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CHAM FAQ

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This FAQ is empty. This is just a suggestion on how to structure it. Please feel free to add questions and answers here!
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This article contains FAQs for the PHOENICS CFD code. The structure of this FAQ page is still evolving according to the number and type of questions that are frequently asked.
== PHOENICS ==
== PHOENICS ==
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=== General ===
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=== Problem Set Up ===
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=== Physical Modelling ===
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=== Numerical ===
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=== User Programming ===
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=== Solver Methodology ===
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=== Pre-Processing ===
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=== Post-Processing ===
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=== Installation ===
=== What combustion models does Phoenics support? ===
=== What combustion models does Phoenics support? ===

Revision as of 09:45, 15 June 2016

This article contains FAQs for the PHOENICS CFD code. The structure of this FAQ page is still evolving according to the number and type of questions that are frequently asked.

Contents

PHOENICS

General

Problem Set Up

Physical Modelling

Numerical

User Programming

Solver Methodology

Pre-Processing

Post-Processing

Installation

What combustion models does Phoenics support?

Phoenics supports several combustion models, including simple and extended reaction systems (governed by Arrhenius, finite, or turbulent mixing models) as well as the CHEMKIN-II code with it's fully implicit solver, species thermodynamics from NASA polynomials, species diffusion, Soret diffusion, and arbitrary chemistry models.

Does Phoenics have built-in turnkey models for complex flow/stress applications?

In addition to standard CFD capability, Phoenics has a range of special applications models which can be rapidly implemented, and with results expressed in industry standard units (such as ISO7730). These include architectural airflows and design, safety, fire spread, environmental pollutant dispersal, industrial furnaces and equipment, electronic enclosure design, simultaneous stress/flow analysis, combustion, etc.

Question 3

Answer 3


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