Labs Details
Electrical Laboratory
About the Laboratory
The electrical engineering lab is considered one of the most important labs in the electrical engineering department where it receives the students of the first stage of all specialties. The students conduct a series of scientific experiments to prove the theories and laws that were given to them in the theoretical lectures, thus establishing an important concept for these theories. Every experience they try This report represents the beginning in the writing of a mini-research, which enhances the method of writing research for students.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Ohms Law | ||
| 2 | Kirchhoff’s Laws | ||
| 3 | ∆-Y and Y-∆ Circuit Conversions | ||
| 4 | Superposition and Reciprocity Theorems | ||
| 5 | Thevenin’s and Norton’s Theorems | ||
| 6 | The Cathode ray Oscilloscope | ||
| 7 | Impendence Element Characteristics | ||
| 8 | RLC Series Circuit | ||
| 9 | RLC Parallel Circuit | ||
| 10 | Resonance in Series and Parallel Circuits | ||
| 11 | Maximum Power Transfer | ||
| 12 | Power Factor Improvement |
DC Machines Laboratory
About the Laboratory
The laboratory consists of a set of generator and DC motors and is fed from a main control panel with a continuous voltage of 220 V for the generator and DC motors and a single phase alternating voltage of 220 V and a 50 Hz frequency with three-phase service feed with 380 volts The frequency is 50 Hz. Experiments on generators, engines and single phase transformers are given to students in the electrical engineering department and to all branches (electrical engineering branch, electronic engineering branch and communications engineering branch) according to the officially established curriculum.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Anatomy of DC machines | ||
| 2 | Determination of the No-load characteristics and speed–voltage characteristics of a D.C shunt generator | ||
| 3 | Determination of characteristics curve of a shunt generator | ||
| 4 | Determination of the load characteristics of a separately excited generator | ||
| 5 | Determination of the characteristics curves of a compound generator | ||
| 6 | Simulation of electrical Machines by using Mat lab | ||
| 7 | Characteristics of a D.C Shunt excited Motor | ||
| 8 | Speed Control of a D.C Shunt excited Motor | ||
| 9 | Characteristics of a D.C Series Motor | ||
| 10 | Swinburne's Test | ||
| 11 | Simulation of D.C machine by using Mat lab/ Simulink | ||
| 12 | Hopkinson Test | ||
| 13 | No load &short Cir. Test of 1ph Transformer | ||
| 14 | Load Test of 1ph Transformer | ||
| 15 | Back to back of 1ph Transformer | ||
| 16 | Simulation of DC Motor at Braking | ||
| 17 | Parallel operation of two transformers |
High Tension Laboratory
About the Laboratory
Established in 1975, the Laboratory of Power and High Voltage has laboratory equipment specialized in electrical engineering experiments, power systems engineering and high tension, including in the field of generation systems, transmission and distribution of electrical energy and protection devices and control of its work. The laboratory also has a standard lounge for high and high tension tests. It has a pulse generator and a high pressure set to conduct high voltages experiments. The lab receives the third and fourth grade students of the electrical engineering branch in the electrical engineering department, with three weekly hours per group and throughout the year.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Power Transmission line Model Study | ||
| 2 | The Use of Contactors in Motor Starter | ||
| 3 | Automatic Sequence Starting of 3ф Motors for Conveyor Belt Drives | ||
| 4 | partA:Direct Current Breaking of a3ф I.M PartB:Interlocked Operation of Two I.M | ||
| 5 | Voltage Distribution and String Efficiency of Model Suspension Insulator | ||
| 6 | A:starting Up the power station Simulator B:Fault Annuciator System | ||
| 7 | Power Transmission line Performance Study | ||
| 8 | Synchronizing Two 3-Phase Supplies | ||
| 9 | Determination of Short –Circuit Currents in Electrical Power System Networks | ||
| 10 | Star-Delta Starting of 3-phase Induction Motor | ||
| 11 | Load flow Analysis Using Power World SIMULATOR | ||
| 12 | A:Counter-Current Breaking of a3-phase induction Motor B:Timed Operation of Induction Motors | ||
| 13 | Automatic Change Over(Two-Supplies) | ||
| 14 | Measuring The Grounding Electrode Resistance | ||
| 15 | Demonstration Model For Generator Protecton | ||
| 16 | Breakdown in uniform and NON-uniform Electric Fields Under A.C Test Voltage | ||
| 17 | Voltage Control in Power System | ||
