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Aphros Alternatives
Similar projects and alternatives to aphros
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WorkOS
The modern identity platform for B2B SaaS. The APIs are flexible and easy-to-use, supporting authentication, user identity, and complex enterprise features like SSO and SCIM provisioning.
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Blender-FLIP-Fluids
The FLIP Fluids addon is a tool that helps you set up, run, and render high quality liquid fluid effects all within Blender, the free and open source 3D creation suite.
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Nalu
Nalu: a generalized unstructured massively parallel low Mach flow code designed to support a variety of open applications of interest built on the Sierra Toolkit and Trilinos solver Tpetra solver stack. The open source BSD, clause 3 license model has been chosen for the code base. See LICENSE for more information.
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Flow
Flow is a sparse grid-based fluid simulation library for real-time applications. (by NVIDIAGameWorks)
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InfluxDB
Power Real-Time Data Analytics at Scale. Get real-time insights from all types of time series data with InfluxDB. Ingest, query, and analyze billions of data points in real-time with unbounded cardinality.
NOTE:
The number of mentions on this list indicates mentions on common posts plus user suggested alternatives.
Hence, a higher number means a better aphros alternative or higher similarity.
aphros reviews and mentions
Posts with mentions or reviews of aphros.
We have used some of these posts to build our list of alternatives
and similar projects. The last one was on 2021-03-20.
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Best package to model interaction between multiple immiscible fluids?
APHROS (https://github.com/cselab/aphros) looks very well suited, but the documentation is challenging. Ultimately we will want to take CAD outputs (like STL) to define our simulation geometries.
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Electrochemical reactor generates bubbles that grow by diffusion and coalesce (proof-of-concept simulation)
This is a simulation of a membrane-less electrochemical reactor for water electrolysis. The reaction generates dissolved gases (hydrogen and oxygen) which nucleate into bubbles. The bubbles grow by diffusion and coalescence with other bubbles. Small bubbles (green) are treated as point particles and larger bubbles (orange) are deformable. * Simulation done in CFD solver Aphros * Web demo * Experimental study on membrane-less design
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The Cheerios effect. Like breakfast cereals in milk, bubbles floating in water tend to form clusters. Each bubble elevates the surface and attracts other bubbles due to buoyancy
The Cheerios effect is named after the observation that breakfast cereals floating in milk often clamp together. This effect is driven by buoyancy and applies to various objects floating in water. Lighter objects, such as bubbles, elevate the surface attracting other bubbles as they "rise" in the elevation. Heavier objects lower the surface so other objects "fall" towards them. Simulation done in Aphros, visualized in ParaView, and described in article.
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Passive generation of bidisperse foam. The flow in this microfluidic device alternates between two regimes and splits every second bubble into equal parts. Simulation validated experimentally
Based on experimental study (article, video). Simulation done in Aphros and described in article. The simulation gives you a detailed view at a high frame rate and also matches experimental data. The alternation between the two regimes is based on a slight change between the "pincher" bubble and the "wall" bubble downstream, which is enough to trigger or suppress the breakup.
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Merging bubbles create a satellite while droplets do not
Compare coalescence of bubbles (left) and droplets (right) in this vertical arrangement. Bubbles create a small satellite bubble while droplets do not. The initial radius of bubbles and droplets is about 0.5 mm. Simulation done with Aphros https://github.com/cselab/aphros . Checkout the gallery of interactive fluid simulations and an electrochemical reactor demo.
Compare coalescence of bubbles (left) and droplets (right) in this vertical arrangement. Bubbles create a small satellite bubble while droplets do not. The initial radius of bubbles and droplets is about 0.5 mm. Simulation done with Aphros https://github.com/cselab/aphros . Checkout the gallery of interactive simulations https://github.com/cselab/aphros/wiki/Aphros-Explorer
Right, the particle method was implemented in Basilisk for comparison with the method of height functions. Then we use the method in our own solver Aphros
- Gallery of interactive fluid simulations. They are configured with plain text, run in the browser, and can be easily shared
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Gallery of interactive fluid simulations. They are configured with plain text
Project author here. The gallery is part of scientific software Aphros https://github.com/cselab/aphros for flow simulations. Examples in the gallery demonstrate what physical problems can be solved. The same configuration can be used on larger computers (including supercomputers). Intended for potential users of the software and those willing to learn some fluid mechanics.
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A note from our sponsor - WorkOS
workos.com | 26 Apr 2024
Stats
Basic aphros repo stats
25
370
5.2
about 2 months ago
cselab/aphros is an open source project licensed under MIT License which is an OSI approved license.
The primary programming language of aphros is C++.
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