Fall Program: Water Hammer Analysis using BOSfluids
Team Account users: €760
Starts 6 November
Virtual Program
HYB119
€760 For Teams
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Course Objective
"To enable BOSfluids users to be highly effective with the software and perform water hammer analysis independently."
Starts 6 November
4 week program
Instructor-led Program
Live + Self-study
Remote learning
100% online program
Digital Personal Certificate
to prove your skills
About the course
HYBRID
Starts 6 Nov
4 weeks
7 modules
4 hrs/wk
English
Limited seats
HYB119
This course teaches you all the fundamentals of performing water hammer analysis using BOSfluids.
Background knowledge about water hammer phenomena and analyses methods are provided as well as tutorials in performing such analyses in the BOSfluids software. Results are discussed in detail to provide a solid understanding of their interpretation. Next to different water hammer scenarios and their analysis also many real-life cases are provided and associated mitigation measures are discussed.
After this course you are a confident user of BOSfluids that understands good design practices and analysis methods for water hammer phenomena in piping systems.
The course consists of 7 online, self-study modules combined with 4 online live sessions with the instructor. All training content is provided through your EngineeringTrainer account.
After the course you maintain 1-year unlimited access to the course and the discussions forum. This allows you to perform modules again when you need to refresh the knowledge for your projects.
Download Brochure
Join the Program
Team or Personal
Enroll directly using the ENROLL button a the top of this page. Pay by creditcard, PayPal, or bank transfer.
Need your employer to process the payment? Use the link below.
To register multiple team-members at once, use the link below.
Need a dedicated version of this program for your team? Please contact us.
Meet your instructors
the 4-week Program
Instructor & student introductions
Course details & schedule
Using the Course Forum
Certificate requirements
Learning objectives
Q&A
Introduction and Agenda
What are pressure surges and what causes them?
Pressure surge examples in industrial systems
Reducing the impact of pressure surges - Part 1
Reducing the impact of pressure surges - Part 2
Pressure surge analysis: 1 - Steady State
Pressure surge analysis: 2 - Transient
Introduction and agaenda
General Workflow
Viewer
Overview of the element types
Element type : Pipe
Element type : Reducer
Element type : Pipe line
Element type : Valve
Element type : Check Valves
Element type : Regulator Valve
Element type : Relief Valve
Element type : Air Valve
Element type : Orifice
Element type : Pump
Element type : Equipment
Element type : Heat Exchanger
Element type : Surge Vessel
Element type : Tank
Element type : Tube Rupture
Element type : Burst Disk
Element type : Deluge Nozzle
Element type : Beams
Node type : Simple
Node type : Bends
Node type : Tee Junction
- The Components database
Import/export models
Exercise 1- Modelling & simple analysis
Discussing questions from Course Forum
General Q&A
Interface & piping tab
Viewer options
Add Valve
The elements subtab
Boundary conditions
Analysis Setting
Reviewing the results
Managing scenarios
The updated results
Customized plots
Components database
Help windows & manual
Pipe editing options
The water hammer tutorial- PDF
Introduction and agenda
Steady state flow calculations
Boundary conditions
Flow resistance
Pumps in BOSfluids
Quasi steady analysis
Exercise 2 : Steady state balancing - PDF
Exercise 2: Model files - Downloadables
Exercise 2: Explanation(Video Demo)
Discussing questions from Course Forum
General Q&A
Introduction and agenda
Method of Characteristics
Pressure wave propagation
Pressure wave tutorial
Transient events
Exercise 3 - Pump trip: Info
Exercise 3 - Explanation
Exercise 4 - Valve closure : info
Exercise 4 - Explanation
What is cavitation?
Cavitation models in BOSfluids
Flood & Drain analysis
Flood & Drain tutorial
Introduction and agenda
Unbalanced loads in piping systems
Setting up a structural analysis
Reviewing structural results
Control Systems
Tube rupture systems
Experimental validation
Discussing questions from Course Forum
General Q&A
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,
can perform water hammer analysis of basic scenarios in BOSfluids,
know how to interpret pressure surge results,
understand the influence of cavitation in piping systems,
are familiar with the BOSfluids solvers,
know how to link your results to pipe stress analysis software,
have seen numerous real-life cases of water hammer phenomena in industrial piping,
know different mitigation measures and their applicability,
are capable of assessing pressure surge reports to take actions for mitigation of their system at hand.
