project work -pos
DESCRIPTION
Pos for project workTRANSCRIPT
Academic year
Student Register Number & Name
Name of the Supervisor
with designation
Project title
Contribution/
Achievements/
Research output
POs Attained
2014-2015
10691A0243-S.Sulma Sultana
10695A0201-K.Goutham
Reddy
10691A0245-S.Tahaseen
Begum
10691A0244-
J.J.Sumalatha
10691A0242-
Y. Sagar Reddy
Mr. A. SrinivasuluAsst.Professor
Vehicle Movement
Based street Light
Intensity Controller
The intensity of Light has
been Controller on movement of
vehicle
PO1: The rating of the components are selected based on the voltage of solar panel.
PO2: The proto type of hardware was design.PO3: The pulse width modulation technique has been used to control the intensity of light based on vehicle movement.PO5: The intensity of light was controlled by 8051 Micro controller based on movement of vehicle to conserve the energy.
10691A0236-M.Ranjith
Kumar.
10691A0207-V.Bhagya Lakshmi
10691A0223-B.Manjunath
10691A0227-K.M.Naga
Veni
10691A0240-G.Thulasi
Ram
Dr. K.V.R.B. Prasad Professor
Energy Manageme
nt by Using
Intelligent Control System
An intelligent controller has
been developed to conserve the
energy.
PO1: The Energy audit was carried in college campus. PO2: The proto type of intelligent controller has been designed to conserve the energy.
PO3: The energy consumption is minimized by designing controller, which has economic and environmental impacts.PO4:The Project work carried is discussed and demonstrate clearly with the engineer team
PO5: The fan and Light has been controlled by intelligent controller .PO11: Modern tools like Embedded C and Keil software are used to design the Intelligent controller
10691A0226- K.Nagarjuna Reddy
10691A0253- B.Venkateswarlu
10691A0215-D.Gowtham Kumar
10691A0213- S.Fahed
10691A0219-M.Kishore
Mr.M.KishoreAsst. Professor
Multi-Input and Multi-Output Voltage Copier Using Switched Capacitor
The protype of Multi-Input and Multi-Output Voltage Copier Using Switched Capacitor was designed and verified with simulation results.
PO1: The size of component are selected based on the basic fundamental of engineering.
PO2: The Proto type of Multi-Input and Multi-Output Voltage Copier Using Switched Capacitor was designed in hardwarePO3: To overcome the draw backs of conventional dc-dc converters, voltage copier was implemented. PO4: The project work carried and demonstrate clearly with the engineer teamPO5: The problem of bulk inductor has been overcomed by multi-input voltage copier.
PO11: Modern tools like PSIM software are used to design the voltage copier.
10691A0222- K.manohar
10695A0212-P.Vishnu Kumar
10695A0211-M.Vasudeva
10691A0243- K.Swetha
10691A0210- G.Chandra Sekar
Ms. J.Shivanvitha
Asst.Professor
Analysis and Design of Energy Efficient Electronic Ballast for Induction Lamp
A protype of Electrodeless Fluorescent Lamp algon with SEPIC was designed and verifiyed with MATLAB/SIMULINK software
PO1: The size of component are selected based on the basic fundamental of engineering.PO2: The Proto type of Energy Efficient Electronic Ballast for inductor Switched Capacitor was designed analyzed in hardwarePO3: The Variable dc Link voltage dimming control has been proposed in this project. PO4: The project work carried and demonstrate clearly with the engineer team.
PO5: In these project a
hardware setup was design for lighting application, allowing energy and maintenance saving and increase in the reliability of the fluorescent lamp.PO11: Modern tools like MATLAB/SIMULINK software are used .
10691A0225- P.Muni Kumar
10691A0228-R.Nanda Kumar
10691A0258- Y.Pradeep Kumar
10691A0260-K.V.Pujitha
11695A0209-D.Tejaswini
Mr. SK. Khadar ValliAsst. Professor
Design and Development of Roof Top Solar PV Power System
The DC and AC Power system was developed in MATLAB/SIMULINK and it is verified by PV Syst software
PO1: The Roof top solar PV power system.
