This module describes the skills, knowledge and attitude required to perform machine
tools machining operations. This module is intended to trainees pursuing diploma in
renewable energy. At the end of this module, the trainees will be able to describe
machines for special machining operation, prepare machine tools for special machining
operation and perform machining operations. The trainee will be able to perform
machine tools operations on different machine tools such as lathe machine, milling
machine and drilling machines.
This module describes the skills, knowledge and attitudes required to identify, select and
control electrical machines including single and three phase transformers, three phase
induction motor, single-phase motors, synchronous motor and AC generator (alternator).
It is designed for trainees pursuing Advanced Diploma in Renewable Enery.
By the end of this module, the trainee will be able to identify, select and control the
electrical machine either single/three phase transformer, three phase induction motor,
single phase induction motor, synchronous motor or synchronous generator.
This modules introduces the skills, knowledge and attitude required in Industrial Automation. The trainee will be able to describe basics of Control System, Apply Hydraulic Principles, Pneumatic Principles, Electric Drive Principles and basics of PLC programming and installation.
This module will introduce to students the safety precautions, working principles of machine tools and operation practice (lathe machine, shaping machine, milling machine, drilling machine, grinding machine).
This will give students basic practical skills in the use of
various workshop machines such as lathe machine, milling machine, shaper
machines, drilling machine, etc. and also carryout necessary repair and
maintenance.
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This module describes the skills, knowledge and attitudes required to describe the operation methane gas power plant. It is packaged for tranees/student pursuitng diploma in Renewable Energy. |
The SOLIDWORKS(CAD software) is a mechanical design automation application that lets designers quickly sketch out ideas, experiment with features and dimensions, and produce models and detailed drawings. At the end of this module students will be able to design design parts, assembly and analyze drawing.
Also will be able to design and assemble hydraulics and pneumatic circuit with help of FLUIDSIM.
It familiarizes students with the commonly used functions of SOLIDWORKS and FLUIDSIM.
This course describe different technics used to repair and maintain induction motors especially rewinding process
Objective of the course
At the end of this course a trainees should be able to:
- To identify the motor in normal conditions and abnormal conditions
- To know the causes of damage of a rotating machine
- How to prevent the damage of the machine.
- To change speed of a given system depending on the purpose.
- Interpret the name plate details of the motor and record them.
- Dismantle the motor and remove the rotor (R)
- Collect the winding data (R)
- Draw the development diagram of a 3-phase induction motor having a single layer distributed type unbalanced winding.
- Draw the development diagram of a 3-phase induction motor having a single layer distributed type unbalanced winding.
- Strip the winding from the stator (R)
- Clean the stator and insulate the slots (R)
- Prepare coils and place them in slots for single layer distributed type unbalanced winding.
- Interconnect the coils/groups of the individual phases for the single layer distributed type unbalanced winding.
- Test the motor after the rewinding. (R)
- Preheat and varnish ,impregnate the winding.(R)
- Test run the motor.( R)