G H RAISONI COLLEGE OF ENGINEERING AND MANAGEMENT
(Approved by AICTE, New Delhi and Recognized by DTE, Maharashtra)
An Autonomous Institute & Affiliated to Rashtrasant Tukadoji Maharaj Nagpur University, Nagpur
Accredited by NAAC with A+ Grade
Department of Electrical Engineering
Accredited By NBA
Nagpur | Pune | Jalgaon | Amravati | Pandhurna | Bhandara
Block:- C
Floor:- Ground Floor
Room No:- GF-22
COMPUTER LAB
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Outlines
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About Laboratory
Information about Laboratory:
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List of Major Equipment / Software-Hardware Configuration
Sr. No. | Item | Manufacture/Make | Qty |
1 | Head Phone with Mike | Smart It | 20 |
2 | Computer Set | Smart It | 25 |
3 | Switch 24/8/port | Smart It | 2 |
4 | Patch Panel 24 port | Smart It | 2 |
5 | Patch Cord Digisul | Smart It | 110 |
6 | Io Box complete Digisul | Smart It | 213 |
7 | MATLAB Software | MATLAB | 1 |
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Laboratory Course Outcome
Name of Subject: Computer Application in Electrical Engineering | | |
LABORATORY COURSE OUTCOME | ||
CO1 | Acquire knowledge of numerical methods for power system studies | |
CO2 | Simulate Transmission line for Power system analysis | |
CO3 | Program different power system conditions | |
CO4 | Develop computer program for transient stability | |
CO5 | Test computer program for transient stability | |
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List of Experiments
Sr. No. | Experiment List |
1 | Program to find A^ and A for a given system |
2 | Program to plot swing curve of a given system by step by step method. |
3 | Program for transient stability by modified Euler’s method. |
4 | Program to obtained load flow analysis using ETAP software |
5 | Study of simple transmission system using PSCAD software. |
6 | To perform Load flow analysis of IEEE 30 bus system by using Gauss sidle method. |
7 | To perform Load flow analysis of IEEE 30 bus system by using Newton Raphson method. |
8 | To perform load flow analysis by fast decoupled method. |
9 | Program to find Z bus of a power system network. |
10 | Program to find Z bus of a power system network. |
11 | Program to find Y bus of a power system network. |
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List of Experiments
Sr. No. | Experiment List |
12 | Program to find Symmetrical fault through a fault impedance Zf=j0.1 per unit. |
13 | Program to find unsymmetrical fault through a fault impedance Zf=j0.1 per unit. |
14 | To do the load flow analysis using Power World Simulator software |
15 | To write the program to calculate the network matrices in MATLAB by using singular Transformation. |
16 | Program to find contingency analysis of given power system. |
Open Ended Experiments / New Experiments | |
1 | Transient stability analysis of a multi machine power system |
2 | Unsymmetrical short circuit studies -sub transient, transient and steady state comparison |
3 | Study and Implementation of Single Line Diagram Using Simulink and Parameters Evaluation in Per Unit System of Calculations. |
4 | Algorithm Design and its Implementation for Bus Admittance Matrix Using MATLAB |
5 | Study and analysis of power system stability using equal area criteria for a single machine system from pre to post fault conditions |
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Laboratory Course Outcome
Name of Subject: AI Application to Power System | | |
LABORATORY COURSE OUTCOME | ||
CO1 | Understand ANN fundamentals. | |
CO2 | Understand Fuzzy Logic fundamentals. | |
CO3 | Apply AI tools for Applications in Load Forecasting & scheduling. | |
CO4 | Apply AI tools for Applications in power system analysis. | |
CO5 | Apply AI tools for Applications in Fault analysis. | |
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List of Experiments
Sr. No. | Experiment List |
1 | Solve AND / OR logic function using perceptron neural network. |
2 | Write Matlab program to analysis the condition of power system based on generation level |
3 | Write Matlab program for fuzzy logic based washing machine control system |
4 | Write a Matlab program for load forecasting using ANN model. |
5 | Write a Matlab program for optimization of single variable function |
6 | Speed control of DC motor using fuzzy Logic. |
7 | Temperature monitoring using fuzzy logic |
8 | Fuzzy logic based Air conditioner. |
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Laboratory Course Outcome
Name of Subject: Power Quality Assessment & Mitigation | | |
LABORATORY COURSE OUTCOME | ||
CO1 | Identify the presence of power quality attributes | |
CO2 | Evaluate and measure various power quality attributes | |
CO3 | Analyze the industrial systems for various power quality indices and voltage sag monitor and mitigation techniques | |
CO4 | Identify the sources of waveform distortion | |
CO5 | Monitor and assess various types of power quality issues and to use various power quality measuring tools, their settings according power systems and to do the power quality audit of the industry and provide solutions to overcome the power quality problems. | |
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List of Experiments
Sr. No. | Experiment List |
1 | Introduction to power quality analyzer. |
2 | Measurement of harmonic distortion of SMPS. |
3 | Design of passive harmonic filter – computer simulation for power electronic application |
4 | Design of active harmonic filter – computer simulation for power electronic application |
5 | Simulation studies of harmonic generation sources such as VFD, SVC, STATCOM and FACTS devices and harmonic measurement (THD) by using MATLAB |
Open Ended Experiments / New Experiments | |
1 | Power quality audit of institute or department |
2 | Case study of grid connected system for power quality mitigation techniques and analysis |
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Glimpses of Laboratory
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Glimpses of Laboratory
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Glimpses of Laboratory
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Thank you !
Nagpur | Pune | Jalgaon | Amravati | Pandhurna | Bhandara