Pipeline Systems Design, Construction, Maintenance and Asset Management
admin / Monday, May 16th, 2011 / No Comments »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, aluminum, 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.
Plumbing is a piping system that most people are familiar with, as it constitutes the form of fluid transportation that is used to provide potable water and fuels to their homes and business. Plumbing pipes also remove waste in the form of sewage, and allow venting of sewage gases to the atmosphere. Fire sprinkler systems also use piping, and may transport potable or nonpotable water, or other fire-suppression fluids.
Piping also has many other industrial applications, which are crucial for moving raw and semi-processed fluids for refining into more useful products. Some of the more exotic materials of construction are titanium, chrome-moly and various other steel alloys.
CONTENTS
- Introduction
Purpose .
Applicability
References
Distribution
Scope
Metrics
Brand Names
Accompanying Guidance
Specification
Manual Organization - Design Strategy
Design Analyses
Specifications
Drawings
Basis of Design
Loading Conditions
Piping Layout - General Piping Design
Materials of Construction
Design Pressure
Sizing
Stress Analysis
Flange, Gaskets and Bolting
Materials
Pipe Identification
Piping Supports
Testing and Flushing - Metallic Piping Systems
General
Corrosion
Design Pressure
Piping Supports for Metallic
Piping Systems
Joining
Thermal Expansion
Ductile Iron
Carbon Steel
Nickel and Nickel Alloys
Aluminum
Copper - Plastic Piping Systems
General
Polyvinyl Chloride (PVC)
Polytetrafluoroethylene (PTFE)
Acrylonitrile-Butadiene-Styrene
ABS
Chlorinated Polyvinyl Chloride
CPVC
Polyethylene (PE)
Polypropylene (PP)
Polyvinylidene Fluoride (PVDF) - Rubber and Elastomer Piping Systems
General
Design Factors
Sizing
Piping Support and Burial
Fluoroelastomer
Isobutylene Isoprene
Acrylonitrile Butadiene
Polychloroprene
Natural Rubber - Thermoset Piping Systems
General
Reinforced Epoxies
Reinforced Polyesters
Reinforced Vinyl Esters
Reinforced Furans - Double Containment Piping Systems
General
Piping System Sizing
Double Containment Piping
System Testing
Leak Detection Systems - Lined Piping Systems
General
Plastic Lined Piping Systems
Other Lined Piping Systems - Valves
General
Valve Types
Valve Sizing and Selection
Valve Schedule - 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 - Corrosion Protection
Corrosion Protection
Cathodic Protection
Isolation Joints
Protective Coatings
LEARNING OUTCOMES / OBJECTIVES
At the end of the program, participants will be able to: Develop a working knowledge of piping systems ; Differentiate between the different classes of piping; Understand better the design, construction, operations and maintenance requirements of piping systems; Implement strategies and methodologies to create an effective piping maintenance program; Enhance their knowledge and skills to identify and address piping operational problems at all levels; Implement mechanisms to measure piping performance at all levels; Analyse and understand the impact of piping knowledge on the maintenance strategy; Develop and implement an effective piping maintenance budget; Use life cycle costing techniques to deliver best practice piping maintenance; Implement maintenance plans that are cost effective and aligned to the organisations strategic goals; Improve performance by developing detailed specifications with service partners; Establish an effective maintenance team.
WHO SHOULD ATTEND
Facilities engineers, maintenance engineers, design engineers, production and manufacturing engineers, architects, property and asset managers, technicians and any one involved in piping systems and would like to widen their knowledge.
DATES & VENUE
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- DATES : 17–21 October 2011
- TIME : 8.00 am – 4.00 pm
- · VENUE : MELIA PUROSANI-YOGYAKARTA
- Jl. Suryotomo no 31, 55122, Java INDONESIA
Course Organizer
Handal Consulting & Training
Jl. Danau Semayang Blok B3 No. 104
Pejompongan, Jakarta 10210
Website:http://www. handalconsulting.com
http://www.handaltraining.com
Phone: +62 21 – 5708775
Fax : + 62 21 – 5702113
24 Hours INFO: +62 21-70897550
Fees
Course Fee: Rp. 8.000.000,- including: training modules, merchandise, seminar kit, training certificate, 2 x coffee break & lunch, excluding accommodation and tax
Instructor
Prof. DR. Ir. IGN. Wiratmaja Puja
Prof. DR. Ir. IGN. Wiratmaja Puja has 16 years continuous mechnanical engineering experience in failure and stress analysis, mining machinery and design as well as mechanical drawing and has been a consulting engineering expert in machinery and equipment maintenance for PT. Tambang Batubara Tanjung Enim, KONDUR Petroleum and PT. Kereta Api Indonesia. He also has served as an in-company training instructor for several major oil and gas companies such as PT. Badak LNG, PT. Freeport Indonesia, VICO and PT. Timah Tbk.
Mr. Wiratmaja has authored numerous publications and presentations related to mechanical engineering and mining machinery. He holds a M.Sc. and Ph.D. degree in Mechanical Engineering from the University of Kentucky, USA.
