On a daily basis, we design and develop technologies for the production of pressure tanks in accordance with the AD2000, EN 13445, WUDT-UC and ASME Sec.VIII div.1 standards, as well as non-pressure and low-pressure tanks for the storage of toxic or corrosive materials and flammable liquids. These are devices used mainly in the pharmaceutical, food and petrochemical industries.
Most often we produce mixers, stirrers, process tanks, heat exchangers, storage tanks, pharmaceutical tanks, columns (absorption, distillation, rectification), pipelines, skid systems, anti-pulsation cylinders, separators, filter housings, quick opening closures and rotary dryers.
The scope of our activity
Performing strength calculations in Visual Vessel Design (VVD), PV Elite and FEM analysis in Solid Edge and Ansys.
– Design of pressure vessels according to EN 13445.
– Design of pressure vessels according to the AD 2000 standard.
– Tank design according to WUDT-UC/2003
– Design of pressure vessels according to ASME Sec.VIII div.1.
– Design of non-pressurized tanks according to EN 14015, EN 12285
– Designing non-pressure and low-pressure tanks for storage of toxic or corrosive materials and flammable liquids.
– Design of steel structures according to EN 1090
– Preparation of technology for the production of spun bottoms and bent steel elements.
– Creating 3D models in the Solid Edge system for the needs of construction and technological documentation.
– Direct cooperation with Inspectors of Notified Bodies such as TÜV SÜD, TÜV Rheinland, UDT.
Static analyses:
• Linear Analysis
• Non-linear analyzes (non-linearities: contact, geometric, material)
• Leakage analysis (linear gasket, non-linear gasket)
• Buckling analysis (linear, non-linear)
Dynamic Analyzes:
• Modal Analysis (with and without forcing)
• Transient dynamic analysis
• Free vibration
• Harmonic analysis – response spectrum
• Dynamic analysis – rigid systems
Fatigue analysis:
• High/Low cycle
• Fatigue strength of welded joints
• Fatigue strength according to DNV
• Fatigue strength according to ASME