AxSTREAM软件讲座:三天期培训简介

本培训为期三天,提供参与者使用AxSTREAM®软件进行叶轮机械设备流道设计、分析及优化的深入理解和实践的机会。这一教学互动和深度实践的培训课程中,工程师们将学会使用AxSTREAM®软件平台成功地进行叶轮机械流道的初始设计、反向设计以及定工况和变工况条件下直接的一维/二维分析和优化、三维叶型设计/翼型堆叠、三维有限元分析以及CFD分析等。

培训包括SoftInWay培训老师的统一授课部分、一对一设计辅导以及实际测试案例的评阅。学员可以选择您感兴趣的主题来学习:

  • 轴流式透平
  • 轴流式压缩机
  • 轴流、径流、混流泵
  • 离心式压缩机
  • 径流式透平
  • 设备改造及性能优化

课程内容包括:
  • AxSTREAM® 在叶轮机械设计流程中的角色
  • 叶轮机械初始设计
  • 叶轮机械详细设计
  • 旋转机械的定工况及变工况性能分析
  • 叶轮机械的优化
  • 三维叶型设计
  • 结构及振动分析(FEA)
  • 计算流体力学分析(CFD)
  • 参数化研究以及“what-if”分析
  • 现有设备的再设计
面向人群:
  • 从事叶轮机械设计及优化并寻求改进设计流程和显著提高设计效率的工程技术人员
  • 有兴趣学习使用AxSTREAM®软件进行旋转机械的设计、分析、优化的工程技术人员
  • 有兴趣了解AxSTREAM®软件并测试其功能效用的专业人士
  • 有兴趣了解AxSTREAM®平台最新特性及在叶轮机械领域影响的学术界人士
  • 有兴趣超前学习使用先进叶轮机械优化设计工具,了解AxSTREAM®这一叶轮机设计领域标杆的深层次功能的工程系学生

本课程内容亦可根据参与者要求定制。课程结束后,学员将学会利用基本的边界条件数据设计和优化完整的三维流道,并获得AxSTREAM® 30天的免费试用授权,在试用期间享受充分技术支持。

Examples of Course Schedule and Contents
AxSTREAM for Axial Turbine Design
Day 1
Part I.
Introduction: The Role of AxSTREAM in the Design of Turbomachinery
Introduction – role of AxSTREAM in turbomachinery design
Workflow of Turbomachinery Flow path Design
AxSTREAM Turbomachinery conceptual design suite - Features, Functions & Applications
Part II.
AxSTREAM - Design & Analysis of an Axial Turbine
Preliminary Design and Optimization

Design space, design restraints, performance criteria
Initial flow path design, definition of stages, charts, initial performance estimation, interactive editing
Optimization of designed flow path
Design validation in Streamline Solver
AxPLAN – Design of Experiment module
AxMAP – Off-design maps performances generator
Analysis of existing Turbine flow path

Starting of new AxSTREAM project, data input, loss models
Minimal set of data to analyse existing flow path
Calculation in Streamline Solver
Day 2
PART III.
AxSTREAM – Profiling and blade design
Turbine Blade Profiling
Blade profile construction & control
Surface distributions of pressure, velocity, etc
Profile shapes optimizations
Turbine 3D Blade Design and Stacking

3D Airfoil Design
Blade stacking capabilities; Lean; Sweep
3D FEA Solver; 3D Flow Solver; Campbell Diagram
Profile Export
Import of existing profiles
Existing profile import operations and features
Day 3
Part IV. AxSTREAM – Exercises
12 MW Steam Turbine Design Exercise
10 MW Gas Turbine Design Exercise
Part V. AxSTREAM – Streamline Solver application for Axial Turbine
AxSTREAM Streamline solver functionality review
Application of Streamline solver for Analysis and Design tasks

Examples of Streamline solver usage for advanced tasks:

Analysis of existing flow path with leakage balance calculation
2D calculation in streamline solver
Twist optimization with AxPLAN DoE Optimization engine
Build flow path with prismatic standard blading
Build flow path with twisted standard blading
PART VI. Summary & Re-cap
Advanced AxSTREAM features for XXI century turbomachinery design: counter-rotating turbine, compressor and fan; Mixed flow turbine and compressors
Questions & Discussion
AxSTREAM for Axial Compressor and Mixed Compressor Design
Day 1
Part I. Introduction: The Role of AxSTREAM in the Design of Turbomachinery
Introduction – role of AxSTREAM in turbomachinery design
Workflow of Turbomachinery Flow path Design
AxSTREAM Turbomachinery conceptual design suite - Features, Functions & Applications
Part II. AxSTREAM - Design of an Axial Compressor
Axial Compressor Design

Preliminary Design of Axial Compressor
Streamline solver design mode calculation
Off-design map generation
Profiling and 3D blade design
Express structural and flow analysis
Day 2
Part III. AxSTREAM - Analysis of an Axial Compressor
Analysis of existing Axial Compressor flow path

Minimal set of data to analyse existing compressor flow path
Data input procedure
Flow path calculation and map generation
Axial Compressor profiling

Main features and capabilities in axial compressor profiling
Work with compressor profiles library
Day 3
Part IV. AxSTREAM – Exercises
Axial Compressor with total-total pressure ratio=7.8 Design Exercise
Axial Compressor for Gas Turbine Design Exercise
Part V. AxSTREAM – Mixed Compressor
Design of a Mixed Compressor

Axial part design
Centrifugal part design
Joining of axial and centrifugal parts
Analysis of mixed compressor
PART VI. Summary & Re-cap
Advanced AxSTREAM features for XXI century turbomachinery design: counter-rotating turbine, compressor and fan; Mixed flow turbine and compressors
Questions & Discussion
AxSTREAM for Centrifugal Compressor and Radial Turbine Design
Day 1
Part I. Introduction: The Role of AxSTREAM in the Design of Turbomachinery

Introduction – role of AxSTREAM in turbomachinery design
Workflow of Turbomachinery Flow path Design
AxSTREAM Turbomachinery conceptual design suite - Features, Functions & Applications
Part II. AxSTREAM - Centrifugal Compressor
Design & Analysis of a Centrifugal Compressor

Preliminary design dialogue features
Compressor calculation in design point and off-design maps generation
Flow path optimization using Design of Experiment engine
Centrifugal compressor profiling and 3D blade design
Express structural and flow analysis of centrifugal compressor
Day 1
Part III. AxSTREAM – Radial Turbine
Design & Analysis of a Radial Turbine

Preliminary design dialogue features
Turbine calculation and map generation
Flow path optimization using Design of Experiment engine
Radial turbine profiling and 3D blade design
Express structural and flow analysis of radial turbine
Day 3
Part IV. AxSTREAM – Exercises
Centrifugal Compressor with total-total pressure ratio 3.25 Design Exercise
600 kW Radial Turbine Design Exercise
PART V. Summary & Re-cap
Advanced AxSTREAM features for XXI century turbomachinery design: counter-rotating turbine, compressor and fan; Mixed flow turbine and compressors
Questions & Discussion
Locations and Dates for 2018
NameRegistration
AxSTREAM Workshop Courses are by request only. Please contact us for more information.Request Course

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