PO2: The DC and AC Power system was developed in MATLAB/SIMULINK and it is verified by PV Syst softwarePO3: The roof top solar PV model has been developed in these projectPO4: The research work carried is discussed and demonstrated clearly with an engineering team.PO5: The development solar Roof top PV system of 100 kw has been simulated in MATLAB. PO11: Modern tools like MATLAB/SIMULINK and PV syst softwares are used . PO12: Throughout the research work knowledge is improved from basics to control techniques and self motivated
2014-2015
11691D0732 - Madhusudhan
Reddy
Mr. K VASU, Asst. Professor
Fuzzy Control of Three Phases UPQC for Un Balanced Loads by using SRF Theory
Advanced techniques are employed for three phase system
PO1: Power quality problems are taken as an objective for analysis purposePO2:Harmonic analysis for the unbalanced load has been carried outPO4:Through literature survey it is found that Multi level inverter as an Unified Power Quality Conditioners (UPQC) will improve the power quality
PO5: Modern tools like MATLAB/SIMULINK is used for the design of Fuzzy logic control using Synchronous Reference Frame (SRF) theory PO7: The power quality problems are addressed in this project which in turn improves the economical and financial growth of the industryPO9: This project can be addressed by advanced controllers like Neural network, Microcontrollers and Digital Signal Processors.
11691D0728- E.Venkatapeddi Raju
Mr. G.Ravi Prakash,Asst. Professor
Design Control Strategy of PV System and Fuel Cell for MV Micro Gird under Un balanced Conditions
Power generation is done using the renewable resources like PV and fuel cell
PO1: Power quality problems for medium voltage (MV) Micro grid are taken into analysis purposePO2:Factors like Droop controller, Proportional Resonance (PR) controller, Negative sequence current controllers (NSIC) are the causes to improve the PV system & Fuel cell for MV micro grid PO4: Through detailed survey it is found that PR controller modulates the load voltage, Droop controller shares the average power components between the DG units and NSIC compensates the negative sequence currents of the unbalanced loadsPO5: Modern tools like MATLAB/SIMULINK are used to model the above controllers and simulation is carried out to realize the power quality improvementPO7: By modeling the above controllers, this project ensures the power quality of the MV micro
grids can be improved under unbalanced condition which in turn resolves numerous economic, commercial and technical challengesPO9: This project can be reexamined and the power quality of MV micro grid can be improved by using the controllers like Multi PR controller & Harmonic impedance controller
11691D0731-P.K.Yogendra Reddy
Mr. K VASU, Asst. Professor
Z DVR Based Dynamic Voltage Restorer for Distributed System
Voltage improvement is done for distribution system
PO1: Power quality problems like Voltage sag & swells are taken as objective for analysis purposePO2: In this project, short circuit faults & disturbances are considered as the causes for the voltage sag & swellPO3: FACTS devices are used to compensate for Voltage sag & swellPO4: Through literature survey it is found that Z-source inverter based Dynamic Voltage Restorer (DVR) will compensate the voltage sag & swell in a networkPO5: Modern tools like MATLAB/SIMULINK are used to simulate the results for Z-DVR compensated distribution systemPO9: The same problem can be addressed by advanced controllers and optimization techniques
11691D0730- G Vishnu Vardhan
Mr. K.P.P.Vadhiraj,Asst. Professor
Optimal Location of UPFC for Voltage Stability Enhancement using Modified DSO
For location of fault and voltage stability advanced techniques is done
PO1: Power system Voltage stability problems are taken as objective for analysis purposePO2:In this project, factors affecting voltage stability are examined properlyPO3: FACTS devices are used to give optimal solution to solve the Voltage instability
PO4: Unified Power Flow controller (UPFC) with ECI model will improve the voltage stability effectively as per literature surveyPO5:Modern tools like MATLAB & Modified Particle Swarm Optimization (PSO) algorithm is used to optimally locate and sizing of the UPFC PO9:This project may have the scope developing a better algorithm to find the location and number of UPFC(s)
11691D0727-
T.Triveni
Mr. M. LokeshAsst. Professor
Implementation of Eigen Value Algorithm for Small Signal Stability Analysis in Power System
Stability analysis is using Eigen values for a power system
PO1: Small Signal Stability in a power system is taken as objective for analysis purposePO2: In this project, factors like generator tripping, faults, load voltages are considered as the causes for the power system stability issues.PO4: Through literature survey, it is found that Eigen value algorithm will determine the different stability modes of the power system network with less storage and computation time of the systemPO5: Modern tools like MATLAB/LAPACK are used for the analysis of proposed algorithm to find the stability modes of power systemPO9: This project can be used for Smart Grid technology to have continual system improvement that matches the dynamic nature of the power system which in turn increases reliability &efficiency of the power
system network2012-2014
12691D0713- K.. Malleswari
Dr. K.V.R.B. PrasadProfessor
Power Quality Improvement in Distribution System using PV Inverters
Power quality is improved by generation power using renewable energy sources
