List of ANSYS CFX Customers
Ansys
2600 ANSYS Drive,
Canonsburg, 15317, PA,
United States
Canonsburg, 15317, PA,
United States
1 844-462-6797
Professional Services
6500
$2.5B
Since 2010, our global team of researchers has been studying ANSYS CFX 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 CFX 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 CFX for Computational Fluid Dynamics (CFD) include: ARISTON SPA, a Italy based Manufacturing organisation with 10830 employees and revenues of $3.10 billion, Elica S.p.A, a Italy based Manufacturing organisation with 2600 employees and revenues of $517.0 million, University of Massachusetts Amherst, a United States based Education organisation with 1550 employees and revenues of $355.0 million, Faber, a Italy based Manufacturing organisation with 458 employees and revenues of $194.0 million, W. S. Darley & Co., a United States based Manufacturing organisation with 230 employees and revenues of $184.0 million and many others.
Contact us if you need a completed and verified list of companies using ANSYS CFX, 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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ARISTON SPA | Manufacturing | 10830 | $3.1B | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2018 | n/a |
In 2018, Ariston Group implemented ANSYS CFX as part of its simulation toolkit to strengthen physics-based engineering for product development. The deployment targeted Computational Fluid Dynamics (CFD) use cases across thermal and fluid system design, aligning ANSYS CFX with existing simulation competencies within the company.
The ANSYS CFX implementation emphasized core CFD capabilities including steady-state and transient flow modeling, turbulence modeling, and thermal coupling workflows, supporting detailed thermal and fluid dynamic analysis. Configuration work focused on simulation templates, meshing best practices, and scenario management to support repeatable studies, with advanced post-processing to feed design decision cycles.
ANSYS CFX was used alongside other engineering tools noted by Ariston S.p.A, including ANSYS Mechanical, Fluent, Siemens STAR-CCM+, and modeFRONTIER, enabling a multi-tool simulation environment and iterative handoffs between CFD and structural analysis. Operational coverage included R&D, design, and production engineering teams, with simulation outputs integrated into product development gates and validation activities.
Governance and process changes were implemented through cross-functional project leadership and resource management led by the 3D Simulation Senior Engineer, embedding simulation reviews into agile project timelines. Simulation activities that leveraged ANSYS CFX and the broader toolchain contributed to documented outcomes, including improved thermal efficiency and noise reduction of at least 10 percent, average product lifespan improvements of 15 percent, and a 20 percent reduction in production defects as reported by the engineering team.
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Elica S.p.A | Manufacturing | 2600 | $517M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2007 | n/a |
In 2007, Elica implemented ANSYS CFX within its R&D organization to support the development and market launch of a new BLDC motor for commercial refrigeration. The deployment targeted product engineering teams in Castelfidardo, Italy, and was positioned within the Computational Fluid Dynamics (CFD) category to address airflow and thermal management challenges during motor development.
ANSYS CFX was used for fluid flow and thermal analysis, including steady and transient simulations, rotating machinery flow modeling, and conjugate heat transfer analyses to characterize motor cooling and internal airflow. Engineers managed solver configuration, mesh preparation, and postprocessing workflows to iterate motor geometry, assess cooling strategies, and inform prototype design choices.
The CFD implementation was executed alongside Ansys Fluent modeling, with ANSYS CFX and Fluent applied as complementary simulation tools during the same development program. Governance of simulation activities remained with the R&D engineering function, and simulation deliverables were integrated into product development gates to support the development and market launch of the BLDC motor.
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EnginSoft | Professional Services | 160 | $30M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2013 | n/a |
In 2013, EnginSoft implemented ANSYS CFX. The deployment targeted Fluid Product Engineering to consolidate the companys fluid-dynamics simulation capability across its professional services practice in Italy.
The ANSYS CFX implementation covered core fluid simulation domains including turbo-machinery, aerodynamics, heat transfer, multi-phase flows, mesh motion, and 1D CFD workflows. Configuration work concentrated on solver parameterization, meshing strategies, and model templates that supported repeated engineering analyses and teaching materials.
Integrations and toolchain alignment were explicit components of the rollout, with ANSYS CFX used alongside Fluent, Meshing tools, BladeModeler, DesignXplorer, Flownex, and Scilab to create end to end simulation and design exploration workflows. Operational coverage included R&D engineering teams, presales and post-sales technical consultants, and training delivery for customers and internal staff.
Governance emphasized standardized simulation workflows, a training led rollout, and close alignment of product management with presale demonstrations, customer care, and EC funded research project participation. The ANSYS CFX deployment was embedded into EnginSofts service delivery, training curriculum, and research activities without reference to a specific prior named system.
