The objective of this document is to assist you in configuring and running FENSAP-ICE's solution modules. It is organized in the following manner:
The FENSAP-ICE Project Manager and The FENSAP-ICE Solver Manager introduce the FENSAP-ICE graphical user interface common to all modules.
FENSAP - Flow Solution, DROP3D - Droplet and Ice Crystal Impingement, ICE3D - Ice Accretion and Water Runback, C3D - Unsteady Heat Conduction, CHT3D - 3D Conjugate Heat Transfer describe how to use FENSAP-ICE to configure the input parameters for in-flight icing calculations (FENSAP-ICE suite of modules) or, separately, for the flow (FENSAP), droplets impingement (DROP3D), ice accretion & water runback (ICE3D), as well as the configuration of the heat conduction (C3D) and conjugate heat transfer (CHT3D) modules.
FENSAP-ICE-TURBO outlines the use of FENSAP-TURBO, DROP3D-TURBO and ICE3D-TURBO for simulating multi-stage components in rotating or stationary turbomachinery components.
Automated Sequences and Multishot Icing Calculations outlines the configuration of a quasi-steady, or multishot, ice accretion simulations using FENSAP, DROP3D and C3D, or alternately Fluent, DROP3D and C3D.
FENSAP-ICE-Unsteady introduces FENSAP-ICE-Unsteady, the unsteady multi-phase model that combines flow and droplets with ice accretion into a single calculation and shows how to configure it through FENSAP-ICE.
OptiGrid - Mesh Adaptation and OptiGrid - CAD Reconstruction describe the configuration of the input parameters required for mesh adaptation and CAD reconstruction (OptiGrid), respectively.
FENSAP-ICE File Formats introduces the FENSAP-ICE file formats.
Tools Reference describes operators and functions used within FENSAP-ICE.
Post-Processing introduces Viewmerical, a simple data post-processor that enables the visualization of FENSAP-ICE grids and solution files.
References provides an extensive list of references of in-flight icing, mesh adaptation and CFD publications by FENSAP-ICE's scientists.