international conference on advances in sustainable energy
TRANSCRIPT
16-17 April, 2021
International Conference on
Advances in Sustainable Energy, Environment and Engineering
Department of Electrical Engineering J. C. Bose University of Science and Technology, YMCA
Faridabad (Haryana)-121006 (NAAC Accredited ‘A’ Grade State Govt. University)
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Chief Patron
Shri Satyadeo Narain Arya
Hon ble Governor, Haryana & Chancellor
JCBoseUST, YMCA, Faridabad
Patron
Prof. Dinesh Kumar
Vice Chancellor
JCBoseUST, YMCA, Faridabad
Conference Chair
Prof. Poonam Singhal
Chairperson, EED
JCBoseUST, YMCA, Faridabad
Conveners
Dr. Shakuntla
Electrical Engg. Department
JCBoseUST, YMCA, Faridabad
Nitin Goel
Electrical Engg. Department
JCBoseUST, YMCA, Faridabad
Organizing Committee
Dr. Sakshi Kalra, Assistant Professor, EED, JCBoseUST
Dr. Rashmi Agarwal, Assistant Professor, EED, JCBoseUST
Ms. Anubha Gautam, Assistant Professor, EED, JCBoseUST
Ms Shipra Agarwal, Assistant Professor, EED, JCBoseUST
Mr. Satvinder Singh, Assistant Professor, EED, JCBoseUST
Mr. Atma Ram, Assistant Professor, EED, JCBoseUST
Ms. Rachna, Assistant Professor, EED, JCBoseUST
Ms. Bharti Thakur, Assistant Professor, EED, JCBoseUST
International/National Advisory Committee
Dr. Marta Molinas, Cybernetics,
Norway
Dr. Ramesh Bansal, University of
Sharjah, UAE
Pof. Akhtar Kalam, Victoria University
Dr. Jahangir Hossain, University of
Technology Sydney, Australia
Dr. Sukumar Mishra, EED, IIT Delhi
Dr. Bhim Singh, IIT Delhi
Dr. N. P. Padhy, EED, IIT Roorkee
Dr. B. K.Panigrahi, EED, IIT Delhi
Dr. Narender Kumar, EED, DTU Delhi
Dr. Dheeraj Joshi, EED, DTU Delhi
Prof. K.S Sandhu, NIT Kurukshetra
Dr. S. K. Gupta, DCRUST, Murthal
Dr. P. R. Sharma, EED, JCBoseUST
Dr. Ashok De, ECED,DTU Delhi
Dr. Neelam Turk, ECED, JCBoseUST
Prof. Rajesh Ahuja, EED, JCBoseUST
Prof. Anju Gupta, EED, JCBoseUST
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
J. C. Bose University of Science and Technology, YMCA, Faridabad
Department of Electrical Engineering
MESSAGE
Conference Chair
Energy efficiency features prominently on the ‘global scorecard for policy makers’ proposed by the
World Bank. According to the Global Economic Prospects report published by the World Bank
‘Energy is at the forefront of the development agenda. Recognizing energy's vital role in
development and prosperity, the world has committed to Sustainable Development Goal 7 to
"Ensure access to affordable, reliable, sustainable and modern energy for all" as one of 17 goals for
2030, as well as to dramatically increase energy efficiency and the use of renewable energy’.
Undeniably, this conference would help us clarify the academic blueprint required to orient
engineers towards sustainability goals and deliver the knowhow with which to accomplish the feat
of addressing environmental concerns with almost incessant industrial development. The “Triple
Bottom Line” -People, Planet and Profit coined by John Elkington articulates is no more a matter of
Corporate Social Responsibility but a desperate need.
The importance of the conference cannot be gainsaid as it will provide an effective platform for the
eminent speakers and participants to engage in a meaningful dialogue whereby new ideas could
germinate related to provisions we could make in India to gear up for the massive shift that is on the
cards.
I convey my best wishes for the success of the conference.
