What you'll learn:
- Complete Electrical Design Engineering Training with Practical Example and Hands-on Practice
- Electrical equipment design for all projects like: oil & gas, chemical, power, pharmaceutical etc.
- Detail engineering: Single line diagram, cable routing layout, earthing layout, lightening layout, lighting layout, substation layout, equipment layout
- Electrical Heat Tracing Design, Calculation and Layout
- System Study: Load flow analysis, short circuit analysis, relay coordination, motor starting study, harmonic study
- Equipment specification / datasheet for procurement.
- 3D Modeling, 2D Droughting, Analysis on software like: ETAP, DIALux, AutoCAD
- Hazardous area classification
- Lightning risk calculation, Report generation and layout
- Coordination with other departments for input / output
The goal is to design safe and dependable processing facilities in a cost effective manner. The fact is that there are very few formal training programs that focus on design and engineering of Electrical systems of such big plants The heavy electrical industry has under its purview power generation, transmission, distribution and utilization equipment. These include turbo generators, boilers, turbines, transformers, switchgears and other allied items. These electrical equipment (transformers, switchgears, etc.) are used by almost all the sectors. Some of the major areas where these are used include power generation projects, petrochemical, refineries, chemical plants, integrated steel plants, non-ferrous metal units, etc.
Overview:-
Introduction of Electrical Engineering
Introduction of EPC Industry
Coordination with Other Department
Load List:-
Preparation of Load Schedule
Determination of Power Supply Capacity
Standby Capacity consideration
Rating of Generators in Relation to
Prime Movers Importance of max and min temp
Rating of Motors in Relation to their Driven Machines
Electrical Equipment Selection, Sizing:-
Motor
Transformer
Emergency Generator
Neutral Grounding Resistor (NGR)
Power capacitor banks (PCB)
AC UPS
Battery &Battery Charger
CT/PT
Bus duct
Illumination Design:-
Introduction
Type of Lighting Fixtures
Selection of Lighting Fixtures
Preparation of Fixtures Schedule
Indoor Illumination Calculation
Outdoor Illumination Calculation
Calculation on Software
Lighting Layout Design
Lighting Installation Detail
Small Power selection
Lighting Board Schedule
Cable Selection, Sizing & Layout:-
Power and Control cable Introduction
Cable Selection and Sizing
Cable sizing for Low voltage system
Cable sizing for High voltage system
Voltage Drop Consideration
Let through Energy consideration
Earth fault Loop Impedance consideration
Cable Schedule
Cable interconnection Schedule
Selection and Sizing of cable Tray
Cable tray schedule
Cable Drum schedule
Conduit Selection
Conduit Sizing
Cable Routing Layout
Cable Tagging
Installation details
Development of Single Line Diagram (SLD):-
Key SLD
Detail SLD
Lighting system SLD
Small power SLD
Metering and Control diagram
Earthing & Lightening Protection Design:-
Requirement of Earthing in Industrial Plants
Earthing Design calculations
Type of Earthing and Details
Earthing Installation Details
Earthing Layout Design
Lightening Protection Requirement
Lightening Protection Calculation
Lightening Installation Details
Lightening Layout Design
Testing / System Studies:-
Overview & Load Flow Analysis
Short Circuit Analysis (Fault Level Calculations)
Motor Starting Study
Relay- Coordination