Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps

A. Litnovsky; V. Philipps; P. Wienhold; K. Krieger; A. Kirschner; D. Borodin; G. Sergienko; O. Schmitz; A. Kreter; U. Samm; S. Richter; U. Breuer

doi:10.1016/j.jnucmat.2008.12.231

Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps

A. Litnovsky
, V. Philipps
, P. Wienhold
, K. Krieger
, A. Kirschner
, D. Borodin
, G. Sergienko
, O. Schmitz
, A. Kreter
, U. Samm
, S. Richter
, U. Breuer

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

7 Scopus citations

Abstract

Castellation is foreseen for the first wall and divertor area in ITER. The concern of the fuel accumulation and impurity deposition in the gaps of castellated structures calls for dedicated studies. Recently, a tungsten castellated limiter with rectangular and roof-like shaped cells was exposed to the SOL plasmas in TEXTOR. After exposure, roughly two times less fuel was found in the gaps between the shaped cells whereas the difference in carbon deposition was less pronounced. Up to 70 at.% of tungsten was found intermixed in the deposited layers in the gaps. The metal fraction in the deposit decreases rapidly with a depth of the gap. Modeling of carbon deposition in poloidal gaps has provided a qualitative agreement with an experiment. The significant anisotropy of C and D distributions in the toroidal gaps was measured.

Original language	English
Pages (from-to)	809-812
Number of pages	4
Journal	Journal of Nuclear Materials
Volume	386-388
Issue number	C
DOIs	https://doi.org/10.1016/j.jnucmat.2008.12.231
State	Published - 30 Apr 2009
Externally published	Yes

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10.1016/j.jnucmat.2008.12.231

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Litnovsky, A., Philipps, V., Wienhold, P., Krieger, K., Kirschner, A., Borodin, D., Sergienko, G., Schmitz, O., Kreter, A., Samm, U., Richter, S., & Breuer, U. (2009). Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps. Journal of Nuclear Materials, 386-388(C), 809-812. https://doi.org/10.1016/j.jnucmat.2008.12.231

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title = "Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps",

abstract = "Castellation is foreseen for the first wall and divertor area in ITER. The concern of the fuel accumulation and impurity deposition in the gaps of castellated structures calls for dedicated studies. Recently, a tungsten castellated limiter with rectangular and roof-like shaped cells was exposed to the SOL plasmas in TEXTOR. After exposure, roughly two times less fuel was found in the gaps between the shaped cells whereas the difference in carbon deposition was less pronounced. Up to 70 at.\% of tungsten was found intermixed in the deposited layers in the gaps. The metal fraction in the deposit decreases rapidly with a depth of the gap. Modeling of carbon deposition in poloidal gaps has provided a qualitative agreement with an experiment. The significant anisotropy of C and D distributions in the toroidal gaps was measured.",

author = "A. Litnovsky and V. Philipps and P. Wienhold and K. Krieger and A. Kirschner and D. Borodin and G. Sergienko and O. Schmitz and A. Kreter and U. Samm and S. Richter and U. Breuer",

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doi = "10.1016/j.jnucmat.2008.12.231",

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Litnovsky, A, Philipps, V, Wienhold, P, Krieger, K, Kirschner, A, Borodin, D, Sergienko, G, Schmitz, O, Kreter, A, Samm, U, Richter, S & Breuer, U 2009, 'Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps', Journal of Nuclear Materials, vol. 386-388, no. C, pp. 809-812. https://doi.org/10.1016/j.jnucmat.2008.12.231

TY - JOUR

T1 - Castellated structures for ITER

T2 - Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps

AU - Litnovsky, A.

AU - Philipps, V.

AU - Wienhold, P.

AU - Krieger, K.

AU - Kirschner, A.

AU - Borodin, D.

AU - Sergienko, G.

AU - Schmitz, O.

AU - Kreter, A.

AU - Samm, U.

AU - Richter, S.

AU - Breuer, U.

PY - 2009/4/30

Y1 - 2009/4/30

N2 - Castellation is foreseen for the first wall and divertor area in ITER. The concern of the fuel accumulation and impurity deposition in the gaps of castellated structures calls for dedicated studies. Recently, a tungsten castellated limiter with rectangular and roof-like shaped cells was exposed to the SOL plasmas in TEXTOR. After exposure, roughly two times less fuel was found in the gaps between the shaped cells whereas the difference in carbon deposition was less pronounced. Up to 70 at.% of tungsten was found intermixed in the deposited layers in the gaps. The metal fraction in the deposit decreases rapidly with a depth of the gap. Modeling of carbon deposition in poloidal gaps has provided a qualitative agreement with an experiment. The significant anisotropy of C and D distributions in the toroidal gaps was measured.

AB - Castellation is foreseen for the first wall and divertor area in ITER. The concern of the fuel accumulation and impurity deposition in the gaps of castellated structures calls for dedicated studies. Recently, a tungsten castellated limiter with rectangular and roof-like shaped cells was exposed to the SOL plasmas in TEXTOR. After exposure, roughly two times less fuel was found in the gaps between the shaped cells whereas the difference in carbon deposition was less pronounced. Up to 70 at.% of tungsten was found intermixed in the deposited layers in the gaps. The metal fraction in the deposit decreases rapidly with a depth of the gap. Modeling of carbon deposition in poloidal gaps has provided a qualitative agreement with an experiment. The significant anisotropy of C and D distributions in the toroidal gaps was measured.

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JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

IS - C

ER -

Castellated structures for ITER: Differences of impurity deposition and fuel accumulation in the toroidal and poloidal gaps

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