求解双曲守恒律方程的WENO型熵相容格式

程晓晗; 封建湖; 聂玉峰

doi:10.11883/1001-1455(2014)04-0501-07

求解双曲守恒律方程的WENO型熵相容格式

doi: 10.11883/1001-1455(2014)04-0501-07

1.
西北工业大学应用数学系，陕西西安 710072
2.
长安大学理学院，陕西西安 710064

基金项目: 国家自然科学基金项目(11171043);中央高校基本科研业务费专项项目(CHD2010JC060)

详细信息

作者简介:
程晓晗(1987—), 男, 博士研究生

中图分类号: O354;O242
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- 被引次数: 0
出版历程
- 收稿日期: 2012-11-22
- 修回日期: 2013-06-03
- 刊出日期: 2014-07-25

WENO type entropy consistent scheme for hyperbolic conservation laws

1.
Department of Applied Mathematics, Northwestern Polytechnical University, Xi'an 710072, Shaanxi, China
2.
College of Science, Chang'an University, Xi'an 710064, Shaanxi, China

Funds: Supported bythe National Natural Science Foundation of China (11171043)

More Information

Corresponding author: Nie Yu-feng, yfnie@nwpu.edu.cn

摘要

摘要: 通过在单元交界面处进行高阶WENO重构，得到了一种求解双曲型守恒律方程的WENO型熵相容格式。用该格式对一维Burgers方程和Euler方程进行数值模拟，结果表明，该格式具有高精度、基本无振荡性等特点。
- 流体力学 /
- WENO型熵相容格式 /
- WENO重构 /
- 双曲守恒律
Abstract: Compared with entropy stable schemes, entropy consistent schemes control entropy production more exactly and effectively eliminate phenomena such as expansion shocks and spurious oscillations. By using WENO (weighted essentially non-oscillatory) reconstruction of higher order at cell interfaces, a WENO type entropy consistent scheme for hyperbolic conservation laws is presented. The one-dimentional Burgers equation and Euler equations are used to test the proposed scheme. The numerical experiments demonstrate that the scheme is accurate and essentially non-oscillatory.
- fluid mechanics /
- WENO type entropy consistent scheme /
- WENO reconstruction /
- hyperbolic conservation laws

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图 1 无黏Burgers方程间断初值问题

Figure 1. Discontinuous initial value problem of Burgers equation

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图 2 一维Euler方程Sod激波管问题

Figure 2. Sod shock tube problem of 1D Euler equation

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图 3 一维Euler方程低密度流问题

Figure 3. Low density problem of 1D Euler equation

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图 4 一维Euler方程强稀疏波问题

Figure 4. Density of strong expansion problem of 1D Euler equation

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表 1 EC-WENO格式的数值精度

Table 1. Numerical accuracy of EC-WENO scheme

网格数	L₁	精度阶	L_∞	精度阶
20	1.420 0×10^-2		1.020 0×10^-2
40	4.653 5×10^-4	4.931 4	3.859 9×10^-4	4.723 9
80	1.447 5×10^-5	5.006 7	1.310 2×10^-5	4.880 7
160	4.515 7×10^-7	5.002 5	4.137 0×10^-7	4.985 1

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参考文献(9)

[1]	Roe P L. Approximate Rieman solvers, parameter vectors, and difference schemes[J]. Journal of Computational Physics, 1981, 43(2): 357-372. doi: 10.1016/0021-9991(81)90128-5
[2]	Tadmor E. The numerical viscosity of entropy stable schemes for systems of conservation laws, Ⅰ[J]. Mathematics of Computation, 1987, 49(179): 91-103. doi: 10.1090/S0025-5718-1987-0890255-3
[3]	Roe P L. Affordable, entropy-consistent, flux functions[C]//Oral Talk at Eleventh International Conference on Hyperbolic Problems: Theory, Numerics, Applications. Lyon, France, 2006.
[4]	Ismail F, Roe P L. Affordable, entropy-consistent Euler flux functions, Ⅱ: Entropy production at shocks[J]. Journal of Computational Physics, 2009, 228(15): 5410-5436. doi: 10.1016/j.jcp.2009.04.021
[5]	Tadmor E. Numerical viscosity and the entropy conditions for conservative difference schemes[J]. Mathematics of Computation, 1984, 43(168): 369-381. doi: 10.1090/S0025-5718-1984-0758189-X
[6]	Liu X D, Osher O, Chan T. Weighted essentially non-oscillatory schems[J]. Journal of Computational Physics, 1994, 115(1): 200-212. doi: 10.1006/jcph.1994.1187
[7]	Tadmor E. Entropy stability theory for difference approximations of nonlinear conservation laws and related time-dependent problems[J]. Acta Numerica, 2003, 12: 451-512. doi: 10.1017/S0962492902000156
[8]	Fjordholm U S, Mishra S, Tadmor E. Energy preserving and energy stable schemes for the shallow water equations[R]. Hong Kong: Foundations of Computational Mathematics, 2008.
[9]	Gottlieb S, Shu C W, Tadmor E. High order time discretizations with strong stability properties[J]. SIAM Review, 2001, 43(1): 89-112. doi: 10.1137/S003614450036757X