Water Piping System & Piping Design

27-28 Nov, 2023, SERI PACIFIC HOTEL KUALA LUMPUR

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Ir. Dr N.JAYASEELAN has about 35 years of experience in various industries.

 

He is also :

- the past Chairman of the Engineering Education Technical Division of The Institution of Engineers, Malaysia,

- a member of the Education Committee of the Association of Consulting Engineers (ACEM).

- a member, Accreditation Board, The Institution of Engineers, Malaysia;

- a member, Standing Committee on Admissions & Practical Training, The Institution of Engineers, Malaysia;

- current chairman, Industry Advisory Board (IAB), The University of Nottingham (Malaysian Campus)

 

Professionally trained in mechanical engineering, he is positive and lively in his approach. He livens his audience by always providing interactive and energetic presentation of his material in a comprehensive and easy to use format of ideas that work. His participants describe him as a very creative, fun and lively trainer who sets high standards.

 

He graduated from the University of Malaya, Leeds Polytechnic, UK and Universiti Putra Malaysia and holds a Degree in Mechanical Engineering a Masters and an Industrial Doctorate in Engineering.

 

His wide hands-on industrial experience has enabled him to design and facilitate training courses.

 

Some of the companies he has trained includes, Tenaga Nasional Bhd, Bank Pembangunan, Ranhill, Ebara Pumps, Usaha Tegas Sdn.Bhd (Maxis), Infineon (M) Sdn.Bhd, Universiti Malaya, Universiti Teknologi Malaysia, Penang Port Sdn.Bhd. Cement Industries of Malaysia Berhad, Politeknik Mukah (Sarawak), Petlin Malaysia Sdn Bhd, RAPID-kl, KTM, KWSP etc.

 

Ir.N.Jayaseelan is a Professional Engineer registered with the Board Of Engineers (BEM), Malaysia, member of the Association of Consulting Engineers, Malaysia (ACEM), a Fellow of The Institution of Engineers, Malaysia (IEM), member of the Institution of Engineering & Technology (IET), UK, a member of Engineers Australia (EA) and a Chartered Professional Engineer (CPEng) of Australia. He is also a Chartered Engineer, registered with the Engineering Council of the UK (ECUK).

Venue Details

SERI PACIFIC HOTEL KUALA LUMPUR
Jalan Putra 50350, Kuala Lumpur,
Phone : 0-3-4042 5555

https://www.seripacifichotel.com/

Contact us

Juliany,
03 2283 6109
juliany@ipa.com.my

Phoebe,
03 2283 6100
phoebe@ipa.com.my 

FOR CUSTOMISED IN-HOUSE TRAINING
Jane,
03 2283 6101
Jane@ipa.com.my

ADDRESS 
A-28-5, 28th Floor, Menara UOA Bangsar, 
No.5, Jalan Bangsar Utama 1, 
59000 Kuala Lumpur
www.ipa.com.my