Prof. (Dr.) Poonam Singhal
Chairperson, EED
JCBoseUST, YMCA Faridabad
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
J. C. Bose University of Science and Technology, YMCA, Faridabad
Department of Electrical Engineering
Message
Conveners
We are honored and delighted to welcome you all in the Online International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-21) at J.C. Bose University of Science and Technology, YMCA Faridabad
ICASEE-21 will pave a way together worldwide researchers and scientists from academia, industry and government, scientific visionaries through their research talks and presentations and will also put forward many thought provoking strategies on the traditional and advanced technologies, practical challenges encountered and its related solutions adopted in the fields Engineering and Technology, Energy and Environment, Sustainable energy and its impact on the environment.
We would like to thank all the honorable delegates who blessed us with their presence in online mode. I am also very much thankful to all Program Advisory Committee members, the invited keynote speakers and the Session Chairs. Words are not enough to thank their constant guidance and support to shape the conference.
We on behalf of the organizing committee convey deep regards and hearty thanks to our Honorable Vice-Chancellor Prof. Dinesh Kumar for his encouragement, help and involvement in organizing this Conference.
We are also thankful to the Registrar Prof. Sunil Kumar Garg in obtaining the necessary administrative approval for organizing the event. He supported in all possible manner to organize this conference.
We would like to thank our Chairperson of the Department, Prof. Poonam Singhal for his constant help and guidance that radiated a source of energy within us all the time.
We take this opportunity to thank all the reviewers and technical committee members for providing their valuable comments in time and help towards the improvement of quality of papers presented in the conference.
We are also grateful to all the authors for their valuable contributions.
We are very much thankful to all our faculty colleagues and non-teaching staff members who always stand by us and motivate us. We have been fortunate enough to be backed by a team of very motivated and dedicated students coordinators and volunteers. I feel proud and thank you for making this event a successful one.
Nitin Goel Assistant Professor
Electrical Engg. Department JCBoseUST, YMCA, Faridabad
Dr. Shakuntla
Assistant Professor Electrical Engg. Department
JCBoseUST, YMCA, Faridabad
International Conference on
Advances in Sustainable Energy, Environment and Engineering
(ICASEE-2021)
16-17 APRIL 2021
Online Conference Schedule
(Venue: Zoom meeting)
Day 1: Friday, 16th April, 2021
09:30 am to 10:30 am Inaugural Session
10:30 am to 11:30 am
Key Note Lecture: Prof. N. P. Padhy, IIT Roorkee
Chairperson: Prof. Poonam Singhal, JCBUST, Faridabad
Coordinator: Ms. Rachna/ Ms. Bharti
11:30 am to 12:30 noon
Key Note Lecture: Prof. Sukumar Mishra, IIT Delhi
Chairperson: Prof. Poonam Singhal, JCBUST, Faridabad
Faculty Coordinator: Ms. Rachna/ Ms. Bharti
Student Coordinator: Mr. Chirag Goyal
02:00 pm to 04:00 pm Paper Presentations
SESSION-1 Paper ID’s: PED-01 to PED-09
Faculty Coordinator: Mr. Satvinder Singh Student Coordinator: Mr. Jalaj Tayagi Session Chair: 1. Dr. K. S. Sandhu, NIT, Krukshetra
2. Dr. P. R. Sharma, JCBUST, YMCA
PED-01 Amit Sharma, Atma Ram, Nitin Goel
IRPT Based Control Technique for DSTATCOM For Power Quality Enhancement
PED-02
Vinod Kumar, Anu Vashishtha, Harshita, Krishna, Nauratan, Amit
A Review on Power Quality Improvement Using Unified Power Quality Conditioner
