computational fluid dynamics (cfd) simulation Search Results


computational fluid dynamics software autodesk simulation cfd 2014  (Autodesk Inc)
90
Autodesk Inc computational fluid dynamics software autodesk simulation cfd 2014
Computational Fluid Dynamics Software Autodesk Simulation Cfd 2014, supplied by Autodesk Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/computational fluid dynamics software autodesk simulation cfd 2014/product/Autodesk Inc
Average 90 stars, based on 1 article reviews
computational fluid dynamics software autodesk simulation cfd 2014 - by Bioz Stars, 2026-03
90/100 stars
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fluid dynamic computation cfd  (ANSYS inc)
90
ANSYS inc fluid dynamic computation cfd
Fluid Dynamic Computation Cfd, 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
https://www.bioz.com/result/fluid dynamic computation cfd/product/ANSYS inc
Average 90 stars, based on 1 article reviews
fluid dynamic computation cfd - by Bioz Stars, 2026-03
90/100 stars
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two-dimensional multiphase computational fluid dynamics (cfd) simulation  (COMSOL Inc)
90
COMSOL Inc two-dimensional multiphase computational fluid dynamics (cfd) simulation
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Two Dimensional Multiphase Computational Fluid Dynamics (Cfd) Simulation, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/two-dimensional multiphase computational fluid dynamics (cfd) simulation/product/COMSOL Inc
Average 90 stars, based on 1 article reviews
two-dimensional multiphase computational fluid dynamics (cfd) simulation - by Bioz Stars, 2026-03
90/100 stars
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axis-symmetric computational fluid dynamics (cfd) simulation  (ANSYS inc)
90
ANSYS inc axis-symmetric computational fluid dynamics (cfd) simulation
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Axis Symmetric Computational Fluid Dynamics (Cfd) Simulation, 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
https://www.bioz.com/result/axis-symmetric computational fluid dynamics (cfd) simulation/product/ANSYS inc
Average 90 stars, based on 1 article reviews
axis-symmetric computational fluid dynamics (cfd) simulation - by Bioz Stars, 2026-03
90/100 stars
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comsol-based computational fluid dynamics (cfd) simulation data  (COMSOL Inc)
90
COMSOL Inc comsol-based computational fluid dynamics (cfd) simulation data
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Comsol Based Computational Fluid Dynamics (Cfd) Simulation Data, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/comsol-based computational fluid dynamics (cfd) simulation data/product/COMSOL Inc
Average 90 stars, based on 1 article reviews
comsol-based computational fluid dynamics (cfd) simulation data - by Bioz Stars, 2026-03
90/100 stars
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graphical user interface (gui) to the computational fluid dynamics (cfd) solver fire dynamics simulator (fds)  (National Institute of Standards and Technology)
90
National Institute of Standards and Technology graphical user interface (gui) to the computational fluid dynamics (cfd) solver fire dynamics simulator (fds)
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Graphical User Interface (Gui) To The Computational Fluid Dynamics (Cfd) Solver Fire Dynamics Simulator (Fds), supplied by National Institute of Standards and Technology, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/graphical user interface (gui) to the computational fluid dynamics (cfd) solver fire dynamics simulator (fds)/product/National Institute of Standards and Technology
Average 90 stars, based on 1 article reviews
graphical user interface (gui) to the computational fluid dynamics (cfd) solver fire dynamics simulator (fds) - by Bioz Stars, 2026-03
90/100 stars
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computational fluid dynamic (cfd)-based simulation platform ardemus  (Fortum Corporation)
90
Fortum Corporation computational fluid dynamic (cfd)-based simulation platform ardemus
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Computational Fluid Dynamic (Cfd) Based Simulation Platform Ardemus, supplied by Fortum Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/computational fluid dynamic (cfd)-based simulation platform ardemus/product/Fortum Corporation
Average 90 stars, based on 1 article reviews
computational fluid dynamic (cfd)-based simulation platform ardemus - by Bioz Stars, 2026-03
90/100 stars
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computer fluid dynamics (cfd) simulation of the test chamber ansys 14.0  (ANSYS inc)
90
ANSYS inc computer fluid dynamics (cfd) simulation of the test chamber ansys 14.0
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Computer Fluid Dynamics (Cfd) Simulation Of The Test Chamber Ansys 14.0, 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
https://www.bioz.com/result/computer fluid dynamics (cfd) simulation of the test chamber ansys 14.0/product/ANSYS inc
Average 90 stars, based on 1 article reviews
computer fluid dynamics (cfd) simulation of the test chamber ansys 14.0 - by Bioz Stars, 2026-03
90/100 stars
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computational fluid dynamics (cfd) simulations  (Tokyo Chemical Industry)
90
Tokyo Chemical Industry computational fluid dynamics (cfd) simulations
(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil <t>multiphase</t> flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.
Computational Fluid Dynamics (Cfd) Simulations, supplied by Tokyo Chemical Industry, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/computational fluid dynamics (cfd) simulations/product/Tokyo Chemical Industry
Average 90 stars, based on 1 article reviews
computational fluid dynamics (cfd) simulations - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier

Image Search Results


(A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil multiphase flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.

Journal: medRxiv

Article Title: A Cascaded Droplet Microfluidic Platform Enables High-throughput Single Cell Antibiotic Susceptibility Testing at Scale

doi: 10.1101/2021.06.25.21259551

Figure Lengend Snippet: (A)(i) In the absence of barrierplugs, picodroplets can disperse as they flow through the incubation channel and cause significant mixing among picodroplet groups. (ii) Such dispersion and mixing can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations would yield a fluorescence trace showing mixed peaks ( i . e ., picodroplets) with distinct avalanche photodiode (APD) photon counts ( i . e ., fluorescence intensities). (B)(i) Two-dimensional water-oil multiphase flow CFD simulation reveals that, within an oil-filled, 500-µm-wide microchannel (white) and under pressure-driven flow, a water barrierplug (black ellipse, 1000 μm × 500 μm semiaxes) that seals the entire width of the channel flows faster than a downstream water picodroplet (black circle, 25 μm in diameter, indicated by black arrows) that is positioned at the wall of the channel, as indicated by the decreasing distance between them over time (t = 0, 1, 2, and 3 s). (ii) Experimental observation within the incubation channel of a SCALe-AST device corroborates with the simulation, as a barrierplug indeed catch up to picodroplets at the channel wall over time (t = 0, 3, 6, and 9 s). (C)(i) In the presence of barrierplugs, which prevent dispersion of picodroplets, picodroplet groups therefore become tightly packed and well separated from each other. (ii) Well separated picodroplet groups due to the addition of barrierplugs can be fluorescently detected as picodroplet groups with distinct fluorophore concentrations could now yield a fluorescence trace showing well separated groups of peaks with distinct photon counts.

Article Snippet: To test this hypothesis, we first created a two-dimensional multiphase computational fluid dynamics ( i . e ., CFD) simulation using COMSOL.

Techniques: Incubation, Dispersion, Fluorescence