different impurities on plasma detachment in linear plasma machine Magnum-PSI

To achieve a tolerable heat and particle flux to the divertor target of fusion reactors, the so-called plasma detachment is essential to be set up and controlled. Impurity seeding facilitates the achievement of such a regime, mostly due to the enhanced plasma radiation led by the excitation-relaxati...

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Veröffentlicht in:	Physics of plasmas 2019-10, Vol.26 (10)
Hauptverfasser:	Perillo, R., Chandra, R., Akkermans, G. R. A., Classen, I. G. J., Korving, S. Q.
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Sprache:	eng
Schlagworte:	Argon Chemical reactions Computer simulation Fusion reactors Gas mixtures Heat flux Heat transfer Helium Hydrogen plasma Impurities Ion recombination Organic chemistry Plasma Plasma physics Plasma pressure Plasma radiation
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creator	Perillo, R. Chandra, R. Akkermans, G. R. A. Classen, I. G. J. Korving, S. Q.
description	To achieve a tolerable heat and particle flux to the divertor target of fusion reactors, the so-called plasma detachment is essential to be set up and controlled. Impurity seeding facilitates the achievement of such a regime, mostly due to the enhanced plasma radiation led by the excitation-relaxation cycle of such species. Little is known about the impurity-induced plasma chemical processes occurring in the divertor region during detachment operation. In this work, the influence of three different impurities, i.e., N2, Ar, and He, on detachment performance is studied. To do so, experimental campaigns on the linear plasma machine Magnum-PSI have been carried out. Results highlight the beneficial role of N2 + H2 seeding, decreasing the plasma pressure in front of the target, leading to a reduced heat load compared to the pure H2 seeding case. An opposite trend has been found concerning He and Ar puffing. In fact, injection of H2 + He and H2 + Ar gas mixtures led to an increased heat flux. To address the importance of different plasma-chemical reaction paths, global plasma models have been used. The resulting reduced reaction schemes for Ar + H2, He + H2, and N2 + H2 have been implemented in B2.5-Eunomia, a coupled code consisting of a Monte Carlo code treating the transport of neutrals and a fluid code solving plasma equations. Simulation results qualitatively reproduce the favorable effect of N2, while confirming the deteriorating effect of He and Ar on a detachedlike hydrogen plasma. We point the synergetic role of H2 + N2 to be due to molecular-driven ion recombination, i.e., N-molecular-assisted recombination (MAR). A direct comparison of the collision frequency between N-MAR and MAR is showed, highlighting the crucial importance of the former in reducing the ion and heat flux to the target plate.
doi_str_mv	10.1063/1.5120180
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R. A. ; Classen, I. G. J. ; Korving, S. Q.</creator><creatorcontrib>Perillo, R. ; Chandra, R. ; Akkermans, G. R. A. ; Classen, I. G. J. ; Korving, S. Q. ; Magnum-PSI Team</creatorcontrib><description>To achieve a tolerable heat and particle flux to the divertor target of fusion reactors, the so-called plasma detachment is essential to be set up and controlled. Impurity seeding facilitates the achievement of such a regime, mostly due to the enhanced plasma radiation led by the excitation-relaxation cycle of such species. Little is known about the impurity-induced plasma chemical processes occurring in the divertor region during detachment operation. In this work, the influence of three different impurities, i.e., N2, Ar, and He, on detachment performance is studied. To do so, experimental campaigns on the linear plasma machine Magnum-PSI have been carried out. Results highlight the beneficial role of N2 + H2 seeding, decreasing the plasma pressure in front of the target, leading to a reduced heat load compared to the pure H2 seeding case. An opposite trend has been found concerning He and Ar puffing. In fact, injection of H2 + He and H2 + Ar gas mixtures led to an increased heat flux. To address the importance of different plasma-chemical reaction paths, global plasma models have been used. The resulting reduced reaction schemes for Ar + H2, He + H2, and N2 + H2 have been implemented in B2.5-Eunomia, a coupled code consisting of a Monte Carlo code treating the transport of neutrals and a fluid code solving plasma equations. Simulation results qualitatively reproduce the favorable effect of N2, while confirming the deteriorating effect of He and Ar on a detachedlike hydrogen plasma. We point the synergetic role of H2 + N2 to be due to molecular-driven ion recombination, i.e., N-molecular-assisted recombination (MAR). 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Q.