Project Work :
Ph.D Dissertation:
TITLE: “Smart Grid applications in Distribution Systems”
Description :
The structure of the designed model consists of PV system with Maximum Power Point Tracking (MPPT) method, DC-DC boost converter, BPI, UPI, Static Compensator (STATCOM) and GCES. If PV power directly provides for huge loads may result in the huge sizing of the panel. The solution for this problem is overcome by automatic control of duty cycle for the Direct Current (DC)-DC converter, which is typically inserted between the solar panel and the load. Therefore, so as to fulfill the huge load demand, Grid Connected Energy Systems (GCES) is designed for single phase and three phase Bipolar Inverter (BPI) and Unipolar Inverter (UPI) with PV systems using Fuzzy Logic Controller (FLC) plus Proportional Integral (PI) controller. Incremental Conductance technique based MPPT is used to derive the control signal for DC-DC boost converter in maximum power operating conditions to produce the DC voltage for BPI, UPI grid connected inverter. The Sinusoidal Pulse Width Modulation technique is used to generate the pulses for BPI, UPI to improve the power quality parameters.
This work also presents a novel hybrid controller which is the combination of FLC cum Hysteresis Current Controlled STATCOM for enhancing the Power Quality and to reduce Total Harmonic Distortion in power system at various load operating conditions. In addition to this the experimental prototype model of Smart Meter is designed to make use of enhanced power with wholehearted consumer satisfaction. Various outputs are obtained and presented.
M.Tech Dissertation:
TITLE: “MODELING AND SIMULATION OF WIND AND PHOTOVOLTAIC RENEWABLE ENERGY POWER SYSTEMS”
Description:
In our recent areas, wind and Photovoltaic (PV) power generation are the most promising renewable energy technologies. of the future due to their fast technology development and many merits they have, such as High efficiency, zero or low emission (of pollutant gases) and flexible modular structure.
The modeling and control of a wind and PV system is addressed in this thesis. a simulation model for the proposed energy system has been developed using MATLAB/Simulink. Simulation studies have been carried out to verify the system performance under different scenarios
B.Tech Dissertation:
Title: “SUBSTATION MONITORING AND CONTROL USING PLC BASED SCADA SYSTEM”
Description:
The proposed project is software which will provide a system by which one can protect, control, monitor and maintain a Sub station from a remote place by a user friendly environment. The system is capable of acquiring data from the system and able to store it in a database for further use. The SCADA system increases the reliability, security and reduces the cost.
List of Students Innovative Project Guided:
1. Novel Idea for Monitoring and Detecting Explosives in Railway Network.
2. A Novel Idea to Reduce Energy Consumption in ATM Centers through Renewable Energy Sources.
3. Hybrid E-Bicycle Using Green Energy for Smart Grid Environment.
4. A Transformation Of City To Smart City Using Smart Devices.
5. Control Measure to Prevent Currency Theft Using RF Tag.
6. Transformation of ATM into Secure and Smart ATM.
7. Intelligent Safety System for Motorcyclist.
Project's Guided :
Batches earlier Supervised Batches presently Supervising
UG : 15 NIL
PG 03 Nil
TITLE: “Smart Grid applications in Distribution Systems”
Description :
The structure of the designed model consists of PV system with Maximum Power Point Tracking (MPPT) method, DC-DC boost converter, BPI, UPI, Static Compensator (STATCOM) and GCES. If PV power directly provides for huge loads may result in the huge sizing of the panel. The solution for this problem is overcome by automatic control of duty cycle for the Direct Current (DC)-DC converter, which is typically inserted between the solar panel and the load. Therefore, so as to fulfill the huge load demand, Grid Connected Energy Systems (GCES) is designed for single phase and three phase Bipolar Inverter (BPI) and Unipolar Inverter (UPI) with PV systems using Fuzzy Logic Controller (FLC) plus Proportional Integral (PI) controller. Incremental Conductance technique based MPPT is used to derive the control signal for DC-DC boost converter in maximum power operating conditions to produce the DC voltage for BPI, UPI grid connected inverter. The Sinusoidal Pulse Width Modulation technique is used to generate the pulses for BPI, UPI to improve the power quality parameters.
This work also presents a novel hybrid controller which is the combination of FLC cum Hysteresis Current Controlled STATCOM for enhancing the Power Quality and to reduce Total Harmonic Distortion in power system at various load operating conditions. In addition to this the experimental prototype model of Smart Meter is designed to make use of enhanced power with wholehearted consumer satisfaction. Various outputs are obtained and presented.
M.Tech Dissertation:
TITLE: “MODELING AND SIMULATION OF WIND AND PHOTOVOLTAIC RENEWABLE ENERGY POWER SYSTEMS”
Description:
In our recent areas, wind and Photovoltaic (PV) power generation are the most promising renewable energy technologies. of the future due to their fast technology development and many merits they have, such as High efficiency, zero or low emission (of pollutant gases) and flexible modular structure.
The modeling and control of a wind and PV system is addressed in this thesis. a simulation model for the proposed energy system has been developed using MATLAB/Simulink. Simulation studies have been carried out to verify the system performance under different scenarios
B.Tech Dissertation:
Title: “SUBSTATION MONITORING AND CONTROL USING PLC BASED SCADA SYSTEM”
Description:
The proposed project is software which will provide a system by which one can protect, control, monitor and maintain a Sub station from a remote place by a user friendly environment. The system is capable of acquiring data from the system and able to store it in a database for further use. The SCADA system increases the reliability, security and reduces the cost.
List of Students Innovative Project Guided:
1. Novel Idea for Monitoring and Detecting Explosives in Railway Network.
2. A Novel Idea to Reduce Energy Consumption in ATM Centers through Renewable Energy Sources.
3. Hybrid E-Bicycle Using Green Energy for Smart Grid Environment.
4. A Transformation Of City To Smart City Using Smart Devices.
5. Control Measure to Prevent Currency Theft Using RF Tag.
6. Transformation of ATM into Secure and Smart ATM.
7. Intelligent Safety System for Motorcyclist.
Project's Guided :
Batches earlier Supervised Batches presently Supervising
UG : 15 NIL
PG 03 Nil