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What’s Happening This Month

Course
03/19/2024 - 03/21/2024

Supercritical CO2 Cycle and Turbomachinery Design and Analysis (Online or In-person)

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04/17/2024 - 04/17/2024
Webinar
Importing External CAD Designs into AxCent Using MAX-PAC and CADFIT
05/06/2024 - 05/07/2024
User Meeting
MAX-PAC LIVE! 2024 Aachen
05/07/2024 - 05/09/2024
Course
Online Turbomachinery Core Fundamentals - Compressors Course
05/13/2024 - 05/16/2024
Course
RBTS 28th Annual Seminar on Rotordynamics and Bearing Technologies
05/20/2024 - 05/24/2024
Course
Centrifugal Compressors Course - Improving Design for Better Performance & Cost (Online or In-person)
06/24/2024 - 06/28/2024
Tradeshow
2024 ASME Turbo Expo
06/27/2024 - 06/27/2024
User Meeting
2024 Agile Engineering Design Software User Group Meeting London
08/03/2024 - 08/08/2024
Tradeshow
2024 Small Satellite Conference
08/20/2024 - 08/22/2024
Tradeshow
2024 Turbomachinery & Pump Symposium
09/09/2024 - 09/14/2024
Tradeshow
International Manufacturing & Technology Show 2024
09/17/2024 - 09/19/2024
Course
Online Turbomachinery Core Fundamentals - Pumps Course
10/21/2024 - 10/25/2024
Course
Centrifugal and Axial Pumps Course - Modern Design, Performance, and Problem Solving (Online or In-person)
10/23/2024 - 10/24/2024
Tradeshow
Hydrogen & Carbon Capture Expo 2024

Past Events

02/26/2024 - 02/29/2024
Tradeshow
2024 HAI Heli-Expo
02/26/2024 - 02/29/2024
Conference
8th International sCO2 Power Cycles Symposium
03/19/2024 - 03/21/2024
Course
Supercritical CO2 Cycle and Turbomachinery Design and Analysis (Online or In-person)

Centrifugal Compressors Course - Improving Design for Better Performance & Cost (Online or In-person)

Date: May 22 - 26, 2023

Time: 8:30 am - 4:30 pm EDT

Course Fee: $3500 USD

Detailed understanding of the aerodynamic behavior and structural integrity of centrifugal compressors is essential to meet competitive market needs. The student will learn the basic phenomena occurring in inlets, impellers, diffusers, volutes, and return channels. The entire development and design process from 1D to 3D viscous methods is taught with live examples while stressing preliminary cycle work, velocity triangle optimization, blade loading considerations, viscous flow-field analysis, and structural analysis. Special emphasis is placed on surge, choke, design methodology, laboratory development, and model development. Students work a sample evaluation problem, and all lectures are given by internationally renowned authorities.

A major advance in understanding has been achieved in the Diffuser Consortium; the impact on stage distortion and possible effects on the design process will be discussed. Grooved covers (Patent no. 8,926,276 B2) and Super Diffusers will also be mentioned as part of the changing fabric of compressor design and performance.

Program Overview

Introduction to Centrifugal Compressors Impeller Flow Analysis

  • Introduction to impeller flows
  • Secondary flows
  • Impeller modeling and design possibilities
  • Impeller exit velocity profiles
  • Loss analysis

Diffuser Design

  • The role of the diffuser in compressor performance
  • Vaneless diffusers
  • Cascade (airfoil) diffusers
  • Channel (wedge) diffusers
  • Design applications and modeling

Stress and Vibration Analysis

  • Causes of failure
  • Blade and hub steady stresses
  • Creep
  • Fatigue failure
  • Life estimation

Additional Stage Components

  • The compressor inlet
  • Volute
  • Collector
  • Return channel

Stability and Range

  • Review of steady stall
  • Rotating stall in centrifugal compressors
  • Surge
  • Range extension and variable geometry

Systematic Design and Optimization

  • Design overview
  • Design optimization strategies
  • Design tools: meanline, blade generation, and CFD

Experimental Development

  • The reasons for testing
  • Designing a test program
  • Compressor test facilities
  • Power and efficiency measurement
  • Instrumentation

Design Examples

A selection of centrifugal compressor design examples will be used to illustrate the various steps in the design process, including meanline design and analysis, impeller blade design, rapid loading and streamline curvature analysis, and CFD analysis.

What You Will Learn

This course provides a comprehensive survey of the design and analysis of centrifugal compressors. The objective of the course is to provide participants with:

  • An overview and familiarization of the design and operation of the complete machine, and individual components of the machine
  • A guide to the technology database that underpins and guides all design and analysis procedures
  • A familiarization of the best design practices at all levels, from basic machine selection to the detailed aerodynamic and mechanical design of all components
  • A guide to the different types of computer-based analysis tools available, and the applicability of each
  • An exposure to state-of-the-art design practices
  • An understanding of how to achieve the best compromises between efficiency, range, cost, life, and durability.

This course has been taught for more than 39 years, and many hundreds of engineers in the compressor industries have benefited from it. During that time it has been continuously revised to reflect the latest understanding and best practices, including examples of actual design practice. Special emphasis is placed on impeller and diffuser interaction and design as a result of recent investigations. A recent innovation is to include examples of actual design practice. Attendees will observe, discuss, and participate in real-time design examples guided by the instructors, taking specifications and developing compressor designs to the point where prototype machines can be manufactured and tested.

Schedule

Materials

The course materials have been developed over many years and are regularly reviewed to ensure that they are kept up to date. Course fee includes the textbook, Centrifugal Compressor Design and Performance, written by Dr. David Japikse. If you already have the book, let us know at registration and we will subtract the cost from your fee.

Lead Instructor

Dave Japikse

Dr. David Japikse
Dr. Japikse is the CEO and Founder of Concepts NREC, the world’s leading full-service turbomachinery design and development organization. Dr. Japikse received his B.S. in Engineering from Case Institute of Technology, his M.Sc. and Ph.D. Degrees in Mechanical Engineering at Purdue University and conducted post-doctoral research as a Fulbright Scholar/NSF Fellow at Technische Hochschule in Aachen, Germany. He has received extensive recognition for his work in the design of pumps, compressors, and turbines, as well as the development of design tools.

A recipient of the 2010 Henry R. Worthington Medal for eminent achievement in pumping machinery, as well as other prestigious awards, he is also an elected member of the National Academy of Engineering and the Vermont Academy of Science and Engineering. Dr. Japikse has also authored/edited ten books and written/presented 300+ reports on turbomachinery design and development.

Other guest lecturers will also present on specific topics throughout the week.

Registration fees are due at time of registration. Registering without payment does not reserve space. Enrollment priority will be given in the order of payment received. Registrants may cancel and receive a full refund if notice is received two weeks prior to the workshop start date. After that, payment may be applied toward other Concepts NREC Courses, Workshops, Events, or Publications. 

How can we help you? Contact us today to discuss your training needs.

Upcoming Events

Webinar
04/17/2024 - 04/17/2024

Importing External CAD Designs into AxCent Using MAX-PAC and CADFIT

View Event »
User Meeting
05/06/2024 - 05/07/2024

MAX-PAC LIVE! 2024 Aachen

View Event »
Course
05/07/2024 - 05/09/2024

Online Turbomachinery Core Fundamentals - Compressors Course

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