List of ANSYS Forte Customers
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Since 2010, our global team of researchers has been studying ANSYS Forte customers around the world, aggregating massive amounts of data points that form the basis of our forecast assumptions and perhaps the rise and fall of certain vendors and their products on a quarterly basis.
Each quarter our research team identifies companies that have purchased ANSYS Forte for Computational Fluid Dynamics (CFD) from public (Press Releases, Customer References, Testimonials, Case Studies and Success Stories) and proprietary sources, including the customer size, industry, location, implementation status, partner involvement, LOB Key Stakeholders and related IT decision-makers contact details.
Companies using ANSYS Forte for Computational Fluid Dynamics (CFD) include: WASEDA University, a Japan based Education organisation with 6711 employees and revenues of $904.0 million, University of Minho, a Portugal based Education organisation with 2679 employees and revenues of $300.0 million, University of Balamand, a Lebanon based Education organisation with 1300 employees and revenues of $150.0 million and many others.
Contact us if you need a completed and verified list of companies using ANSYS Forte, including the breakdown by industry (21 Verticals), Geography (Region, Country, State, City), Company Size (Revenue, Employees, Asset) and related IT Decision Makers, Key Stakeholders, business and technology executives responsible for the PLM and Engineering software purchases.
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| Logo | Customer | Industry | Empl. | Revenue | Country | Vendor | Application | Category | When | SI | Insight |
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University of Balamand | Education | 1300 | $150M | Lebanon | Ansys Inc. | ANSYS Forte | Computational Fluid Dynamics (CFD) | 2017 | n/a |
In 2017, University of Balamand deployed ANSYS Forte to support mechanical engineering instruction and combustion research within its Fluid Product Engineering curriculum. The ANSYS Forte deployment was provisioned to departmental engineering labs and research workstations to enable classroom and laboratory simulation exercises tied to the Internal Combustion Engine course labeled Internal Combustion Engine Theory and ANSYS-Forte. The campus rollout emphasized workstation-based CFD and solver configuration workflows typical for reacting flow studies, with managed access controls and centralized licensing for faculty and students.
Functional capabilities implemented include reacting flow and combustion modeling, mesh generation and refinement, solver setup and parametric case execution, and post-processing visualization used in lab assignments. Operational coverage focused on the mechanical engineering department, encompassing faculty-led labs, course-based student exercises, and faculty governance over a shared case library, versioned simulation templates, and structured student training and assessment workflows to align ANSYS Forte practice with Fluid Product Engineering learning objectives.
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University of Minho | Education | 2679 | $300M | Portugal | Ansys Inc. | ANSYS Forte | Computational Fluid Dynamics (CFD) | 2015 | n/a |
In 2015, University of Minho implemented ANSYS Forte to analyze and optimize a 1300cc naturally aspirated gasoline engine, using the tool as the primary combustion simulation environment. The engagement was executed from the university engineering research labs and engine test rig to support design, simulation, and experimental validation activities for engine and generator heat systems.
ANSYS Forte was applied for combustion chamber design and detailed combustion analysis, with explicit use of GT Power for 1D engine system simulation and Pro E for CAD geometry creation. The implementation included meshing and pre processing with Hypermesh, CFD analysis with ANSYS Fluent for intake and exhaust manifold optimization, and Static Structural for carbon fiber laminate and chassis layering simulation, reflecting a multi physics Fluid Product Engineering workflow.
Operational workflows combined 1D simulation, 3D CFD, structural analysis, and physical testing, enabling iterative design cycles for the combustion chamber, connecting rod optimization, and heat system for an energy generator. The scope covered mechanical engineering researchers and engine test rig operators within the university, aligning simulation outputs with experimental tests for system stability and performance.
Governance emphasized integrated model to test processes, with Pro E models feeding ANSYS Forte simulations, Hypermesh handling mesh preparation for both ANSYS Fluent and Static Structural analyses, and GT Power providing system level boundary conditions. ANSYS Forte served as the central combustion analysis application in the University of Minho ANSYS Forte Fluid Product Engineering implementation, supporting simulation driven design and experimental validation.
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WASEDA University | Education | 6711 | $904M | Japan | Ansys Inc. | ANSYS Forte | Computational Fluid Dynamics (CFD) | 2015 | n/a |
In 2015, WASEDA University implemented ANSYS Forte to support combustion and drive-cycle research within Fluid Product Engineering. The deployment targeted drive-cycle simulation of a commercial diesel engine, a 2.2L Honda Civic engine, and focused on combustion model development integrated with system-level simulation workflows.
ANSYS Forte was used for detailed 3D-CFD combustion and spray modeling, operating alongside KIVA4 for combustion model development. The implementation linked ANSYS Forte's in-cylinder combustion and spray modeling capabilities with chemical kinetics supplied by CHEMKIN-Series, and with 0D and 1D transient system simulations executed in GT-Suite to provide boundary conditions and transient inputs.
GT-POWER provided drive-cycle simulation cases and transient load profiles for the 2.2L engine, serving as the system-level driver for coupled CFD analyses. Experimental programs including SI engine experiments and GDI-HCCI engine experiments supplied validation datasets and calibration targets, creating an iterative loop between testbed data and simulation outputs that informed model refinement.
Governance and operational workflow emphasized versioned model development and coordinated validation, with structured data exchange and co-simulation routines to preserve reproducibility across ANSYS Forte, KIVA4, CHEMKIN-Series, GT-Suite, and GT-POWER. The overall implementation integrated detailed 3D-CFD analysis with 0D and 1D system modeling and engine testbed validation to support powertrain and combustion research within Fluid Product Engineering.
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Buyer Intent: Companies Evaluating ANSYS Forte
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