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High Resolution Euler Solvers Based on the Space-Time Conservation Element and Solution Element Method (1996)

Wang, Xiao-Yen ; Chow, Chuen-Yen ; Chang, Sin-Chung

In: CASI

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Publication Date: 2019-07-13

Description: The I-D, quasi I-D and 2-D Euler solvers based on the method of space-time conservation element and solution element are used to simulate various flow phenomena including shock waves, Mach stem, contact surface, expansion waves, and their intersections and reflections. Seven test problems are solved to demonstrate the capability of this method for handling unsteady compressible flows in various configurations. Numerical results so obtained are compared with exact solutions and/or numerical solutions obtained by schemes based on other established computational techniques. Comparisons show that the present Euler solvers can generate highly accurate numerical solutions to complex flow problems in a straightforward manner without using any ad hoc techniques in the scheme.

Keywords: Numerical Analysis

Type: NASA/CR-96-207329 , NAS 1.26:207329 , AIAA Paper-96-0764 , Aerospace Sciences; Jan 15, 1996 - Jan 18, 1996; Reno, NV; United States

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2

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Application of the Space-Time Conservation Element and Solution Element Method to One-Dimensional Advection-Diffusion Problems (1999)

Chang, Sin-Chung ; Chow, Chuen-Yen ; Wang, Xiao-Yen

In: CASI

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Publication Date: 2019-07-10

Description: Test problems are used to examine the performance of several one-dimensional numerical schemes based on the space-time conservation and solution element (CE/SE) method. Investigated in this paper are the CE/SE schemes constructed previously for solving the linear unsteady advection-diffusion equation and the schemes derived here for solving the nonlinear viscous and inviscid Burgers equations. In comparison with the numerical solutions obtained using several traditional finite-difference schemes with similar accuracy, the CE/SE solutions display much lower numerical dissipation and dispersion errors.

Keywords: Numerical Analysis

Type: NASA/TM-1999-209068 , NAS 1.15:209068 , E-11624

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Application of the Space-Time Conservation Element and Solution Element Method to One-Dimensional Convection-Diffusion Problems (2000)

Wang, Xiao-Yen ; To, Wai-Ming ; Chang, Sin-Chung

In: Other Sources

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Publication Date: 2011-08-23

Description: In the space-time conservation element and solution element (CE/SE) method, the independent marching variables used comprise not only the mesh value of the physical dependent variables but also, in contrast to it typical numerical method, the Mesh values of the spatial derivatives of the physical variables The use of the extra marching variables results from the need to construct the two-level explicit and nondissipative schemes which are at the core of the CE/SE development. It also results from the need to minimize the stencil while maintaining accuracy. In this paper using the 1D(sub (alpha)-mu) scheme as an example, the effect of this added complication on consistency, accuracy and operation count is assessed. As part of this effort, an equivalent yet more efficient form of the alpha-mu scheme in which the independent marching variables are the local fluxes tied to each mesh point is introduced. Also, the intriguing relations that exist among the alpha-mu. Leapfrog, and DuFort-Frankel schemes are further explored. In addition, the redundance of the Leapfrog, DUFort-Frankel, and Lax scheme and the remedy for this redundance are discussed. This paper is concluded with the construction and evaluation of a CE/SE solver for the inviscid Burger equation.

Keywords: Numerical Analysis

Type: Journal of Computational Physics (ISSN 0021-9991); Volume 165; 189-215

Format: text

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Exact Integrations of Polynomials and Symmetric Quadrature Formulas over Arbitrary Polyhedral Grids (1997)

Liu, Yen ; Vinokur, Marcel

In: CASI

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Publication Date: 2019-06-28

Description: This paper is concerned with two important elements in the high-order accurate spatial discretization of finite volume equations over arbitrary grids. One element is the integration of basis functions over arbitrary domains, which is used in expressing various spatial integrals in terms of discrete unknowns. The other consists of quadrature approximations to those integrals. Only polynomial basis functions applied to polyhedral and polygonal grids are treated here. Non-triangular polygonal faces are subdivided into a union of planar triangular facets, and the resulting triangulated polyhedron is subdivided into a union of tetrahedra. The straight line segment, triangle, and tetrahedron are thus the fundamental shapes that are the building blocks for all integrations and quadrature approximations. Integrals of products up to the fifth order are derived in a unified manner for the three fundamental shapes in terms of the position vectors of vertices. Results are given both in terms of tensor products and products of Cartesian coordinates. The exact polynomial integrals are used to obtain symmetric quadrature approximations of any degree of precision up to five for arbitrary integrals over the three fundamental domains. Using a coordinate-free formulation, simple and rational procedures are developed to derive virtually all quadrature formulas, including some previously unpublished. Four symmetry groups of quadrature points are introduced to derive Gauss formulas, while their limiting forms are used to derive Lobatto formulas. Representative Gauss and Lobatto formulas are tabulated. The relative efficiency of their application to polyhedral and polygonal grids is detailed. The extension to higher degrees of precision is discussed.

Keywords: Numerical Analysis

Type: NASA-TM-112202 , NAS 1.15:112202 , A-976805

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Space-Time Conservation Element and Solution Element Method Being Developed (1999)

Chang, Sin-Chung ; Yu, Sheng-Tao ; Loh, Ching-Yuen ; [et al.]

