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cfd post  (ANSYS inc)

 
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    Structured Review

    ANSYS inc cfd post
    Wall shear stress in semi-circular channels simulated with water. Computational fluid dynamics <t>(CFD)</t> results showing wall shear stress (WSS) at the top and bottom of the semi-circular in the control (A–C), 30% stenosis (D–F), 60% stenosis (G–I) and 80% stenosis (J–L) models. Colour scales at the top of the images in (A)–(H) represent a WSS range between 0.0–2.0 Pa (0.0–20 dyn cm −2 ), while in (J and K) the scale ranges from 0.0–18.1 Pa (0.0–181 dyn cm −2 ). In (C, F, I and L) the x axis indicates the different regions of the channel: upstream (U; 7 mm), stenosis (S; 11 mm), <t>post-stenotic</t> dilatation (PSD; 13.5 mm), downstream 1 (D1; 18 mm) and downstream 2 (D2; 22.5 mm). All simulations were performed in CFX (Ansys, Inc.), using an inlet velocity of 60.2 mm s −1 (0.5 L h −1 ) and outlet pressure of 0.097 kPa.
    Cfd Post, supplied by ANSYS 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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    Images

    1) Product Images from "3D modelling of pulmonary arterial stenosis and endothelial dysfunction in CTEPH "

    Article Title: 3D modelling of pulmonary arterial stenosis and endothelial dysfunction in CTEPH

    Journal: Lab on a Chip

    doi: 10.1039/d5lc00300h

    Wall shear stress in semi-circular channels simulated with water. Computational fluid dynamics (CFD) results showing wall shear stress (WSS) at the top and bottom of the semi-circular in the control (A–C), 30% stenosis (D–F), 60% stenosis (G–I) and 80% stenosis (J–L) models. Colour scales at the top of the images in (A)–(H) represent a WSS range between 0.0–2.0 Pa (0.0–20 dyn cm −2 ), while in (J and K) the scale ranges from 0.0–18.1 Pa (0.0–181 dyn cm −2 ). In (C, F, I and L) the x axis indicates the different regions of the channel: upstream (U; 7 mm), stenosis (S; 11 mm), post-stenotic dilatation (PSD; 13.5 mm), downstream 1 (D1; 18 mm) and downstream 2 (D2; 22.5 mm). All simulations were performed in CFX (Ansys, Inc.), using an inlet velocity of 60.2 mm s −1 (0.5 L h −1 ) and outlet pressure of 0.097 kPa.
    Figure Legend Snippet: Wall shear stress in semi-circular channels simulated with water. Computational fluid dynamics (CFD) results showing wall shear stress (WSS) at the top and bottom of the semi-circular in the control (A–C), 30% stenosis (D–F), 60% stenosis (G–I) and 80% stenosis (J–L) models. Colour scales at the top of the images in (A)–(H) represent a WSS range between 0.0–2.0 Pa (0.0–20 dyn cm −2 ), while in (J and K) the scale ranges from 0.0–18.1 Pa (0.0–181 dyn cm −2 ). In (C, F, I and L) the x axis indicates the different regions of the channel: upstream (U; 7 mm), stenosis (S; 11 mm), post-stenotic dilatation (PSD; 13.5 mm), downstream 1 (D1; 18 mm) and downstream 2 (D2; 22.5 mm). All simulations were performed in CFX (Ansys, Inc.), using an inlet velocity of 60.2 mm s −1 (0.5 L h −1 ) and outlet pressure of 0.097 kPa.

    Techniques Used: Shear, Control



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    Image Search Results


    Wall shear stress in semi-circular channels simulated with water. Computational fluid dynamics (CFD) results showing wall shear stress (WSS) at the top and bottom of the semi-circular in the control (A–C), 30% stenosis (D–F), 60% stenosis (G–I) and 80% stenosis (J–L) models. Colour scales at the top of the images in (A)–(H) represent a WSS range between 0.0–2.0 Pa (0.0–20 dyn cm −2 ), while in (J and K) the scale ranges from 0.0–18.1 Pa (0.0–181 dyn cm −2 ). In (C, F, I and L) the x axis indicates the different regions of the channel: upstream (U; 7 mm), stenosis (S; 11 mm), post-stenotic dilatation (PSD; 13.5 mm), downstream 1 (D1; 18 mm) and downstream 2 (D2; 22.5 mm). All simulations were performed in CFX (Ansys, Inc.), using an inlet velocity of 60.2 mm s −1 (0.5 L h −1 ) and outlet pressure of 0.097 kPa.

    Journal: Lab on a Chip

    Article Title: 3D modelling of pulmonary arterial stenosis and endothelial dysfunction in CTEPH

    doi: 10.1039/d5lc00300h

    Figure Lengend Snippet: Wall shear stress in semi-circular channels simulated with water. Computational fluid dynamics (CFD) results showing wall shear stress (WSS) at the top and bottom of the semi-circular in the control (A–C), 30% stenosis (D–F), 60% stenosis (G–I) and 80% stenosis (J–L) models. Colour scales at the top of the images in (A)–(H) represent a WSS range between 0.0–2.0 Pa (0.0–20 dyn cm −2 ), while in (J and K) the scale ranges from 0.0–18.1 Pa (0.0–181 dyn cm −2 ). In (C, F, I and L) the x axis indicates the different regions of the channel: upstream (U; 7 mm), stenosis (S; 11 mm), post-stenotic dilatation (PSD; 13.5 mm), downstream 1 (D1; 18 mm) and downstream 2 (D2; 22.5 mm). All simulations were performed in CFX (Ansys, Inc.), using an inlet velocity of 60.2 mm s −1 (0.5 L h −1 ) and outlet pressure of 0.097 kPa.

    Article Snippet: All results files were post-processed and analysed in CFD POST (Ansys, Inc.).

    Techniques: Shear, Control