PV Design Course
PV Design consists of nineteen modules for the design and analysis of pressure vessels and heat exchangers, and assessment of fitness for service. The Course provides the mechanical engineer with easy-to-use, technically sound, welldocumented reports. The reports contain detailed calculations and supporting comments that speed and simplify the task of vessel design, re-rating, or fitness for service.
The popularity of PV Design is a reflection of Kagira Drawing Solutions' expertise in programming and engineering, and dedication to service and quality. Calculations in PV Design are based on the latest editions of national codes such as the ASME Boiler and Pressure Vessel Code, or industry standards such as the Zick analysis method for horizontal drums. PV Design offers exceptional ease of use that results in dramatic improvement in efficiency for both design and re-rating.
Types Of Pipe
Difference Between Pipe & Tube
Types of Pipe Manufacturing
Pressure drop Calculation
Calculate Pipe size, Thickness and Pressure Drop using Chart
Pump power calculation
Tube thickness & Diameter Calculation
Dish Head (Hemispherical head) Calculationn
Define Pipe Valve thickness by table
Selection of Valves & Flanges
Piping Isometric drawing 2D & 3D Isometric drawings
Codes & Standards, Guidelines
ASME B16 Piping Component Standards
ASME B31 Piping System Standards
Selection of ASME boiler and pressure Vessel code.
Types of support
Pipe support thickness Calculation
Types of Spring support & Usages.
P & ID and PFD Diagrams
Oil and Gas Engineering Company, Consultancy Company and EPC,
Power Plant Projects
Process Plants (Pharmacy, Paper, tyre, Sugar)
Process and Plant Design,
Shipbuilding and Architectural.
© 2008 - 2020.All rights are reserved. Kagira Drawing Solutions