PED-03 Vinod Kumar Sharma, Amit Chaurasia
A Strategic Model for Pre Paid Electric Meter
PED-04 Bharti Thakur Compensation of Voltage Sag and Swell Using DVR Based On Synchronous Reference Frame Theory
PED-06 Navdeep Singh, Kunal Vashisht, Shakuntla Boora, Leena G
Review of Different Methods of Speed Control of Brushless DC Motor
PED-07 Prabhat, Atma Ram, Rajesh Kr. Ahuja
4.5kw IGBT Based Natural Cooled Battery Charger With an Emergency Charging Unit
PED-08 Satvinder Singh, Krishan Kumar
Modeling and Simulation of A 9-Level Cascade H-Bridge Multilevel Inverter
PED-09 Maheshwari, Dr. P. R. Sharma
Performance and Operation of DVR (Dynamic Voltage Restorer) Under Fault Condition Using PI Controller
J. C. Bose University of Science & Technology, YMCA, Faridabad (A Haryana State Government University)
(Established by Haryana State Legislative Act No. 21 of 2009 & Recognized by UGC Act 1956 u/s to confer Degree)
(Accredited ‘A’ Grade by NAAC)
SESSION-2 Paper ID’s: OT-101 to OT-109
Faculty Coordinator: Dr. Sakshi Kalra Student Coordinator: Mr. Gaurav Session Chair: 1. Dr. anjay Aggarwal, IGNOU, Delhi
2. Dr. Shailender, JCBUST, YMCA
OT- 101 G. Ramachandran Agriculture Technology of Tomorrow Applications
OT- 102 Sarita Bhan, Parul Chaudhary, Kishan Kumar, Pranay
Role of Electronic Devices in Agriculture
OT- 103 Bhudev Singh , Sonia Bansal, Tushar, Aman
Sustainable Development: Role of Science & Technology- A Review
OT- 104 Kauleshwar Pandey, Lini Mathew, Vinod Shrivastava
A Literature Review on Phasor Measurement Unit (PMU) Techniques Used in Power System
OT- 105 Pankaj Sharma, J. K. Jain, Pawan Kalla
Analysis of Level of Service Factors for Jaipur Metro
OT- 106 Ritika Thusoo, Sheilza Jain, Sakshi Bangia
Altitude Control of Quadrotor Using PID Control
OT- 107 Neelam Rani, Manikant Yadav
A Study of Collisions of Heavy Ions in Quark Gluon Plasma
OT- 108 Surender Saini Simulation And Application Of Robotic Arm in Production Using Programmable Logic Controller
OT- 109 Parveen Kumar, Ajay Kumar
Performance Investigation Of Next Generation-Passive Optical Network Employing Hybrid Wavelength Division Multiplexing-Optical Time Division Multiplexing
SESSION-3 Paper ID’s: PED-10 to PED-13 OT-110 to OT-113
Faculty Coordinator: Dr. Rashmi Aggarwal Student Coordinator: Mr. Hemant Session Chair: 1. Dr. Ratna Dhaiya, NIT,Kurukshetra
2. Dr. Anju Gupta, JCBUST, YMCA
PED-10 Sagar, Shakuntla Boora
SVPWM Technique Operated Matrix Converter for Speed control of Induction Machine
PED-11 Ankit Shukla, Anubha Gautam, Shipra Jain
Grid Integration of Renewable Energy Sources
PED-12 Priyanka Gaur, Sakshi Kalra, Rachna Dhir
Speed Control Of SRM Motor Using Fuzzy Logic Controller
PED-13 Robin, Shakuntla Boora
SPWM Operated Inverter
OT- 110 Sangeeta Dhall, Shailender Gupta
Comparative Analysis Of Data Compression Algorithms
OT- 111 Parveen Kumar, Ajay Kumar
112 Gbit/S Next Generation-Passive Optical Network Transmission System Using Polarisation Multiplexed-Quadrature Phase-Shift Keyed Modulation With Coherent Detection
OT- 112 Malvika Choudhary, Bharat Bhushan
A Survey of Image Encryption Schemes Based on Chaos Theory
OT-113 Satvinder Singh Various Converter Topologies for Switched Reluctance Motor and Their Comparison
Day 2: Saturday, 17th April, 2021
09:30 am to 10:30 am
Key Note Lecture: Dr. Akhter Kalam, Melbourne,
Australia
Chairperson: Prof. Poonam Singhal, JCBUST, Faridabad
Coordinator: Ms. Rachna/ Ms. Bharti
11:00 am to 01:00 pm Paper Presentations
SESSION-1 Paper ID’s: REMG-01 to REMG-09
Faculty Coordinator: Mr. Atma Ram Student Coordinator: Mr. Anand Session Chair: 1. Dr. Narender Kumar, DTU, Delhi
2. Dr. Yogender Arya, JCBUST, YMCA
REMG-01 Uma Yadav, Rajesh Kr.