In: CASI

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Publication Date: 2018-06-05

Description: The engineering research and design requirements of today pose great computer-simulation challenges to engineers and scientists who are called on to analyze phenomena in continuum mechanics. The future will bring even more daunting challenges, when increasingly complex phenomena must be analyzed with increased accuracy. Traditionally used numerical simulation methods have evolved to their present state by repeated incremental extensions to broaden their scope. They are reaching the limits of their applicability and will need to be radically revised, at the very least, to meet future simulation challenges. At the NASA Lewis Research Center, researchers have been developing a new numerical framework for solving conservation laws in continuum mechanics, namely, the Space-Time Conservation Element and Solution Element Method, or the CE/SE method. This method has been built from fundamentals and is not a modification of any previously existing method. It has been designed with generality, simplicity, robustness, and accuracy as cornerstones. The CE/SE method has thus far been applied in the fields of computational fluid dynamics, computational aeroacoustics, and computational electromagnetics. Computer programs based on the CE/SE method have been developed for calculating flows in one, two, and three spatial dimensions. Results have been obtained for numerous problems and phenomena, including various shock-tube problems, ZND detonation waves, an implosion and explosion problem, shocks over a forward-facing step, a blast wave discharging from a nozzle, various acoustic waves, and shock/acoustic-wave interactions. The method can clearly resolve shock/acoustic-wave interactions, wherein the difference of the magnitude between the acoustic wave and shock could be up to six orders. In two-dimensional flows, the reflected shock is as crisp as the leading shock. CE/SE schemes are currently being used for advanced applications to jet and fan noise prediction and to chemically reacting flows.

Keywords: Numerical Analysis

Type: Research and Technology 1998; NASA/TM-1999-208815

Format: application/pdf

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Elastomeric Cathode Binder (1985)

Yen, S. P. S. ; Shen, D. S. ; Somoano, R. B.

In: Other Sources

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Publication Date: 2019-06-28

Description: Soluble copolymer binder mixed with cathode material and solvent forms flexible porous cathode used in lithium and Ni/Cd batteries. Cathodes prepared by this process have lower density due to expanding rubbery binder and greater flexibility than conventional cathodes. Fabrication procedure readily adaptable to scaled-up processes.

Keywords: MATERIALS

Type: NPO-15424 , NASA Tech Briefs (ISSN 0145-319X); 8; 4; P. 499

Format: text

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Porous poly-HEMA bead synthesis (1977)

Yen, S. P. S. ; Rembaum, A. ; Dreyer, W. J.

In: Other Sources

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Publication Date: 2019-06-28

Description: Low-cost reagent is useful in labeling cells for research and diagnostic purposes.

Keywords: MATERIALS

Type: NPO-13383 , NASA Tech Briefs (ISSN 0145-319X); 2; 1; P. 3

Format: text

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Low-resistivity homogeneous elastomers (1973)

Rembaum, A. ; Yen, S. P. S. ; Somoano, R. B.

In: CASI

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Publication Date: 2019-06-27

Description: Mixture of polyurethane polyelectrolyte and soluble, conducting organic compound produces homogeneous elastomer which has resistivity several orders of magnitude less than polyelectrolyte alone. Elastomeric material has novel resistivity dependence on temperature, that is, resistivity changes dramatically over narrow temperature range in vicinity of glass transition temperature.

Keywords: MATERIALS

Type: NPO-11881

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9

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Multi-Dimensional Spectral Difference Method for Unstructured Grids (2005)

Vinokur, Marcel ; Liu, Yen

In: CASI

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Publication Date: 2019-07-13

Description: A new, high-order, conservative, and efficient method for conservation laws on unstructured grids is developed. It combines the best features of structured and unstructured grid methods to attain computational efficiency and geometric flexibility; it utilizes the concept of discontinuous and high-order local representations to achieve conservation and high accuracy; and it is based on the finite-difference formulation for simplicity. Universal reconstructions are obtained by distributing unknowns in a geometrically similar manner for all unstructured cells. Placements of the unknown and flux points with various order of accuracy are given for the line, triangular and tetrahedral elements. The data structure of the new method permits an optimum use of cache memory, resulting in further computational efficiency on modern computers. A new pointer system is developed that reduces memory requirements and simplifies programming for any order of accuracy. Numerical solutions are presented and compared with the exact solutions for wave propagation problems in both two and three dimensions to demonstrate the capability of the method. Excellent agreement has been found. The method is simpler and more efficient than previous discontinuous Galerkin and spectral volume methods for unstructured grids.

Keywords: Numerical Analysis

Type: 43rd AIAA Aerospace Sciences Meeting and Exhibit; Jan 10, 2005 - Jan 13, 2005; Reno, NV; United States

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Discontinuous Spectral Difference Method for Conservation Laws on Unstructured Grids (2004)

Vinokur, Marcel ; Wang, Z. J. ; Liu, Yen

In: CASI

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Publication Date: 2019-07-13

Description: A new, high-order, conservative, and efficient method for conservation laws on unstructured grids is developed. The concept of discontinuous and high-order local representations to achieve conservation and high accuracy is utilized in a manner similar to the Discontinuous Galerkin (DG) and the Spectral Volume (SV) methods, but while these methods are based on the integrated forms of the equations, the new method is based on the differential form to attain a simpler formulation and higher efficiency. A discussion on the Discontinuous Spectral Difference (SD) Method, locations of the unknowns and flux points and numerical results are also presented.

Keywords: Numerical Analysis

Type: Third ICCFD Conference; Jul 12, 2004 - Jul 16, 2004; Toronto; Canada

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