1d spatial discretization Search Results


1d spatial discretization  (MathWorks Inc)
90
MathWorks Inc 1d spatial discretization
Schematic of SOFC <t>discretization</t> and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.
1d Spatial Discretization, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ode45 algorithm  (MathWorks Inc)
90
MathWorks Inc ode45 algorithm
Schematic of SOFC <t>discretization</t> and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.
Ode45 Algorithm, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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laser photonics  (Photonics Inc)
90
Photonics Inc laser photonics
Schematic of SOFC <t>discretization</t> and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.
Laser Photonics, supplied by Photonics Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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matlab package chebfun  (MathWorks Inc)
90
MathWorks Inc matlab package chebfun
Schematic of SOFC <t>discretization</t> and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.
Matlab Package Chebfun, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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open geospatial consortium nomenclature  (Open Geospatial Consortium)
90
Open Geospatial Consortium open geospatial consortium nomenclature
Schematic of SOFC <t>discretization</t> and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.
Open Geospatial Consortium Nomenclature, supplied by Open Geospatial Consortium, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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brusselator model  (MathWorks Inc)
90
MathWorks Inc brusselator model
SIMULINK construction of the <t>Brusselator</t> model.
Brusselator Model, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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spectroscopy accessories  (PIKE Technologies)
90
PIKE Technologies spectroscopy accessories
SIMULINK construction of the <t>Brusselator</t> model.
Spectroscopy Accessories, supplied by PIKE Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fgf4 gene  (Drucker Diagnostics)
90
Drucker Diagnostics fgf4 gene
SIMULINK construction of the <t>Brusselator</t> model.
Fgf4 Gene, supplied by Drucker Diagnostics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Schematic of SOFC discretization and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.

Journal: Chemical Reviews

Article Title: A Comprehensive Review of Modeling of Solid Oxide Fuel Cells: From Large Systems to Fine Electrodes

doi: 10.1021/acs.chemrev.4c00614

Figure Lengend Snippet: Schematic of SOFC discretization and heat transfer processes at a node. The subscripts cd, cv, and r refer to heat conduction, convection, and radiation, respectively. The subscripts f, a, s, 1, and 2 represent the fuel channel, air channel, solid cell, inlet, and outlet, respectively. Reproduced with permission from ref . Copyright 2024 Elsevier.

Article Snippet: Huang et al. , 1D , Steady , Planar Stack , FVM , MATLAB , Experimental , NG-fed SOFC-GT , Energy efficiency = 74% , The temperature distribution of the cell was calculated by 1D spatial discretization along the flow channel direction. , ( ) .

Techniques: Convection

Schematic of volume discretization for solving (a) species conservation and (b) energy conservation. Reproduced with permission from ref . Copyright 2017 Elsevier.

Journal: Chemical Reviews

Article Title: A Comprehensive Review of Modeling of Solid Oxide Fuel Cells: From Large Systems to Fine Electrodes

doi: 10.1021/acs.chemrev.4c00614

Figure Lengend Snippet: Schematic of volume discretization for solving (a) species conservation and (b) energy conservation. Reproduced with permission from ref . Copyright 2017 Elsevier.

Article Snippet: Huang et al. , 1D , Steady , Planar Stack , FVM , MATLAB , Experimental , NG-fed SOFC-GT , Energy efficiency = 74% , The temperature distribution of the cell was calculated by 1D spatial discretization along the flow channel direction. , ( ) .

Techniques:

Summary of Representative SOFC System Models <xref ref-type= a " width="100%" height="100%">

Journal: Chemical Reviews

Article Title: A Comprehensive Review of Modeling of Solid Oxide Fuel Cells: From Large Systems to Fine Electrodes

doi: 10.1021/acs.chemrev.4c00614

Figure Lengend Snippet: Summary of Representative SOFC System Models a

Article Snippet: Huang et al. , 1D , Steady , Planar Stack , FVM , MATLAB , Experimental , NG-fed SOFC-GT , Energy efficiency = 74% , The temperature distribution of the cell was calculated by 1D spatial discretization along the flow channel direction. , ( ) .

Techniques: Biomarker Discovery, Software, Control

SIMULINK construction of the Brusselator model.

Journal: BMC Systems Biology

Article Title: Simulations of pattern dynamics for reaction-diffusion systems via SIMULINK

doi: 10.1186/1752-0509-8-45

Figure Lengend Snippet: SIMULINK construction of the Brusselator model.

Article Snippet: Assuming h ≡ h x = h y (i.e., a square grid), the discrete Laplacian operation in a one-dimensional Cartesian coordinates along the y -axis has the form: (9) ∇ 1D 2 U i , j ≈ U i , j + 1 - 2 U i , j + U i , j - 1 h 2 ; for the two-dimensional case, we have (10) ∇ 2D 2 U i , j ≈ U i + 1 , j + U i - 1 , j - 4 U i , j + U i , j + 1 + U i , j - 1 h 2 In SIMULINK , we initialise the Brusselator model as a column vector consisting of a 60 × 1 grid (spatial resolution = 1 cm/grid-point) for the one-dimensional case; or as a 60 × 60 grid for the two-dimensional case.

