An ISO/IEC 17025:2005 Standard - NABL Accreditation Certified Organization.
The objective of this topic is to provide the delegates the basic knowledge and skills in this discipline to facilitate faster learning curves while on the job. This topic will cover the fundamental principles and concepts used in process plant layout and piping design. Upon completion of this topic the delegates will have a clear understanding of the design and engineering principles used in plant layout and piping design..

  1. Introduction to Process piping.
  2. Piping Components and fittings.
  3. Valves.
  4. Overview of Static & Rotary Equipment’s.
  5. Pipe supports.
  6. Piping Materials.
  7. a) Piping Material Selection.
    b) Pipe wall thickness calculation.
    c) Design Pressure calculation.
    d) Design of miter bends.
  8. Process Piping Codes and Standards.
  9. General-Process Diagrams. (Isometric, P& ID, PFD, GA)
  10. 3D Modeling.
  11. Fabrication and Erection Techniques.
  12. Pressure Testing Procedures.

  1. Introduction to Welding
  2. Codes & Standards
  3. Welding process & Quality
  4. Basic welding & Cutting process workshop (Theory & Practicals)
  5. Welding Metallurgy
  6. Safety in Welding & Cutting Processes
  7. Welding Qualifications & Specifications
  8. Fatigue of Welded Structures
  9. Welding Inspection
  10. Geometries & Weld Symbols
  11. Selection of Base metals & Filler Metals
  12. Weld Defects
  13. Reports & Forms


Understanding the basic principles of various NDT methods, fundamentals, discontinuities in different product forms, importance of NDT, applications, limitations of NDT methods and techniques and codes, standards and specifications related to non-destructive testing technology.

  1. Introduction to N.D.E.
  2. Codes and Standards.
  3. Visual Testing.
  4. Liquid Penetrant Testing.
  5. Magnetic Particle Testing.
  6. Ultrasonic Testing.
  7. Radiographic Testing.
  8. Radiographic Film Interpretation
  9. Report Forms.



Understand basic blasting and painting procedures, methods of application and testing Understand the importance of surface preparation. Recognise the benefits and disadvantages of coating and paint systems


  1. Corrosion theory
  2. Coating conditions
  3. Surface preparation methods, purpose and standards
  4. Blasting methods and equipment
  5. Cleaning methods and standards
  6. Surface contaminants and tests/detection
  7. Paint systems, manufacture and technology
  8. Paint film testing and equipment
  9. Paint gloss
  10. Adhesion test and equipment
  11. Pinhole/Holiday detection
  12. Cathodic protection
  13. Paint application methods
  14. Duties of the painting inspector
  15. Health and safety

Piping Engineering - Training on Pipe Fabrication
  1. Codes, standards & specifications of ASME, ANSI, ASTM, API, NACE, MSS, AISI, AWS, AWWA & PFI
  2. Material science of various piping materials like carbon steel (CS ), alloy steel (AS ), stainless steel(SS), Hastalloy, Inconel, Copper nickel, etc
  3. Different types of pipes (Seamless, Rolled ERW, Rolled EFW, Spiral welded) Fittings (Long radiouselbows, shortradious elbows, 45 degree elbows, equal tees, reducing tees, eccentric & concentric reducers, reinforcing saddles, weldolets, sockolets, threadolets, elbowlets, latrolets, welding bosses
  4. Different types of flanges, (weldneck, slip-on, socketweld, blind, lapjoint, reducing and orifice flanges ) various type valves (Gate, globe, ball, butterfly, plug, needle, fourway, threeway, non-return, angle, PSV, PRV, FCV, TCV and Level Control Valves)
  5. Welding procedure specifications (WPS), WPQR and WPQT
  6. Fabrication and errection of Steel structural drawings for piperacks, pipetrenchs, pipesleepers, platforms, ladders, handrails, pipesupports, etc
  7. Errection drawings of static & rotating equipements (colunms, vessels, heatexchangers, condensors, finfancoolers, reactors, absorbers, fracinators, flarestacks, relief system stacks,
  8. Method statements for pre-fabrication, site fabrication and errection of piping systems at underground and above ground
  9. Method statements, job safety analysis, riskassesments, total safety task instructions,rigging studies and plans for heavy lifting and errectins of steel structurals, pressure vessels and various rotating equipements.
  10. Plot plans, site plans, general arrangement drawings, isometric drawings, spool drawings, flowdiagrams, P& ID(piping and instrument diagrams)
  11. Pre- fabrication, site fabrication and installation of various piping systems (Utility systems, fuel gas systems, process systems, flare systems, reliefsystems, fire water systems, jacketed piping systems for sulfur and asphalt lines, cement lined piping systems for cooling water and sea water, steam tracings,)
  12. Line checking as per test pack, Isodrawings, P&ID, ITP (inspection & test plan), pipe internal cleaning report, NDE reports, flange face inspection reports, bolttorquening & tensioning reports.
  13. Issuing punch list, confirmation of punch clearance, submission of test pack approval for ready for test (RFT) .
  14. Hydro testing, pneumatictesting, visualtesting, chemical cleaning & pickling. piping systems draining, flushing, pigging, airblowing, steam blowing, system acceptance for inertgas filling and handover to commissioning.


PPE(personal protective equipments), safety equipments and tools, safety orientation & induction training, toolbox talk,working at height, confined space entry, excavation, powertools, hotwork, heatstress, electrical/mechanical lockout/tagout, and emergency rescue plans. Mobilization of temporary site facilities,tools and equipments.


Site observation reports,material approval request,non conformity reports, daily progress reports, daily manpower reports, machinery stock register, pipingfitup & weld visual reports, rotary & static equipments alignment reports, line history sheets, piping site fabrication and installation measurement summary sheets, mechanical clearance of piping loops, hydro testing and pneumatic testing reports.