Process Engineering Drawing

ENCH600015

Prerequisites

Course Type

Compulsory

Credit Hours

2

Course Learning Outcomes

  • Manually draw process flow diagrams (PFD), piping and instrumentation diagrams (P&ID), and plant layouts.
  • Recognize and utilize software for creating process diagrams.
  • Understand and interpret the meaning of process diagrams and layouts.

Course Content / Syllabus

  1. Introduction to Drawing Techniques

    • Overview of technical drawing in engineering
    • Importance and applications in process industries

  2. Basics of Drawing Technique

    • Fundamental principles of technical drawing
    • Tools and methods for precise illustrations

  3. Block Process Flow Diagram

    • Introduction to block flow diagrams (BFDs)
    • Simplified representation of processes

  4. Symbols: Basic Symbols of Equipment

    • Standardized symbols used in the chemical industry
    • Equipment and process flow representation

  5. Process Flow Diagram (PFD)

    • Detailed process representation using PFDs
    • Incorporating equipment, pipes, and material flow

  6. Equipment Symbols, Pipes, and Instrumentation

    • Detailed equipment symbols and piping representation
    • Basics of instrumentation and control symbols

  7. Piping and Instrumentation Diagram (P&ID)

    • Creating P&IDs for detailed process design
    • Integration of piping, instrumentation, and control systems

  8. Software for Drawing

    • Introduction to drawing software tools
    • Applications in process engineering (e.g., AutoCAD, SolidWorks)

  9. Plant Plots & Plant Layouts

    • Design and visualization of plant plots and layouts
    • Spatial arrangement of equipment and facilities

  10. Piping Route and Isometric Drawing

    • Piping route design and isometric drawings
    • Representation of pipelines in 3D perspectives

  11. Spool Drawing and Bill of Materials (BOM)

    • Preparation of spool drawings for fabrication
    • Creating and interpreting BOMs for projects

  12. Bill of Quantity (BOQ)

    • Quantitative analysis of materials and costs
    • Applications in project planning and estimation

Recommended References

  1. W. Boundy, Engineering Drawing, McGraw-Hill Book Company.
  2. Colin Simmons & Dennis Maguire, Manual of Engineering Drawing, Edward Arnold.
  3. ISO 1101, Mechanical Engineering Drawings, International Organization for Standardization.
  4. Japanese Industrial Standard, Technical Drawing for Mechanical Engineering, Japanese Standard Association.
  5. Warren J. Luzadder, Fundamentals of Engineering Drawing, Prentice-Hall, Inc.