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Faber | Manufacturing | 458 | $194M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2018 | n/a |
In 2018, Faber implemented ANSYS CFX as its Computational Fluid Dynamics (CFD) engine to support R&D and product engineering for high efficiency kitchen hood fan units. The deployment of ANSYS CFX was part of a broader adoption of the ANSYS software platform and FEM tools to drive fluid dynamics, structural and thermal analysis within product development.
The ANSYS CFX implementation focused on hydrodynamic simulations to determine fan torque versus backpressure, including generation of torque resistance curves from 3D fan unit geometry and CFD simulation of the diffuser external to the hood at exit pressures of 0 and 100 Pa. Results from these CFD runs were used to superimpose torque curves onto electric motor torque characteristics to identify operating points, and simulation workflows were executed to replicate real working conditions and verify stress states under loading.
The project integrated ANSYS CFX outputs with structural and thermal simulation workstreams, enabling a coordinated approach to drop testing and thermal behavior prediction of plastic molded parts under operating conditions. Product development and R&D teams used these combined analyses to inform design choices, and the RSM modeling driven by Design of Experiment studies linked hydrodynamic and structural simulation outputs into a validated response surface for multi-parameter exploration.
Governance moved toward a simulation-led development process, using DOE to investigate parameter interactions and Response Surface Methodology to train, validate and inspect predictive models. The integrated development approach using ANSYS CFX produced more design alternatives with less time and cost compared to experimental-only methods, and supported stated objectives to reduce time to market, lower product cost and increase quality and structural reliability. The program also incorporated empirical inputs, for example a preliminary drop test of a 10 kg packaged hood from 40 cm that produced a measured deceleration of 40g, which was used to define loading directions and values for structural simulations.
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FIMAC | Aerospace and Defense | 675 | $169M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2015 | n/a |
In 2015, Fimac implemented ANSYS CFX to support simulation of its cooling systems and environmental thermal conditioning for avionics and small aircraft cabin applications. ANSYS CFX was deployed as the primary Computational Fluid Dynamics (CFD) platform to enable physics‑based analysis across thermal management and vapour cycle subsystems.
The implementation emphasized CFD capabilities common to the category, including mesh generation and refinement, steady state and transient flow solvers, turbulence modeling, and conjugate heat transfer. The ANSYS CFX environment was configured to represent vapour cycle behavior and rotating machinery characteristics related to the companys patented MVX multivortex compressor as well as automotive derived components used in their designs.
ANSYS CFX was integrated into a CAD to CAE workflow, accepting geometry from Autodesk Inventor and Catia and linking simulation outputs with Ansys structural analyses for coupled thermal and mechanical validation. The platform supported iterative, customer specification based design loops used by engineering and R&D teams to converge cooling and conditioning packages prior to prototyping.
Governance centered on specification driven simulation governance, with simulation results driving design revisions and acceptance criteria for thermal performance. The deployment structured CAE workflows around ANSYS CFX within Fimacs engineering organization to standardize thermal analysis practices for its product portfolio.
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Manufacturing | 244 | $53M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2013 | n/a |
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Education | 1550 | $355M | United States | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2009 | n/a |
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Manufacturing | 166 | $53M | Italy | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2015 | n/a |
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Manufacturing | 230 | $184M | United States | Ansys Inc. | ANSYS CFX | Computational Fluid Dynamics (CFD) | 2015 | n/a |
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Buyer Intent: Companies Evaluating ANSYS CFX
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FAQ - APPS RUN THE WORLD ANSYS CFX Coverage
ANSYS CFX is a Computational Fluid Dynamics (CFD) solution from Ansys Inc..
Companies worldwide use ANSYS CFX, from small firms to large enterprises across 21+ industries.
Organizations such as ARISTON SPA, Elica S.p.A, University of Massachusetts Amherst, Faber and W. S. Darley & Co. are recorded users of
ANSYS CFX for Computational Fluid Dynamics (CFD).
Companies using ANSYS CFX are most concentrated in Manufacturing and Education, with adoption spanning over 21 industries.
Companies using ANSYS CFX are most concentrated in Italy and United States, with adoption tracked across 195 countries worldwide. This global distribution highlights the popularity of ANSYS CFX across Americas, EMEA, and APAC.
Companies using ANSYS CFX range from small businesses with 0-100 employees - 0%, to mid-sized firms with 101-1,000 employees - 66.67%, large organizations with 1,001-10,000 employees - 22.22%, and global enterprises with 10,000+ employees - 11.11%.
Customers of ANSYS CFX include firms across all revenue levels — from $0-100M, to $101M-$1B, $1B-$10B, and $10B+ global corporations.
Contact APPS RUN THE WORLD to access the full verified ANSYS CFX customer database with detailed Firmographics such as industry, geography, revenue, and employee breakdowns as well as key decision makers in charge of Computational Fluid Dynamics (CFD).