List of ANSYS BladeModeler Customers
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United States
Since 2010, our global team of researchers has been studying ANSYS BladeModeler 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 BladeModeler for Shaft Design 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 BladeModeler for Shaft Design include: University of Massachusetts Amherst, a United States based Education organisation with 1550 employees and revenues of $355.0 million, W. S. Darley & Co., a United States based Manufacturing organisation with 230 employees and revenues of $184.0 million, EnginSoft, a Italy based Professional Services organisation with 160 employees and revenues of $30.0 million and many others.
Contact us if you need a completed and verified list of companies using ANSYS BladeModeler, 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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EnginSoft | Professional Services | 160 | $30M | Italy | Ansys Inc. | ANSYS BladeModeler | Shaft Design | 2013 | n/a |
In 2013, EnginSoft implemented ANSYS BladeModeler as a core component of its Fluid Product Engineering toolset. The ANSYS BladeModeler deployment was positioned within EnginSoft's professional services practice in Italy and supported engineering consulting engagements across turbo machinery, aerodynamics, heat transfer and multi-phase flow projects.
The ANSYS BladeModeler implementation focused on blade geometry modeling and parametric design for rotating machinery, with configurations to support mesh motion and physics setups common to turbomachinery simulation. Functional workflows emphasized iterative geometry refinement feeding into CFD cases, and use of DesignXplorer for design space exploration and parametric studies.
Operationally ANSYS BladeModeler was used alongside ANSYS CFX, Fluent and meshing tools, with Flownex employed for 1D system modeling and Scilab used for scripting and post processing. This toolchain integration enabled handoffs between blade geometry creation, mesh generation and solver execution within EnginSoft's fluid dynamics practice, maintaining continuity between geometry, meshing and simulation stages.
Governance and service delivery were structured around internal subject matter expertise, with an ANSYS CFX Product Manager at EnginSoft responsible for software training, pre sale demonstrations and post sale customer care. The BladeModeler rollout was reinforced by instructor led training courses and participation in EC funded research projects, aligning tool adoption with both client engagements and research workflows.
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University of Massachusetts Amherst | Education | 1550 | $355M | United States | Ansys Inc. | ANSYS BladeModeler | Shaft Design | 2009 | n/a |
In 2009, University of Massachusetts Amherst implemented ANSYS BladeModeler for Fluid Product Engineering, establishing a capability for blade geometry and turbomachinery component design. The deployment targeted engineering research and instructional programs where impeller and inlet guide vane development is core to coursework and projects.
ANSYS BladeModeler was used to produce 3D models of impellers and inlet guide vanes IGV, leveraging parametric blade geometry creation and profile editing common to the application. Workflows included detailed geometry definition, surface refinement, and generation of exportable CAD geometry for downstream analysis and assembly.
Models were created in ANSYS BladeModeler and in SolidWorks, creating a CAD exchange workflow where BladeModeler geometry fed SolidWorks for additional detailing and assembly operations. The implementation supported mechanical and aerospace engineering research groups and teaching laboratories, aligning Fluid Product Engineering activities with hands on turbomachinery design exercises.
Governance focused on centralized CAD file management and coordinated model handoffs between faculty, lab engineers, and students, embedding ANSYS BladeModeler into research project workflows. ANSYS BladeModeler served as the primary tool for blade geometry generation within University of Massachusetts Amherst Fluid Product Engineering use cases.
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W. S. Darley & Co. | Manufacturing | 230 | $184M | United States | Ansys Inc. | ANSYS BladeModeler | Shaft Design | 2015 | n/a |
In 2015, W. S. Darley & Co. implemented ANSYS BladeModeler to support Fluid Product Engineering for its centrifugal pump product line. The implementation addressed creation, maintenance and improvement of centrifugal pump rotors and impellers within an existing engineering toolchain that includes Pro-Engineer, Mechanica, Ansys CFX, ANSYS BladeModeler, AutoCAD and Microsoft Office.
ANSYS BladeModeler was used to generate blade geometry and parametric impeller profiles, enabling CAD driven shape definition, surface fairing and exportable geometry for simulation. The configuration emphasized model parametrization and controlled geometry handoffs so that CFD studies in Ansys CFX and structural checks in Mechanica could be executed against consistent surface definitions.
Integrations explicitly connected ANSYS BladeModeler to Pro-Engineer and AutoCAD workflows for geometry exchange and cleanup, with generated surfaces passed to Ansys CFX for fluid performance analysis and to Mechanica for mechanical assessment. Microsoft Office supported engineering documentation, specifications and review artifacts, forming the document control layer around CAD and simulation outputs.
Operational scope for the ANSYS BladeModeler deployment covered product engineering and manufacturing engineering activities focused on centrifugal pumps, instituting iterative CAD to simulation workflows and formalized design review steps. Governance centered on engineering workflow orchestration across CAD, CFD and mechanical simulation modules, with design documentation and sign off maintained through Office based artifacts.
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