Industrial Systems

Course Description

Structure of an industrial plant. An engineering approach to analysis and synthesis. The flow of materials, energy, information, and capital. The emergence of industrial plant and project phase. Choice of equipment and technical solution. Technological process requirements, defining energy and information flows. Principles of Power System Design. Power Consumption Specifications of Large Consumers. Power flows. Process and production management systems. A modern approach to design. Technical documentation.

Learning Outcomes

  1. identify different industrial plants structures
  2. identify the essential parts of an industrial plant
  3. analyze electrical and control system of an industrial plant
  4. analyze the impact of faults in an industrial plant

Forms of Teaching

Lectures

Lectures

Seminars and workshops

Seminars and workshops

Exercises

Exercises

Week by Week Schedule

  1. Basic design considerations, Plant distribution system and distribution types, Industrial power demands and load estimate, Voltage and frequency considerations, voltage drops and flickers, Technical documentation - basics, Documentation classification, Text documentation, Drawings, Labeling
  2. Industrial power system analysis, Industrial power system protection analysis, Harmonic analysis of the industrial power system, Stability analysis of the industrial power system
  3. Industrial power system analysis, Industrial power system protection analysis, Harmonic analysis of the industrial power system, Stability analysis of the industrial power system
  4. Industrial power system analysis, Industrial power system protection analysis, Harmonic analysis of the industrial power system, Stability analysis of the industrial power system
  5. Industrial power system analysis, Industrial power system protection analysis, Harmonic analysis of the industrial power system, Stability analysis of the industrial power system
  6. Undergrounded systems, High-resistance grounding system, Low-resistance grounding system, Generator neutral grounding, Neutral grounding equipment
  7. Industrial power system analysis, Industrial power system protection analysis, Harmonic analysis of the industrial power system, Stability analysis of the industrial power system
  8. Midterm exam
  9. General about power transformers in industrial systems, Oil-Filled Transformers, Nonflammable Liquid-Filled Transformers, Dry-Type Transformers, Transformers for nonlinear loads, Generator Step-up and other special transformers
  10. Power fuse in industrial systems, Circuit breakers in industrial systems, Motor control centers
  11. Load characteristics, Induction motors, Synchronous motors, Variable frequency drives, Voltage drops and acceleration time, Motor controllers and starting methods, Transformer protection, Motor protection, Generator protection
  12. Cable selection criteria, Cable shielding, Cable insulation, Cable testing, Control cables in industrial systems
  13. Technology process, Structure of industrial plant, Flows: material, energy and information, Design conponents, Time coding, Project management, Electric design, Design process, CAD/CAM systems, Ingress Protection Marking
  14. Harmonics and resonance, Impact of variable frequency drives on industrial power system, Design recommendations for mitigation of harmonics
  15. Final exam

Study Programmes

University graduate
Electric Machines, Drives and Automation (profile)
(3. semester)

Literature

(.), Shoaib Khanm, Industrial Power System,
(.), Hrvoje Požar, Visokonaponska rasklopna postrojenja, Tehnička knjiga, Zagreb,

For students

General

ID 222539
  Winter semester
5 ECTS
L3 English Level
L1 e-Learning
45 Lectures
15 Exercises

Grading System

Excellent
Very Good
Good
Acceptable