</creatorcontrib><creatorcontrib>Magnum-PSI Team</creatorcontrib><title>Investigating the effect of different impurities on plasma detachment in linear plasma machine Magnum-PSI</title><title>Physics of plasmas</title><description>To achieve a tolerable heat and particle flux to the divertor target of fusion reactors, the so-called plasma detachment is essential to be set up and controlled. Impurity seeding facilitates the achievement of such a regime, mostly due to the enhanced plasma radiation led by the excitation-relaxation cycle of such species. Little is known about the impurity-induced plasma chemical processes occurring in the divertor region during detachment operation. In this work, the influence of three different impurities, i.e., N2, Ar, and He, on detachment performance is studied. To do so, experimental campaigns on the linear plasma machine Magnum-PSI have been carried out. Results highlight the beneficial role of N2 + H2 seeding, decreasing the plasma pressure in front of the target, leading to a reduced heat load compared to the pure H2 seeding case. An opposite trend has been found concerning He and Ar puffing. In fact, injection of H2 + He and H2 + Ar gas mixtures led to an increased heat flux. To address the importance of different plasma-chemical reaction paths, global plasma models have been used. The resulting reduced reaction schemes for Ar + H2, He + H2, and N2 + H2 have been implemented in B2.5-Eunomia, a coupled code consisting of a Monte Carlo code treating the transport of neutrals and a fluid code solving plasma equations. Simulation results qualitatively reproduce the favorable effect of N2, while confirming the deteriorating effect of He and Ar on a detachedlike hydrogen plasma. We point the synergetic role of H2 + N2 to be due to molecular-driven ion recombination, i.e., N-molecular-assisted recombination (MAR). A direct comparison of the collision frequency between N-MAR and MAR is showed, highlighting the crucial importance of the former in reducing the ion and heat flux to the target plate.</description><subject>Argon</subject><subject>Chemical reactions</subject><subject>Computer simulation</subject><subject>Fusion reactors</subject><subject>Gas mixtures</subject><subject>Heat flux</subject><subject>Heat transfer</subject><subject>Helium</subject><subject>Hydrogen plasma</subject><subject>Impurities</subject><subject>Ion recombination</subject><subject>Organic chemistry</subject><subject>Plasma</subject><subject>Plasma physics</subject><subject>Plasma pressure</subject><subject>Plasma radiation</subject><issn>1070-664X</issn><issn>1089-7674</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNqdkEtLAzEUhYMoWKsL_0HAlcLUZDKTx1KKj0JFwS7chThJ2pROZkwyBf-9qa24d3UP53zcyz0AXGI0wYiSWzypcYkwR0dghBEXBaOsOt5phgpKq_dTcBbjGiFU0ZqPgJv5rYnJLVVyfgnTykBjrWkS7CzULstgfIKu7YfgkjMRdh72GxVbBbVJqlm1P7mHG-eNCr9Zm5NswGe19ENbvL7NzsGJVZtoLg5zDBYP94vpUzF_eZxN7-ZFU5U8FZiZiuFGacxJSS3hnBija2ayJ7CmBNWaiUo3mJEPJHjNsbGGlpUVorSWjMHVfm0fus8hvybX3RB8vijLUohaoF1PY3C9p5rQxRiMlX1wrQpfEiO5AySWhyIze7NnY-NSrqnz_4O3XfgDZa8t-QZQt4Gy</recordid><startdate>201910</startdate><enddate>201910</enddate><creator>Perillo, R.</creator><creator>Chandra, R.</creator><creator>Akkermans, G. 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J.</creatorcontrib><creatorcontrib>Korving, S. Q.</creatorcontrib><creatorcontrib>Magnum-PSI Team</creatorcontrib><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Physics of plasmas</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Perillo, R.</au><au>Chandra, R.</au><au>Akkermans, G. R. A.</au><au>Classen, I. G. J.</au><au>Korving, S. Q.</au><aucorp>Magnum-PSI Team</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Investigating the effect of different impurities on plasma detachment in linear plasma machine Magnum-PSI</atitle><jtitle>Physics of plasmas</jtitle><date>2019-10</date><risdate>2019</risdate><volume>26</volume><issue>10</issue><issn>1070-664X</issn><eissn>1089-7674</eissn><coden>PHPAEN</coden><abstract>To achieve a tolerable heat and particle flux to the divertor target of fusion reactors, the so-called plasma detachment is essential to be set up and controlled. Impurity seeding facilitates the achievement of such a regime, mostly due to the enhanced plasma radiation led by the excitation-relaxation cycle of such species. Little is known about the impurity-induced plasma chemical processes occurring in the divertor region during detachment operation. In this work, the influence of three different impurities, i.e., N2, Ar, and He, on detachment performance is studied. To do so, experimental campaigns on the linear plasma machine Magnum-PSI have been carried out. Results highlight the beneficial role of N2 + H2 seeding, decreasing the plasma pressure in front of the target, leading to a reduced heat load compared to the pure H2 seeding case. An opposite trend has been found concerning He and Ar puffing. In fact, injection of H2 + He and H2 + Ar gas mixtures led to an increased heat flux. To address the importance of different plasma-chemical reaction paths, global plasma models have been used. The resulting reduced reaction schemes for Ar + H2, He + H2, and N2 + H2 have been implemented in B2.5-Eunomia, a coupled code consisting of a Monte Carlo code treating the transport of neutrals and a fluid code solving plasma equations. Simulation results qualitatively reproduce the favorable effect of N2, while confirming the deteriorating effect of He and Ar on a detachedlike hydrogen plasma. We point the synergetic role of H2 + N2 to be due to molecular-driven ion recombination, i.e., N-molecular-assisted recombination (MAR). A direct comparison of the collision frequency between N-MAR and MAR is showed, highlighting the crucial importance of the former in reducing the ion and heat flux to the target plate.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.5120180</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0001-6696-5970</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Argon Chemical reactions Computer simulation Fusion reactors Gas mixtures Heat flux Heat transfer Helium Hydrogen plasma Impurities Ion recombination Organic chemistry Plasma Plasma physics Plasma pressure Plasma radiation
title	Investigating the effect of different impurities on plasma detachment in linear plasma machine Magnum-PSI
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