Effects of particle exhaust on neutral compression ratios in DIII-D

R. J. Colchin; R. Maingi; S. L. Allen; C. M. Greenfield; M. R. Wade

doi:10.1016/S0022-3115(98)00539-X

Effects of particle exhaust on neutral compression ratios in DIII-D

R. J. Colchin, R. Maingi, S. L. Allen, C. M. Greenfield, M. R. Wade

Research output: Contribution to journal › Conference article › peer-review

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Abstract

In this paper, neutral particles in DIII-D are studied via their compression in the plenum and via particle exhaust. The compression of gas in the plena is examined in terms of the magnetic field configuration and wall conditions. DIII-D compression ratios are observed in the range from 1 to ≥1000. Particle control ultimately depends on the exhaust of neutrals via plenum or wall pumping. Wall pumping or outgassing is calculated by means of a detailed particle balance throughout individual discharges, and its effect on particle control is discussed. It is demonstrated that particle control through wall conditioning leads to lower normalized densities. A two-region model shows that the gas compression ratio (C_div = divertor plenum neutral pressure/torus neutral pressure) can be interpreted in relation to gas flows in the torus and divertor including the pumping speed of the plenum cryopumps, plasma pumping, and the pumping or outgassing of the walls.

Original language	English
Pages (from-to)	472-477
Number of pages	6
Journal	Journal of Nuclear Materials
Volume	266
DOIs	https://doi.org/10.1016/S0022-3115(98)00539-X
State	Published - Mar 2 1999

Funding

Work was supported by US DOE Contracts DE-AC05-96OR22464, W-7405-ENG-48, DE-AC03-89ER51114.

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10.1016/S0022-3115(98)00539-X

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title = "Effects of particle exhaust on neutral compression ratios in DIII-D",

abstract = "In this paper, neutral particles in DIII-D are studied via their compression in the plenum and via particle exhaust. The compression of gas in the plena is examined in terms of the magnetic field configuration and wall conditions. DIII-D compression ratios are observed in the range from 1 to ≥1000. Particle control ultimately depends on the exhaust of neutrals via plenum or wall pumping. Wall pumping or outgassing is calculated by means of a detailed particle balance throughout individual discharges, and its effect on particle control is discussed. It is demonstrated that particle control through wall conditioning leads to lower normalized densities. A two-region model shows that the gas compression ratio (Cdiv = divertor plenum neutral pressure/torus neutral pressure) can be interpreted in relation to gas flows in the torus and divertor including the pumping speed of the plenum cryopumps, plasma pumping, and the pumping or outgassing of the walls.",

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T1 - Effects of particle exhaust on neutral compression ratios in DIII-D

AU - Colchin, R. J.

AU - Maingi, R.

AU - Allen, S. L.

AU - Greenfield, C. M.

AU - Wade, M. R.

PY - 1999/3/2

Y1 - 1999/3/2

N2 - In this paper, neutral particles in DIII-D are studied via their compression in the plenum and via particle exhaust. The compression of gas in the plena is examined in terms of the magnetic field configuration and wall conditions. DIII-D compression ratios are observed in the range from 1 to ≥1000. Particle control ultimately depends on the exhaust of neutrals via plenum or wall pumping. Wall pumping or outgassing is calculated by means of a detailed particle balance throughout individual discharges, and its effect on particle control is discussed. It is demonstrated that particle control through wall conditioning leads to lower normalized densities. A two-region model shows that the gas compression ratio (Cdiv = divertor plenum neutral pressure/torus neutral pressure) can be interpreted in relation to gas flows in the torus and divertor including the pumping speed of the plenum cryopumps, plasma pumping, and the pumping or outgassing of the walls.

AB - In this paper, neutral particles in DIII-D are studied via their compression in the plenum and via particle exhaust. The compression of gas in the plena is examined in terms of the magnetic field configuration and wall conditions. DIII-D compression ratios are observed in the range from 1 to ≥1000. Particle control ultimately depends on the exhaust of neutrals via plenum or wall pumping. Wall pumping or outgassing is calculated by means of a detailed particle balance throughout individual discharges, and its effect on particle control is discussed. It is demonstrated that particle control through wall conditioning leads to lower normalized densities. A two-region model shows that the gas compression ratio (Cdiv = divertor plenum neutral pressure/torus neutral pressure) can be interpreted in relation to gas flows in the torus and divertor including the pumping speed of the plenum cryopumps, plasma pumping, and the pumping or outgassing of the walls.

UR - https://www.scopus.com/pages/publications/0032665647

U2 - 10.1016/S0022-3115(98)00539-X

DO - 10.1016/S0022-3115(98)00539-X

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SN - 0022-3115

VL - 266

SP - 472

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JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

ER -

Effects of particle exhaust on neutral compression ratios in DIII-D

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