Analysis of Pumping Requirement for Exhausting Duct in Close Vicinity of Divertor in Tokamak Reactor

1 November 1983

journal article
research article
Published by Taylor & Francis in Nuclear Technology - Fusion

Vol. 4 (3) , 498-507
https://doi.org/10.13182/FST83-A22799

Abstract

An improved method for Monte Carlo simulation is described to calculate the neutral-particle transport in a divertor throat and to evaluate the helium removal efficiency from a burning plasma. The required pumping speed for the helium removal is discussed with special emphasis placed on the effects of long exhausting duct and of scrape-off plasma variables. The analysis for International Tokamak Reactor (INTOR) single null divertor suggests a possibility that the pumping requirement for INTOR could be drastically eased—e.g., 4 ℓ/s, for the high scrape-off plasma density of the order of 10¹³ cm^–3.

Keywords

This publication has 9 references indexed in Scilit:

Cool, High-Density Regime for Poloidal Divertors
Physical Review Letters, 1982
Helium Ash Exhaust with Single-Null Poloidal Divertor in Doublet III
Physical Review Letters, 1981
Efficacy of Passive-Limiter Pumping of Neutral Particles
Physical Review Letters, 1981
Experimental results on boundary plasmas, resulting surface interactions and extrapolation to large fusion devices
Journal of Nuclear Materials, 1980
Numerical calculations of helium ash enrichment and exhaust by a simple divertor
Nuclear Fusion, 1980
Plasma-surface interactions in tokamaks
Nuclear Fusion, 1979
A Monte Carlo algorithm for calculating neutral gas transport in cylindrical plasmas
Journal of Computational Physics, 1978
Penetration of fast hydrogen atoms into a fusion reactor plasma
Nuclear Fusion, 1971
Electron-impact ionization cross-sections and ionization rate coefficients for atoms and ions from hydrogen to calcium
The European Physical Journal A, 1968