Lincoln, LN2 2LL,
United Kingdom
PCA Engineers Limited Technographics
Discover the latest software purchases and digital transformation initiatives being undertaken by PCA Engineers Limited and its business and technology executives. Each quarter our research team identifies on-prem and cloud applications that are being used by the 18 PCA Engineers Limited employees from the public (Press Releases, Customer References, Testimonials, Case Studies and Success Stories) and proprietary sources.
During our research, we have identified that PCA Engineers Limited has purchased the following applications: New Relic APM for Application Performance Management in 2015, ANSYS VistaTF for Shaft Design in 2013 and the related IT decision-makers and key stakeholders.
Our database provides customer insight and contextual information on which enterprise applications and software systems PCA Engineers Limited is running and its propensity to invest more and deepen its relationship with New Relic , Ansys Inc. or identify new suppliers as part of their overall Digital and IT transformation projects to stay competitive, fend off threats from disruptive forces, or comply with internal mandates to improve overall enterprise efficiency.
We have been analyzing PCA Engineers Limited revenues, which have grown to $4.0 million in 2024, plus its IT budget and roadmap, cloud software purchases, aggregating massive amounts of data points that form the basis of our forecast assumptions for PCA Engineers Limited intention to invest in emerging technologies such as AI, Machine Learning, IoT, Blockchain, Autonomous Database or in cloud-based ERP, HCM, CRM, EPM, Procurement or Treasury applications.
ITSM
Vendor |
Previous System |
Application |
Category |
Market |
VAR/SI |
When |
Live |
Insight |
|---|---|---|---|---|---|---|---|---|
| New Relic | Legacy | New Relic APM | Application Performance Management | ITSM | n/a | 2015 | 2015 |
|
PLM and Engineering
Vendor |
Previous System |
Application |
Category |
Market |
VAR/SI |
When |
Live |
Insight |
|---|---|---|---|---|---|---|---|---|
| Ansys Inc. | Legacy | ANSYS VistaTF | Shaft Design | PLM and Engineering | n/a | 2013 | 2013 |
In 2013 PCA Engineers Limited implemented ANSYS VistaTF as a core element of its Fluid Product Engineering workflow for preliminary compressor and blade design. The deployment focused on embedding ANSYS VistaTF capabilities inside the ANSYS Workbench environment to support aerodynamic duty matching against client provided design points and constraints such as material, manufacturability and package size.
The implementation used ANSYS Vista CCD as the preliminary 1-D compressor design module, producing a 1-D compressor geometry and associated performance map from inputs including pressure ratio, mass flow, rotational speed, inducer hub diameter and vane thickness. Designers iteratively evaluated the Vista CCD performance map against client targets, using differences to guide parameter revisions, and then launched ANSYS BladeModeler from Vista CCD to define basic blade geometry before exporting models to the ANSYS Vista TF 2-D throughflow solver. ANSYS VistaTF was used to run circumferentially averaged throughflow solutions with established empirical loss and deviation models to capture many key three dimensional flow features quickly.
All modeling and data exchange occurred within ANSYS Workbench, creating a tightly coupled toolchain where 1-D mapping, blade geometry definition and 2-D throughflow analysis flow sequentially between modules. Operational coverage was centered on PCA design engineers performing aerodynamic and compressor performance assessment, with the process explicitly accounting for manufacturability and packaging constraints as part of the engineering function.
Governance and workflow design emphasized iterative loops and automation, the process being amenable to automatic iteration and optimization within Workbench. The ANSYS Vista TF throughflow step provided solutions in seconds and facilitated rapid improvements in blade geometry, enabling designers to assess proposed designs against performance criteria and converge on satisfactory 1-D and refined 2-D designs.
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