Ahuja, Anju Gupta
Analysis on Grid Tied PV Power Generation
Technology Using FREEDM
REMG-02 Neha Jadoun,
Shakuntla Boora
A STATCOM Based Control Scheme for Grid Connected
Wind Energy System for Power Quality Improvement
REMG-03 Nitin Goel, Atma Ram,
Rajesh Saw
Performance Enhancement of MPPT Based Photovoltaic
System Using Fuzzy Logic Controller
REMG-04 Prashant Kumar
Srivastava
Hybrid PV Battery and Supercapacitor System Using Fuzzy
Logic Controller
REMG-05 Dr. Priyanka Development of Hybrid Energy System for Remote Area
REMG-06 Dr. Priyanka Sizing of Renewable Energy Based Hybrid Energy System
Using Optimization Approaches
REMG-07 Pragalbha Kant,
Poonam Singhal Recent Trends in Secondary Control for DC Microgrids
REMG-08 Nisha, Anju Gupta,
Rachna Dhir Study of Behavioral Aspects of A PV Cell
REMG-09
M V Siva Prasad
Chowdary, Sriranga
Suprabhath Koduru,
Sreedhar Madichetty,
Rakesh Batra
Solar Energy Forecasting Using Deep Learning Techniques
SESSION-2 Paper ID’s: EST-01 to EST-03 EVC-01 to EVC-02 PGC-01 to PGC-03
Faculty Coordinator: Ms. Anubha Gautam Student Coordinator: Ms. Anjali Session Chair: 1. Dr. S. P. Singh, REC, AN (UP)
2. Dr. Renuka Gupta, JCBUST, YMCA
EST-01 Prachi Tripathi
Role of Sciences In Sustainable Development in This
Pandemic Era-A Review On Innovations Which Helped In
Pandemic/ Sustainable Development
EST-02 Bhuri Singh Evaluation of Surface Water Quality for Yamuna River
EST-03 Prachi Tripathi Challenges in Converting Our Building in to Smart Building-
A Review
EVC-01
Vineeta Choudhary,
Digamber, Suraj
Kumar, Subhash
A Review on Benefits of Electric Vehicle
EVC-02
Jalaj Tyagi, Shakuntla
Boora, Shipra
Aggarwal
Review of Electric Motor Toward The Advancement in The
Automobile Sector
EVC-03 Sagar, Poonam Singhal Power Management of Charging Station for Electrical
Vehicles at a Residential Green Building
PGC-01 Sandeep, Sheilza Jain Design of Optimal Automatic Generation Control For
Interconnected Deregulated Power System
PGC-02 Manish, Anju Gupta,
Atma Ram, Nitin Goel
Simulation of A Three Phase Inverter Using Closed Loop
Voltage Control
PGC-03 Satvinder Singh Implementation of Shunt Active Filter For Harmonic
Distortion
01:30 pm Valedictory Session
Coordinator: Ms. Rachna/ Ms. Bharti
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Contents
Paper ID Title of Paper Page No.
PED-01 IRPT Based Control Technique for DSTATCOM For Power Quality Enhancement
1
PED-02 A Review on Power Quality Improvement Using Unified Power Quality Conditioner
1
PED-03 A Strategic Model for Pre Paid Electric Meter 2
PED-04 Compensation of Voltage Sag and Swell Using DVR Based On Synchronous Reference Frame Theory
2
PED-06 Review of Different Methods of Speed Control of Brushless Dc Motor
3
PED-07 4.5kw IGBT Based Natural Cooled Battery Charger With an Emergency Charging Unit
3
PED-08 Modeling and Simulation of A 9-Level Cascade H-Bridge Multilevel Inverter 4
PED-09 Performance and Operation of DVR (Dynamic Voltage Restorer) Under Fault Condition Using PI Controller
4
PED-10 SVPWM Technique Operated Matrix Converter for Speed control of Induction Machine
5
PED-11 Grid Integration of Renewable Energy Sources 5
PED-12 Speed Control of SRM Motor Using Fuzzy Logic Controller 6
PED-13 SPWM Operated Inverter 6
EVC-01 A Review on Benefits of Electric Vehicle 7
EVC-02 Review of Electric Motor Toward The Advancement in The Automobile Sector
7
EVC-03 Power Management of Charging Station for Electrical Vehicles at a Residential Green Building
8
EST-01 Role of Sciences In Sustainable Development in This Pandemic Era-A Review On Innovations Which Helped In Pandemic/ Sustainable Development
8
EST-02 Evaluation of Surface Water Quality for Yamuna River 9
EST-03 Challenges in Converting Our Building in to Smart Building-A Review 9
REMG-01 Analysis on Grid Tied PV Power Generation Technology Using FREEDM
10
REMG-02 A STATCOM Based Control Scheme for Grid Connected Wind Energy System for Power Quality Improvement
10
REMG-03 Performance Enhancement of MPPT Based Photovoltaic System Using Fuzzy Logic Controller
11
REMG-04 Hybrid PV Battery and Supercapacitor System Using Fuzzy Logic Controller 11
REMG-05 Development of Hybrid Energy System for Remote Area 11
REMG-06 Sizing of Renewable Energy Based Hybrid Energy System Using Optimization Approaches
12
REMG-07 Recent Trends in Secondary Control for DC Microgrids 12
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
REMG-08 Study of Behavioral Aspects of A PV Cell 13
REMG-09 Solar Energy Forecasting Using Deep Learning Techniques 13
PGC-01 Design of Optimal Automatic Generation Control For Interconnected Deregulated Power System
14
PGC-02 Simulation of A Three Phase Inverter Using Closed Loop Voltage Control 14
PGC-03 Implementation of Shunt Active Filter For Harmonic Distortion 15