| 18 | Under / Over Voltage Time Relay | ||
| 19 | Demonstration Model For System Protecton | ||
| 20 | three-phase Circuits Part 1&2 | ||
| 21 | Computer Aided Lighting Design |
AC Machines Laboratory
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Alternator Regulation | ||
| 2 | Alternator Characteristics | ||
| 3 | Load Test on a Three Phase Induction Motor | ||
| 4 | Open Circuit and Short Circuit Test on a Three Induction Motor | ||
| 5 | Delta Open / Delta Loss Test on a Three Phase Transformer | ||
| 6 | Speed Control of a Three Phase Induction Motor | ||
| 7 | Synchronous Motor Operation | ||
| 8 | Single Phase Operation of a Three Phase Induction Motor and Determination of equivalent circuit | ||
| 9 | Load Test on Synchronous Motor and Measurement of Power Angle | ||
| 10 | Determination of Parameters of Synchronous Machine | ||
| 11 | Speed Control of a Three Phase Induction Motor by Variation of Rotor Resistance | ||
Power Electronics Laboratory
About the Laboratory
The electrical electronics lab in the electrical engineering department is one of the laboratories of electrical engineering department equipped with the latest modern laboratory equipment. The main objective of the lab is to impress the students of the electrical engineering branch / the fourth phase of the powerful electronics devices from the point of view of design, function, protection, operation and control, and design of controlled components, single and triple phase controllers, single and triple phase motors, frequency variables, operating modes and load conditions. , Operating and stopping circuits and protection. In addition to studying the characteristics of electric and alternating current motors. It also includes the introduction of the fourth stage students on the characteristics of renewable energy sources, including solar cells, where laboratory testing depends on modern methods of teaching is a way of learning within the team-based learning.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Characteristics of Power Electronic Semiconductor Devices: (SCR and IGBT) | ||
| 2 | Uncontrolled Diode Rectifiers: (AC-DC Converter) | ||
| 3 | Phase Controlled Thyristor Rectifier: (AC-DC Converter) | ||
| 4 | AC-AC Voltage Controller Converter | ||
| 5 | Full-Bridge DC-AC Converter (Inverter) Controlled by Square-Wave PWM Technique | ||
| 6 | Semi-Controlled Converter Drive for Speed Control of Separately-Excited DC Motor | ||
| 7 | Single-phase AC-DC Converter with Ohmic-Inductive and Ohmic-Inductive -Battery loads | ||
| 8 | Single-Phase Controlled Rectifier with Ohmic-inductive Load | ||
| 9 | Static Stator Voltage Controller For Induction Motor Drive | ||
| 10 | Chopper-Fed DC motor Drive | ||
| 11 | Volt-Current Characteristics of Solar cell | ||
| 12 | DC-DC Boost Converter based Photovoltaic System | ||
| 13 | Maximum Power Point Tracking of Photovoltaic System | ||
| 14 | SPWM single-phase Inverter based Photovoltaic System | ||
Auto CAD Laboratory
About the Laboratory
The computer drawing system has begun to compete with traditional painting tools and is increasingly entering the field of work. This is not only because of the speed and accuracy of the Reem, but also as a contributing factor in the design process.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| Exp. No. | Experiment Title | ||
| 1 | Introduction to AutoCAD | ||
| 2 | Patterns and drawing preparation | ||
| 3 | Set of basic drawing commands (line, circle, Arc) | ||
| 4 | Set of basic drawing commands (point, polygon, Recylangle Draw Hatch) | ||
| 5 | Set of basic modification orders (scale, rotate, move, erase) | ||
| 6 | Set of modification orders (offset, mirror, array, copy) | ||
| 7 | Advanced edit set (fillet, chamfer, extend, trim) | ||
| 8 | Writing and dimensions | ||
Engineering Drawing Laboratory
About the Laboratory
Engineering Drawing is the language used for understanding by engineers, technicians and others who design and manufacture of buildings, machinery, aircraft, satellites and others. The main purpose of geometric drawing is to be used as a guide to the manufacture or execution of the prescribed form. For this reason, the engineering diagram should contain all the information necessary to accurately describe the exact shape of the object.
| Exp. No. | Experiment Title | ||
|---|---|---|---|
| 1 | Preliminary principles of drawing and engineering drawing tools | ||
| 2 | Lines in the engineering drawing | ||
| 3 | Engineering processes | ||
| 4 | Multipoint drawing | ||
| 5 | Holographic drawing (caption drawing, italic drawing, perspective drawing) | ||
| 6 | Sections | ||
| 7 | Dimension | ||