Who should attend this course
Users of BOSfluids that want a solid understanding of the software, analysis techniques and backgrounds,
Those involved with performing pressure surge analysis,
Engineers that need to be able to understand reporting of pressure surge analysis for their system at hand.
Prerequisites:
No prior knowledge of BOSfluids is required,
A basic understanding of piping systems is beneficial.
Level: Intermediate
Drip Schedule
The relevant items of the course, including the links for the live sessions, are provided through a drip schedule, meaning that modules will become available step-by-step as the course progresses. Some weeks include self-paced learning modules, others both self-paced as live events as per the program.
Content
The course utilizes pre-recorded lectures and self-study exercises, combined with live Q&A's and discussions. Live events are provided through MS Teams for which links are distributed from your course dashboard. Note that no downloadable manual is provided in this course as it is completely provided through our interactive portal.
You receive 1-year unlimited access to the course. This allows you to perform modules again when you need to refresh knowledge for your work projects.
Course start date: Monday, 6 November
| Week 1 | Kick-off (0.5 hr) | Monday, 6 November, 10am CET (convert time-zone) |
| Module 1 available in portal Module 2 available in portal | Monday, 6 November | |
| Week 2 | Session A (1 hr) | Monday, 13 November, 10am CET (convert time-zone) |
| Module 3 available in portal Module 4 available in portal | Monday, 13 November | |
| Week 3 | Session B (1 hr) | Monday, 20 November, 10am CET (convert time-zone) |
| Module 5 available in portal Module 6 available in portal Module 7 available in portal | Monday, 20 November | |
| Week 4 | Session C 1 (hr) | Monday, 27 November, 10am CET (convert time-zone) |
After the course you receive 1-year unlimited access to all course material including recordings of the live sessions. This allows you to watch recording of lectures again whenever you need to refresh knowledge for your daily work projects.
Example Certificate:
Join the Program
Team or Personal
Enroll directly using the ENROLL button a the top of this page. Pay by creditcard, PayPal, or bank transfer.
Need your employer to process the payment? Use the link below.
To register multiple team-members at once, use the link below.
Need a dedicated version of this program for your team? Please contact us.
FAQ
Video lectures and animations,
Calculation exercises (hand calculations),
Instructor-led live sessions with lectures, group discussions, exercises and Q&A's,
Interactive slides & quizzes,
Discussion forum with other participants & instructor.
Please note that for privacy reasons no recordings of the live sessions are made or provided.
The training material used in the live sessions, for example the slides or exercises, will be available in the EngineeringTrainer portal for a year after the date of the training allowing you to refresh your knowledge or review material if needed.
During this course you will be guided through the learning content using different interactive online formats which are not downloadable, but directly available through your account on EngineeringTrainer.com.
Summary sheets are provided at the end of each module which are available for download.
You receive 1-year unlimited access to the course. This allows you to watch content again if this is beneficial for your work projects.
Please note that for privacy reasons no recordings of the live sessions are made or provided.
Yes, live sessions are included in this course that allow you to interact with the instructor and ask questions. Additionally, questions can be submitted in the learning portal by the participants which are addressed in the live sessions.
To respect the privacy of the participants the live sessions will not be recorded, and as such the live sessions cannot be played back. Therefore it is important for all participants to block the time slots of the live sessions in their calendars and be present.
No software is required for participants of this course.
Self-paced Modules
If your computer and internet connection are able to play videos online and have MS Teams calls you will be able to follow the course. Note that almost all browsers are supported, except for Internet Explorer.
Live sessions
Live events are provided by means of Microsoft Teams. Hence it required to have an MS Teams account. Additionally, a webcam and microphone are mandatory for the live events. Separate earplugs are recommended as to avoid sound echo.
Yes, this course qualifies for PDH hours as per the NCEES CPC Guidelines.
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