OT- 101 Agriculture Technology of Tomorrow Applications 15
OT- 102 Role of Electronic Devices in Agriculture 15
OT- 103 Sustainable Development: Role of Science & Technology- A Review 16
OT- 104 A Literature Review on Phasor Measurement Unit (PMU) Techniques Used in Power System
16
OT- 105 Analysis of Level of Service Factors for Jaipur Metro 17
OT- 106 Altitude Control of Quadrotor Using PID Control 17
OT- 107 A Study of Collisions of Heavy Ions in Quark Gluon Plasma 18
OT- 108 Simulation And Application Of Robotic Arm in Prduction Using Programmable Logic Controller
18
OT- 109 Performance Investigation Of Next Generation-Passive Optical Network Employing Hybrid Wavelength Division Multiplexing-Optical Time Division Multiplexing
19
OT- 110 Comparative Analysis Of Data Compression Algorithms 19
OT- 111 112 Gbit/S Next Generation-Passive Optical Network Transmission System Using Polarisation Multiplexed-Quadrature Phase-Shift Keyed Modulation With Coherent Detection
20
OT- 112 A Survey of Image Encryption Schemes Based on Chaos Theory 20
OT-113 Various Converter Topologies for Switched Reluctance Motor and Their Comparison
21
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 1
PED-01
IRPT Based Control Technique for DSTATCOM for Power Quality
Enhancement
Amit Sharma1, Atma Ram
2, Nitin Goel
3
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
[email protected], [email protected], [email protected]
Abstract: This paper deals with the control algorithm of DSTATCOM for generation of reference signal
using Instantaneous reactive power theory (IRPT) and is simulated using Simulink block sets of
MATLAB. In the distribution system the sudden requirement of reactive power is mainly due to the
unbalanced load, electronic converters and the high reactive power demand. This causes a major power
quality issue, low power factor, poor voltage regulation, etc. The proposed controller is found suitable for
mitigation of above mentioned problems in distribution system
PED-02
A Review on Power Quality Improvement using Unified Power Quality
Conditioner
Vinod Kumar1, Anu Vashishtha
2, Harshita
3, Krishna
4, Nauratan
5, Amit
6
1Assistant Professor, SDIET, Faridabad, India
2AssistantProfessor, SDIET, Faridabad, India
3-6Student, SDIET, Faridabad, India
Abstract: Nowadays, the availability and low cost of power electronicdevices favor the widespread utility
of nonlinear loads such as inverters, personal computers, arc furnaces etc. It is observed that behavior of
such devices produce non favorable variations in current and voltages on being connected by harmonic
components. The previously existing passive filters are replaced by active series and shunt filters, more
prominently known as Hybrid Active Filters,and new technologies have been invented. Unified Power
Quality Conditioner [UPQC] is one of the effective examples of hybrid active filters in which series and
shunt active power filters are connected, so that it can minimize the distortion, along with reactive power
compensation, power factor improvement and active power transferred to the load. UPQC is the actual
combination of DVR [Dynamic Voltage Restoration] and DSTATCOM [Distribution Static
Compensation].This paper presents the global review on minimization of distortion in supply load voltage
and currents.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 2
PED-03
A Strategic Model for Pre-Paid Electric Meter Amit Chaurasia
1, Vinod Kumar Sharma
2
1,2Research scholar Amity University Rajasthan
Abstract: Smart electric meter is the requirement of present era that can be operated by smart phone. The
human error can be reduced in smart electric meter. In this paper, we propose the project of a basic strategy
or a basic business model for the Pre-Paid electric meter that can be adopted by the government of India,
managed with the help of an android application and a website which will cater to the needs of the users in
terms of electricity supply. To utilize this form of service the traditional meters have to be replaced with
the new and modern Smart-electric meter. This is especially useful for poor households as it is more cost-
efficient and reduces the risk of electricity-theft and human error of reading the units while billing the
consumer. The customer will be able to recharge their balance using a website or application. The balance
amount will be reduced according to the power consumption, and power will be cut off if a minimum
balance is reached (along with a sent notification to the user to recharge). The user will also be able to
monitor the amount of electricity or the balance electricity left in their account with the help of the Website
and the Android Application without physically standing in front of the meter present outside the house.