PO1: Problems related to power demand are studied and new technique is implemented to improve generation like distributed generation and power quality issues of this generation in the distribution side is studied PO3: Different techniques are studied to improve the power quality in the non linear loads and different controllers are suggested to improve the quality of power PO4: Literature survey is done on the power quality issues due to the insertion of PV system in the distribution network PO5: Based on the literature review solar inverters are suggested to improve the quality of power in the distribution side and the control of power to distribution system PO6: For Operation of DG to the gird interfacing inverters are developed for the smooth power flow PO8: The research work carried out in this project work is discussed and demonstrated clearly.PO9: Throughout the research work knowledge is improved from basics to control techniques and self motivated PO11: The research outcome for the operation of DG grid with PV inverters are examined and future scope of work is specified
12691D0718-
M.Sandeep Kumar
Mr. M. LokeshAsst. Professor
Power Quality Improveme
Power quality improvement is done using
PO1:Power quality improvement in Electric Railway systems are taken
nt in Electrical Railway System by Fuzzy Logic Based Direct Power Control with Space Vector
modern control techniques like fuzzy and space vector
as an objective for analysis purposePO2: In this project, factors like electrical locomotives are considered as the causes for power quality issue say the harmonic distortion of the voltage PO3: Harmonic compensators & Filters are used to compensate for the power quality issues in RailwaysPO4: Through Literature survey it is found that usage of Voltage Source Inverters (VSI) serves as harmonic compensators. Direct Power control with Space Vector Modulator (DPC-SVM) will provide better control of VSIPO5: Modern tools like MATLAB/SIMULINK are used to simulate the proposed fuzzy logic based DPC-SVMPO9:This project have a scope for developing a better controller with the combination of Fuzzy & PI to have better improvement in Power qualityPO10: By modeling the above controllers this project ensures the power quality can be improved under the disturbances of electrical locomotives by reducing the harmonic distortions which in turn helps the power quality issues which are faced in Railway system of the nation
12691D0716- K.Md Riyaz Ali
Dr.C.Kamal Basha Assoc. Professor
Improvement of Transient Stability by using
Stability of power system is improved using fuzzy
PO1: Problems related to power system oscillation and stability analysis is studied PO3: Power system analysis
Fuzzy Controlled SMES
is done by studying the transient and steady state oscillation and methods are suggested to improve the stability of the power system PO4: Literature survey is done on the oscillation of the power system and different causes of the oscillation and methods to improve the transient stability analysis. PO5: Based on the literature review the fuzzy logic control based super conduction magnetic energy storage is suggested to improve the transient stability of the system over a existing method PI controlPO8: The research work carried is discussed and demonstrated clearlyPO9: Throughout the research work knowledge is improved from basics to control techniques and self motivated PO11: The research outcome for the for the fuzzy logic control SMES is studied and transient analysis is done and stability of the system is improved and the result is examined and future scope of work is specified
12691D0704-
SK AzharMr.M.LokeshAsst. Professor
Power Quality Improvement in Air Conditioning System by using SEPI Converter Fed BLDC Motor
Power quality improvement is done using SEPI converter
PO1: Power quality improvement in Air Conditioning (AC) system are taken as an objective for analysis purposePO2: In this project, factors like wide range of speed variations of the drive & wide range of variation in supply are the causes for power quality issuesPO4: Through literature
survey it is found that use of Single Ended Primary Inductor (SEPI) which is used to control the Voltage source Inverter fed Brushless DC Motor (BLDC) will compensate for the power quality issues in AC systemPO5: Modern tools like MATLAB/SIMULINK are used to simulate the proposed SEPI converter fed BLDC motor PO9:This project can be may have the scope to use different motors & different optimization techniques to have better power qualityPO10: By designing the SEPI converters for Permanent Magnet BLDC driven AC, this project ensures the improvement in power quality under the variations in drive speed and AC supply which in turn reflect on the energy savings of the society
12691D0703- B Ashok Kumar
Dr.C.Kamal Basha Assoc. Professor
Improvement of Stability in Cascade DC Power System using AACC
Stability of power system is improved using AACC
PO1: Problems related to direct current distributed power system is studied and the application of DC power is discussed PO3: Different ways of connection of DC power system is studied and problems in operating the cascade case is studied and further operating of DC power system s studied PO4: Literature survey is done on the operation of DC power system and new method of DC power system is suggested over a cascade mode of operation. PO5: Based on the literature review for the DC power system adaptive active
capacitor converter is introduced and to control this fuzzy is used PO6: For operating of adaptive active capacitor converter fuzzy logic controller is used and the stability is improved and the dynamic responses is observed PO8: The research work carried is discussed and demonstrate clearly with the engineer team PO9: Throughout the research work knowledge is improved from basics to control techniques and self motivated PO11: The research outcome for the for the operation of DC power system with adaptive active control with fuzzy control is examined and future scope of work is specified