FOCUSING ON
  • Module 1: Introduction
  • Module 2: Design Strategy
  • Module 3: General Piping Design
  • Module 4: Metallic Piping Systems
  • Module 5: Plastic Piping Systems
  • Module 6: Rubber and Elastomer Piping
  • Module 7: Thermoset Piping Systems
  • Module 8: Double Containment Piping Systems
  • Module 9: Lined Piping Systems
  • Module 10: Valves
  • Module 11: Ancillary Equipment
  • Module 12: Corrosion Protection
INTRODUCTION
Within industry, piping is a system of pipes used to convey fluids (liquids and gases) from one location to another. The engineering discipline of piping design studies the efficient transport of fluid. Industrial process piping (and accompanying in-line components) can be manufactured from wood, glass, steel, aluminium, plastic, copper, and concrete. The in-line components, known as fittings, valves, and other devices, typically sense and control the pressure, flow rate and temperature of the transmitted fluid, and usually are included in the field of piping design. Piping systems are documented in Piping and Instrumentation Diagrams (PID). If necessary, pipes can be cleaned by the tube cleaning process.
AFTER ATTENDING THIS COURSE YOU WILL RETURN TO YOUR JOB…
  1. Developing a working knowledge of piping systems.
  2. Being able to differentiate between the different classes of piping.
  3. Understanding the design, construction, operations and maintenance requirements of piping systems.
  4. Implementing strategies and methodologies to create an effective piping maintenance programme.
  5. Identifying and addressing piping operational problems at all levels.
  6. Implementing mechanisms to measure piping performance at all levels.
WHO SHOULD ATTEND
Facilities Engineers, Maintenance Engineers, Design Engineers, Production and Manufacturing Engineers, Architects, Property/Asset Managers, Technicians and anyone involve in piping systems.
METHODOLOGY
  • The latest educational methods and strategies will be utilized.
  • The course is designed to maximize delegate participation.
  • Questions and answers are encouraged throughout and at the daily wrap-up sessions. This gives participants the opportunity to discuss with others and the presenter their specific problems and appropriate solutions.
  • The course shall be conducted through lectures, case studies, group discussions and exercises to reinforce participant’s learning.
  • The course consists of formal content presentation interspersed with content quiz sessions.
  • The presenter’s style involves intensive participant participation.
Day 1
9:00

Module 1: Introduction

  • Purpose
  • Applicability
  • References
  • Distribution
  • Scope
  • Metrics
  • Brand names
  • Accompanying guidance
  • Specification
  • Manual organization

 

Module 2: Design Strategy

  • Design analyses
  • Specifications
  • Drawings
  • Basis of design
  • Loading conditions
  • Piping layout
10.45

Module 3: General Piping Design

  • Materials of construction
  • Design pressure
  • Sizing
  • Stress analysis
  • Flange, gaskets and bolting
  • Materials
  • Pipe identification
  • Piping supports
  • Testing and flushing
12.00

Module 4: Metallic Piping Systems

  • General
  • Corrosion
  • Design pressure
  • Piping supports
  • Piping systems
  • Joining
  • Thermal expansion
  • Ductile iron
  • Carbon steel
  • Nickel and nickel alloys
  • Aluminium
  • Copper
1:00 Lunch
2:00

Module 5: Plastic Piping Systems

  • General
  • Polyvinyl chloride (PVC)
  • Polytetrafluoroethylene (PTFE)
  • Acrylonitrile-Butadiene-Styrene (ABS)
  • Chlorinated Polyvinyl Chloride CPVC)
  • Polyethylene (PE)
  • Polypropylene (PP)
  • Polyvinylidene Fluoride (PVDF)
3:45

Module 6: Rubber and Elastomer Piping Systems

  • General
  • Design factors
  • Sizing
  • Piping support and burial
  • Fluoroelastomer
  • Isobutylene Isoprene
  • Acrylonitrile Butadiene
  • Polychloroprene
  • Natural rubber
5:00 End of Day 1
Day 2
9:00

Module 7: Thermoset Piping Systems

  • General
  • Reinforced Epoxies
  • Reinforced Polyesters
  • Reinforced Vinyl Esters
  • Reinforced Furans
 

Module 8: Double Containment Piping Systems

  • General
  • Piping system sizing
  • Double containment piping
  • System testing
  • Leak detection systems
10.45

Module 9: Lined Piping Systems

  • General
  • Plastic lined piping systems
  • Other lined piping systems
12.00

Module 10: Valves

  • General
  • Valve types
  • Valve sizing and selection
  • Valve schedule
1:00 Lunch
2:00

Module 11: Ancillary Equipment

  • Flexible couplings
  • Air and vacuum relief
  • Drains
  • Sample ports
  • Pressure relief devices
  • Backflow prevention
  • Static mixers
  • Expansion joints
  • Piping insulation
  • Heat tracing
  • Corrosion protection
  • Cathodic protection
  • Isolation joints
  • Protective coatings
3:45

Module 12: Corrosion Protection

  • Corrosion protection
  • Cathodic protection
  • Isolation joints
  • Protective coatings
5:00 End of Course