ADVANCED ENGINEERING SERVICES
Cygnas solutions offers piping design services. We can model the piping, supports and surrounding structure in three dimensions, carry out flexibility analysis and produce layout and isometric drawing for fabrication and installation.
We have a diverse portfolio, with hands on experience of both design and analysis in the following industries
- Oil and gas (Onshore and Offshore)
- Industrial equipment
- Automotive
- Renewable Energy
- Bespoke machinery
Our diverse experience across sectors and verticals give us an acute awareness of the needs and problems that arise in the complete design process. This allows us to come up with creative and holistic solutions to the underlying problems. We are actively involved in the latest simulation technologies such as Digital Twins, Composites, CFD and coupled physics simulations.
We have a number of different software packages and techniques available that allow us to offer cost effective solutions.
List of our FEA analysis and design capabilities offered are listed below
- Static Structural Assessments (API 6A / ASME Section VIII Div 2)
- Fracture Mechanics ( BS7910 / API 579 FFS)
- ECA ( BS7910 / DNV-OS- F101)
- Pressure Vessel Analysis ( Asme Section VIII Div 1,2,3 / PD5500)
- Flanged Joint Analysis
- Elastic-Plastic Analysis
- Design Strength Optimization
- Seal design and analysis (metals and elastomers)
- HPHT high pressure high temperature considerations in FEA
- Dynamic Analysis
- Nonlinear Analysis
- Vibration Analysis
- Fatigue Analysis
- Creep Analysis
- Digital Twin Creation
- Generative Design
- Single phase flow (compressible and incompressible)
- Multiphase flow
- CFD analysis of wind turbine blades
- Fire modelling
- Dispersion modelling
- Debottlenecking
- Thermal/Structural Assessments
- Fluid-structural analyses
- Coupled field analysis of Heat Exchangers (Thermofluid and structural)
- Sensitivity Studies
- Composites
- Pre & Post processing of models
What is an example of industrial equipment?
Examples of “industrial fixtures” are fuel oil lines, boilers, craneways, and certain concrete slabs. “Device” is an item that is not attached to the building or site. Examples of devices are: Forklifts, chainsaws, air compressors, clamps, free standing shelving, software, ladders, wheelbarrows, and pulleys.
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+44(0)7550680067
F.A.Q.
What is the purpose of asset integrity management system?
Asset integrity management ensures you have the business processes, systems, tools, competence and resources you need to ensure integrity throughout the asset lifecycle. Design, operational, and technical integrity must all be managed effectively to control costs.
How do you maintain asset integrity?
An effective asset integrity management programme requires continuous monitoring and inspection to take place, and typically includes proactively inspecting assets to identify potential failures. The programme should feature regular inspections and testing, non-destructive testing, and continuous monitoring systems.
What is asset integrity process safety?
The terms ‘process safety’ and ‘asset integrity’ are both used throughout the petroleum industry, often synonymously. For the oil and gas industry the emphasis of process safety and asset integrity is to prevent unplanned releases which could result in a major incident.
What is the difference between asset integrity and reliability?
In a nutshell, Reliability is a measure of an asset ability to perform its intended function under designed conditions for the specified period of time. Asset Integrity is a more a condition monitoring of the assets using the NDT and Asset Integrity Techniques to avoid unplanned failures.
What is the main function of asset management?
Asset managers help protect investments by spreading them out across various types of stocks, bonds and other financial products. This diversification is especially important at times of economic uncertainty and high inflation.