Surrogate approximation of the Grad–Shafranov free boundary problem via stochastic collocation on sparse grids
•Surrogate model of magnetic confinement equilibrium with stochastic parameters.•The surrogate function bypasses the solution of the free boundary problem.•Sparse grids in parameter space reduce the cost of tensor product grids.•Reduction of the time for Monte Carlo simulations by factors between 7...
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| Published in | Journal of computational physics Vol. 448; p. 110699 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Elsevier Inc
01.01.2022
Elsevier Science Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-9991 1090-2716 |
| DOI | 10.1016/j.jcp.2021.110699 |
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| Abstract | •Surrogate model of magnetic confinement equilibrium with stochastic parameters.•The surrogate function bypasses the solution of the free boundary problem.•Sparse grids in parameter space reduce the cost of tensor product grids.•Reduction of the time for Monte Carlo simulations by factors between 7 and 30.
In magnetic confinement fusion devices, the equilibrium configuration of a plasma is determined by the balance between the hydrostatic pressure in the fluid and the magnetic forces generated by an array of external coils and the plasma itself. The location of the plasma is not known a priori and must be obtained as the solution to a free boundary problem. The partial differential equation that determines the behavior of the combined magnetic field depends on a set of physical parameters (location of the coils, intensity of the electric currents going through them, magnetic permeability, etc.) that are subject to uncertainty and variability. The confinement region is in turn a function of these stochastic parameters as well. In this work, we consider variations on the current intensities running through the external coils as the dominant source of uncertainty. This leads to a parameter space of dimension equal to the number of coils in the reactor. With the aid of a surrogate function built on a sparse grid in parameter space, a Monte Carlo strategy is used to explore the effect that stochasticity in the parameters has on important features of the plasma boundary such as the location of the x-point, the strike points, and shaping attributes such as triangularity and elongation. The use of the surrogate function reduces the time required for the Monte Carlo simulations by factors that range between 7 and over 30. |
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| AbstractList | In magnetic confinement fusion devices, the equilibrium configuration of a plasma is determined by the balance between the hydrostatic pressure in the fluid and the magnetic forces generated by an array of external coils and the plasma itself. The location of the plasma is not known a priori and must be obtained as the solution to a free boundary problem. The partial differential equation that determines the behavior of the combined magnetic field depends on a set of physical parameters (location of the coils, intensity of the electric currents going through them, magnetic permeability, etc.) that are subject to uncertainty and variability. The confinement region is in turn a function of these stochastic parameters as well. In this work, we consider variations on the current intensities running through the external coils as the dominant source of uncertainty. This leads to a parameter space of dimension equal to the number of coils in the reactor. With the aid of a surrogate function built on a sparse grid in parameter space, a Monte Carlo strategy is used to explore the effect that stochasticity in the parameters has on important features of the plasma boundary such as the location of the x-point, the strike points, and shaping attributes such as triangularity and elongation. The use of the surrogate function reduces the time required for the Monte Carlo simulations by factors that range between 7 and over 30. •Surrogate model of magnetic confinement equilibrium with stochastic parameters.•The surrogate function bypasses the solution of the free boundary problem.•Sparse grids in parameter space reduce the cost of tensor product grids.•Reduction of the time for Monte Carlo simulations by factors between 7 and 30. In magnetic confinement fusion devices, the equilibrium configuration of a plasma is determined by the balance between the hydrostatic pressure in the fluid and the magnetic forces generated by an array of external coils and the plasma itself. The location of the plasma is not known a priori and must be obtained as the solution to a free boundary problem. The partial differential equation that determines the behavior of the combined magnetic field depends on a set of physical parameters (location of the coils, intensity of the electric currents going through them, magnetic permeability, etc.) that are subject to uncertainty and variability. The confinement region is in turn a function of these stochastic parameters as well. In this work, we consider variations on the current intensities running through the external coils as the dominant source of uncertainty. This leads to a parameter space of dimension equal to the number of coils in the reactor. With the aid of a surrogate function built on a sparse grid in parameter space, a Monte Carlo strategy is used to explore the effect that stochasticity in the parameters has on important features of the plasma boundary such as the location of the x-point, the strike points, and shaping attributes such as triangularity and elongation. The use of the surrogate function reduces the time required for the Monte Carlo simulations by factors that range between 7 and over 30. |
| ArticleNumber | 110699 |
| Author | Elman, Howard C. Sánchez-Vizuet, Tonatiuh Liang, Jiaxing |
| Author_xml | – sequence: 1 givenname: Howard C. surname: Elman fullname: Elman, Howard C. email: helman@umd.edu organization: Department of Computer Science and Institute for Advanced Computer Studies, University of Maryland, College Park, United States of America – sequence: 2 givenname: Jiaxing orcidid: 0000-0003-0910-5557 surname: Liang fullname: Liang, Jiaxing email: jliang18@umd.edu organization: Applied Mathematics & Statistics and Scientific Computing Program, University of Maryland, College Park, United States of America – sequence: 3 givenname: Tonatiuh orcidid: 0000-0002-8930-2798 surname: Sánchez-Vizuet fullname: Sánchez-Vizuet, Tonatiuh email: tonatiuh@math.arizona.edu organization: Courant Institute of Mathematical Sciences, New York University, United States of America |
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| Cites_doi | 10.1063/1.2972160 10.1088/0029-5515/30/3/017 10.1063/1.2266892 10.1002/nme.1620330702 10.1088/0029-5515/53/11/113040 10.1016/j.fusengdes.2020.112020 10.1016/0022-3115(94)00447-1 10.1016/j.jcp.2017.04.047 10.1063/1.3328818 10.1063/1.2786857 10.1088/0741-3335/55/9/095009 10.1080/00401706.1962.10490022 10.1023/A:1018977404843 10.1515/zna-1957-1014 10.1016/j.jcp.2017.01.006 10.1088/0029-5515/28/10/014 10.1016/0920-3796(94)00242-Y 10.1017/S0022377814001251 10.1137/0731036 10.1088/0029-5515/25/9/026 10.1090/S0025-5718-1980-0583487-9 10.1145/1114268.1114275 10.1088/0029-5515/22/6/009 10.1016/j.fusengdes.2015.06.162 10.1063/1.2198174 10.1080/01621459.1974.10480219 10.1137/040615201 10.1063/1.3125934 10.1016/0010-4655(76)90008-4 10.1063/1.4935115 10.1002/nme.1620330703 10.1006/jmaa.1995.1029 |
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| Snippet | •Surrogate model of magnetic confinement equilibrium with stochastic parameters.•The surrogate function bypasses the solution of the free boundary... In magnetic confinement fusion devices, the equilibrium configuration of a plasma is determined by the balance between the hydrostatic pressure in the fluid... |
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| SubjectTerms | Coils Computational physics Confinement Elongation Free boundaries Free boundary Grad-Shafranov equation Hydrostatic pressure Magnetic permeability Parameters Partial differential equations Physical properties Plasma Plasma equilibrium Sparse grid Stochastic collocation Uncertainty Uncertainty quantification |
| Title | Surrogate approximation of the Grad–Shafranov free boundary problem via stochastic collocation on sparse grids |
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