What Is NozzlePRO?
NozzlePRO is a standalone solution that enables users to quickly and easily perform finite element analysis (FEA) of individual pressure vessel and piping components, without extensive knowledge of FEA modeling, analysis techniques or theory.
With capabilities designed to automate FEA validation and ASME code compliance reporting on pressure vessel and nozzle models, NozzlePRO is an efficient and accurate Design By Analysis (DBA) solution for pressure equipment designs.
What Does NozzlePRO Include?
NozzlePRO Software Capabilities
NozzlePRO is designed to quickly and easily evaluate nozzles, saddles, pipe shoes and clips on a variety of head types including spherical, elliptical, ASME, dished, cylindrical and conical. Within minutes you’ll be able to generate the following:
Nozzles through Blind Flanges in Axisymmetric and Brick Models
Double Bed Supports
Axisymmetric Horizontal Vessel with Saddles
Steady State and Transient Heat Transfer for Axisymmetric 2D Elements
Head Thickness Contours
Blind or Matching Flange End Conditions for Axisymmetric or Brick Models
Radiused Welds
Overturning Moments on Skirts (Brick Models)
Internal Ring Loads
Integral and Non-Integral Repads
NozzlePRO Software Features
NozzlePRO encompasses a variety of other features and capabilities to automate and create efficiency for pressure equipment design and analysis.
Features in NozzlePRO
PRG’s standalone FEA solution aims to support the following functionality and features:
Designs & Analyzes for…
ASME 2019 code compliance and provides code classification updates
WRC107/537 methods for spheres, elliptical, and dished heads
Recommended SCF calculations for pressure stresses on welds
Includes…
Automatic nonlinear Sustained Stress Indexes (SSI)and collapse calculations for heads, branches or saddles
Analyses for load model perturbation and buckling for heads, cylinders, or branch connections
Analyses for interactive local thin area drawing
Combination loads thru the run functionality and can sustain multiple load cases at a time
Leak-Before-Break linear and nonlinear pressure fatigue analyses of thick nozzles and olets
Provides…
Guidance on +Y simple nonlinear supports for saddles, pipe shoes, and similar geometries
Guidance on bar supports and local thin areas
Guidance on the Acoustic Induced Vibration Update (AIV) for determining frequency ranges and stress results for high frequencies.
Programs in NozzlePRO
Along with a variety of features, NozzlePRO utilizes several programs to provide the ultimate FEA solution for pressure equipment designs. A few include:
The Saddle Wizard is a step-by-step interactive modeler that allows the user to design their horizontal vessel and saddle for any loading conditions.
The Pipe Shoe Wizard creates an FEA model of a pipe shoe on a cylinder to calculate local stress.
The Drawing Tools allow the user to add gussets, rings, clips and other attachments to an existing model.
For a full list of features, check out the table below.
Program | Program Summary |
|---|---|
MatPRO | MatPRO is PRG’s materials database that includes high temperature curves, allowable stress plots, NH reporting, creep-fatigue interaction diagrams, elastic-plastic stress strain curves, and fatigue curves generated as a funtion of creep temperature. |
SIF / SSI / k (PRGik) | Compares SIFs and k-factors from B31 and other codes for branch connections and elbows. Hyper De- gree of Freedom (HyperDOF) calculations can be performed for elbows with and without supports with refractory. |
High Frequency | Provides AIV calculation predictions of pressure levels from the surface of the vessel. This program is mainly used to:
|
Flaw Detection | Predicts crack growth for given stress states in components to know when the crack will reach half wall and/or thru wall for leaks. This is a quick calculation based on observed crack growth in tested low carbon steel components. |
Nonlinear Analysis | This capability computes burst pressures, sustained stress indices, twice elastic slope load levels, and a variety of load and unload conditions. |
Drawing Tools | The Drawing Tools provide hundreds of small functions to modify, evaluate and document the model created. |
FE107 | FE107 replaces WRC 107 as a calculation tool that can be applied when WRC 107 or WRC 297 correlations or assumptions are limited. ASME Section VIII Division 2 allowables are printed along with flexibilities and allowable loads for forces, moments, and pressure. |
FESIF | Calculates SIFs and k-factors for standard B31 branch connection geometries. |
FETee | Along with performing FEA of contoured tees per user input, B16.9, or EN10253 is conducted, this program mainly:
|
Why Choose NozzlePRO?
Ensuring your model or component is ASME code compliant can take time and knowledge. With NozzlePRO’s extensive capabilities and programs, performing FEA in minutes against ASME codes helps ensure your models are always designed for safety in only a few clicks.
If you experience the following issues when designing or analyzing your pressure equipment, consider NozzlePRO to provide you an accurate analysis and expedite your workflows.
When there are multiple thermal or operating loads acting on a nozzle.
When the d/D ratio for a loaded nozzle is greater than 0.5 and WRC 107 or 297 is considered for use.
When the t/T ratio for a loaded nozzle is less than 1.0 and WRC 107 or 297 is considered for use.
When the nozzle is pad reinforced and WRC 107 or 297 is considered for use.
When there are loads acting on a nozzle and run pipe simultaneously.
When the number of full range pressure cycles is greater than 7000 and the nozzle is subject to external loads.
When the D/T ratio is greater than 100 and SIFs or flexibilities are needed for a pipe stress program.
When the D/T ratio is greater than 100 and a dynamic analysis including the nozzle is to be performed using a piping program.
When a large lug is used in a heavily cyclic service.
When pad reinforced lugs, clips, or other support are placed on the knuckle radius of a dished head and WRT 107 methods are fraught with potential errors.
When seismic horizontal loads on vessel clips or box supports are to be evaluated.
When pad reinforced hillside nozzles subject to pressure and external loads.
When evaluating large run moments, but small branch moments in a piping system.
When there are overturning moments on skirts.
When the effect of integral vs. non-integral pad on nozzle in head should be studied.
When there are different thermal expansion coefficients or temperatures between the header and branch.
When the loads on nozzles are high because of the assumption that the nozzle connection at the vessel is a rigid anchor.
When there is heat transfer in an axisymmetric model geometry.
When the effect of adding a radius to weld geometries on nozzles in heads should be investigated.
When the FEA analyst needs to run various model types, comparing results to determine the stability and accuracy of the solution.
When horizontal vessels are saddle supported, with or without wear plates, as well as tapered saddles with many design options.
When evaluating the effects of axial or transverse loads due to internal sloshing, wind loads, seismic loads, or general external loads and when the Zick’s methods does not consider either axial or transverse loads.
When designing pipe shoes for self-weight, liquid weight, and axial loads.
Hexagon and Codeware no longer support PRG software products. If you have any questions regarding NozzlePRO or FEATools licenses purchased through Hexagon or Codeware, please contact our sales group at sales@paulin.com.