Understanding Water Hammer: a Comprehensive Discussion
Join the Program
Self-paced
6 modules
Dynaflow Research Group
SPC150
Format:
On-demand
Coming Soon!
Course Objective
"Building engineering judgement and understanding about water hammer, parameters of influence, the analysis and mitigation measures through case studies & exercises."
Learn from home
100% online training
Video Lectures by Experts
watch multiple times
Available 24/7
1-year unlimited access
PDH Hours qualified course
Read more here
About the course
Self-paced
6 modules
7 hours
English
1-yr access
SPC150
This course helps you build essential engineering judgement about water hammer phenomena. Through detailed discussions of case studies the theory, parameters of influence and possible effects are explained. Water hammer assessments are performed for various types of systems in which the influence of system parameters (fluid properties, pipe dimensions & e-modulus, system lengths & heights, steady state pressure, dead-ends & reflections, valve closure times & curves, pump curves, etc) and their effects on pressure transient results are explored.
Included case studies are:
Case study 1: Valve Closure in a cooling water system
Case study 2: Pump trip & cavitation
Case study 3: Filling of an empty fire-fighting system
Case study 4: LNG offloading arms
Case study 5: Complex networks
The course allows you to learn at your own pace and is fully provided online. You receive 1-year unlimited access to all modules, which allows you to perform them over again when you need to refresh knowledge for your work projects.
Meet your instructor
Program & Details
Welcome to the course
Your instructors
Live session schedule
How to use this course & join the live sessions
Personal Certificate requirements
Pressure Transients
the Joukowsky Equation
Load Cases
Unbalanced loads
Cavitation
Typical mitigation measures
Unbalanced loads
Method of Characteristics
The valve closure scenario
Results for long pipe segments, upstream and downstream of the valve (amongst others: pressure fluctuations, flow, unbalanced loads)
The influence of fluid properties (density & bulk modulus)
The influence of pipe properties & dimensions (diameter, E-modulus, lengths)
The influence of valve details: closure time, valve curve, Kv-values
Cavitation downstream & upstream of the valve
Good practices & valve selection
The pump trip scenario
Results upstream and downstream of the pump (amongst others: pressure fluctuations, flow, unbalanced loads)
The influence of pump moment of inertia and initial steady state flow
Pump curves
Cavitation downstream of the pump
System (pump) start-up scenarios
Good practices & pump properties
The scenario: filling of an empty fire-fighting system
Results and pressure analysis
Detailing the start-up scenario
A critical look at the results
Understanding the physics of the results
The LNG offloading scenario
Long pipelines & travel times
Evaluating the results
Assumption: no heat transfer
Insulated vs. non-insulated
Examples of large complex networks (large fire-fighting systems,water distribution networks)
Balancing the steady state
Analysing the results
Pressure reflections: What happens at tees & dead ends?
Congratulations
Course evaluation survey
Your Personal Certificate
Rate this course
Related resources & follow up
Results
After this course, you...
have a solid understanding of water hammer phenomena,
have seen numerous real-life cases of water hammer phenomena in industrial piping,
understand how system parameters (fluid, diameters, lenghts) influence water hammer,
are capable of assessing pressure surge reports and situations to take actions for mitigation of their system at hand.
Who should attend this course
Those involved with performing pressure surge analysis and system evaluation,
Engineers that need to be able to understand reporting of pressure surge analysis for their system at hand.
Prerequisites:
A basic understanding of piping systems is beneficial.
Level: Intermediate
Access to the course.
After your purchase is confirmed you receive an account to the EngineeringTrainer online learning portal, where you find the course in your dashboard. After opening the course you will be guided step-by-step through the different modules. You receive 1-year unlimited access to the course. This allows you to perform modules again if this is beneficial for your work projects.
Learn by doing.
The course is mainly based on video content: video lectures and video software demonstrations. English subtitles is available and videos can be viewed as many times as desired. The video lectures help you to grasp the important technical concepts and in the video demonstrations the instructor uses the software and discusses all the steps and actions. You are recommended to follow the steps of the instructor in the software to optimize your learning curve.
Exercises & Software models associated with the content are available for download.
This course is self-paced and is not subject to specific dates. The course contains 6 modules with a total of 7 hours of content which can be performed at your own pace. A Personal Certificate will be provided to you if you finish the course within the first month after purchase. This incentive will motivate you to perform the course quickly thereby improving your learning curve.
You receive 1-year unlimited access to all modules. This allows you to perform modules again when you need to refresh knowledge for your work projects.
Participants of this course receive a personal digital certificate if they meet the following requirements:
completion of each module of the course,
filling in the Course Evaluation Survey.
Example Certificate:
FAQ
Video lectures
Video demonstrations
Exercise .pdf-files for download
Exercise answers by means of demonstrations (video)
Related BOSfluids model files for download
The majority of training material are videos. These are not available for download, but can be accessed directly with your account on the portal. Apart from quizzes the exercise files can be downloaded. These can include .pdf files with the exercise questions, software models or other file types. You receive 1-year unlimited access to the course. This allows you to watch content again if this is beneficial for your work projects.
An active BOSfluids license is required for this course. A 1-month full BOSfluids license can be purchased as an add-on to the course once the course is added to your shopping cart. For more details see the course fee overview below.
Please contact us for questions on this matter.
If your computer and internet connection is able to play videos online (YouTube) you will be able to follow the course. Note that almost all browsers are supported, except for Internet Explorer.
Yes, this course qualifies for PDH hours as per the NCEES CPC Guidelines.