Techniques:

Brusselator simulation in 1-D space. Left column: dispersion curve of real ( α ) and imaginary ( ω ) parts of dominnat eigenvalues predicting the emergent pattens for two sets of parameters: (a) A = 2.5, B = 9, D X = 7, D Y = 10; (b) A = 2, B = 4.8, D X = 2, D Y = 10. H: Hopf mode with α > 0, ω > 0 at wavenumber q = 0; T: Turing mode with α > 0, ω = 0 at q ≠ 0; DT: damped Turing with α < 0 at q ≠ 0; DH: damped Hopf with α < 0 at q = 0. Right column: one-dimensional Brusselator model of length 60 cm with periodic boundary condition evolves in time running rightwards during 30 s. Colour indicates the local concentration of the reactant: [red] high concentration, [blue] low concentration.

Journal: BMC Systems Biology

Article Title: Simulations of pattern dynamics for reaction-diffusion systems via SIMULINK

doi: 10.1186/1752-0509-8-45

Figure Lengend Snippet: Brusselator simulation in 1-D space. Left column: dispersion curve of real ( α ) and imaginary ( ω ) parts of dominnat eigenvalues predicting the emergent pattens for two sets of parameters: (a) A = 2.5, B = 9, D X = 7, D Y = 10; (b) A = 2, B = 4.8, D X = 2, D Y = 10. H: Hopf mode with α > 0, ω > 0 at wavenumber q = 0; T: Turing mode with α > 0, ω = 0 at q ≠ 0; DT: damped Turing with α < 0 at q ≠ 0; DH: damped Hopf with α < 0 at q = 0. Right column: one-dimensional Brusselator model of length 60 cm with periodic boundary condition evolves in time running rightwards during 30 s. Colour indicates the local concentration of the reactant: [red] high concentration, [blue] low concentration.

Article Snippet: Assuming h ≡ h x = h y (i.e., a square grid), the discrete Laplacian operation in a one-dimensional Cartesian coordinates along the y -axis has the form: (9) ∇ 1D 2 U i , j ≈ U i , j + 1 - 2 U i , j + U i , j - 1 h 2 ; for the two-dimensional case, we have (10) ∇ 2D 2 U i , j ≈ U i + 1 , j + U i - 1 , j - 4 U i , j + U i , j + 1 + U i , j - 1 h 2 In SIMULINK , we initialise the Brusselator model as a column vector consisting of a 60 × 1 grid (spatial resolution = 1 cm/grid-point) for the one-dimensional case; or as a 60 × 60 grid for the two-dimensional case.

Techniques: Dispersion, Concentration Assay

Turing mode stability of the Brusselator model in 2-D space. Each coloured stability curve represents specific mode: red = Stripes, blue = H 0 , black = H π . Solid and dashed curves correspond to stable and unstable modes respectively, according to mode stability analysis. Five representative μ values are selected for comparison of theoretical predictions for mode stability against practical simulations (shown as subplots). Colour of the pattern indicates the local concentration of the reactant: [red] high concentration, [blue] low concentration. Model parameters: A = 5, D X = 5, D Y = 40.

Journal: BMC Systems Biology

Article Title: Simulations of pattern dynamics for reaction-diffusion systems via SIMULINK

doi: 10.1186/1752-0509-8-45

Figure Lengend Snippet: Turing mode stability of the Brusselator model in 2-D space. Each coloured stability curve represents specific mode: red = Stripes, blue = H 0 , black = H π . Solid and dashed curves correspond to stable and unstable modes respectively, according to mode stability analysis. Five representative μ values are selected for comparison of theoretical predictions for mode stability against practical simulations (shown as subplots). Colour of the pattern indicates the local concentration of the reactant: [red] high concentration, [blue] low concentration. Model parameters: A = 5, D X = 5, D Y = 40.

Article Snippet: Assuming h ≡ h x = h y (i.e., a square grid), the discrete Laplacian operation in a one-dimensional Cartesian coordinates along the y -axis has the form: (9) ∇ 1D 2 U i , j ≈ U i , j + 1 - 2 U i , j + U i , j - 1 h 2 ; for the two-dimensional case, we have (10) ∇ 2D 2 U i , j ≈ U i + 1 , j + U i - 1 , j - 4 U i , j + U i , j + 1 + U i , j - 1 h 2 In SIMULINK , we initialise the Brusselator model as a column vector consisting of a 60 × 1 grid (spatial resolution = 1 cm/grid-point) for the one-dimensional case; or as a 60 × 60 grid for the two-dimensional case.

Techniques: Comparison, Concentration Assay