Using the android application the user will also be able to switch on and off the electricity directly from the
main electricity line connected to the electric meter. The Front-End of the website is written with the help
of HTML, CSS and Javascript while the Server Side programming is done with PHP. As for the android
application, the design is done with the help of XML and for the Back-End Java(Android Studio) is used
and to connect thea android application to the Server, PHP is used. Currently it is just a prototype and is
meant to be monitor and to be used in a controlled environment region wise. Not only this strategy is not
very hard to implement in our daily households, it is also very effective when it comes to situations when
the people are not allowed to or they cannot leave their homes, during curfews and lockdowns i.e.
whenever such a situation arises the only thing one can depend on is technology and internet and this
method makes it easy for both government and the consumers to continue their respective works and
continue to utilizing the services like electricity.
PED-04
Compensation of Voltage Sag and Swell Using DVR Based on Synchronous
Reference Frame Theory
Bharti Thakur1, Archana Rani
2
1,2Department of EEE, G.D.GoenkaUniversity
[email protected], [email protected]
Abstract: Power quality problems like voltage sag and swell are considered to be the most severe one
among others problems at the distribution side load. To protect the sensitive load at the distribution side a
custom power device named DVR (Dynamic voltage restorer) is considered to be the most efficient
solution in electrical power distribution system. In order to mitigate the voltage sag/swell and to restore
load voltage to its rated value it is used to inject the three phase voltage in series and synchronism with the
feeder at distribution side. A DVR comprises of series transformer, filter circuit, PWM inverter, controller
system and a energy storage unit. To generate reference load voltage for voltage source converter
switching a Synchronous reference frame algorithm is used for both voltage sag and swell.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 3
PED-06
Review of Different Methods of Speed Control of Brushless DC Motor 1Navdeep Singh,
2Kunal Vashisht,
3Shakuntla Boora,
4Leena G
1, 3 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,4
Department of Electrical and Electronics Engineering, Manav Rachna International
University, Faridabad, Haryana, India
Abstract: The BLDC motor is widely used for domestic application due to its excellent performance and
speed regulation characteristics. These motors are likely to replace the single phase ac motors used for
house hold purpose. The objective of this manuscript is to discuss various Sensorless control methods of
controlling the speed of Brushless DC (BLDC) motor along with its advantages and disadvantages. In this
manuscript an attempt is made to review the different methods of Sensor less speed control of BLDC
motor. The various research findings are related with the efficiency enhancement of these motors and how
to make such machines low power consuming. Moreover the control aspects related with the speed is
highly desirable. There are several ways to direct the speed of BLDC. It is relevant to study the different
speed control methods of BLDC motor. The research study carried out shows that a microcontroller based
Sensorless method of speed control proves to be very precise and cost effective solution. Moreover this
cost effective method can also operate at leading, lagging and unity power factors.
PED-07
4.5kw IGBT Based Natural Cooled Battery Charger with an Emergency
Charging Unit
Prabhat1, Atma Ram
2, Rajesh Kr.Ahuja
3
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: This manuscript presents the design of a 4.5Kw IGBT based DSP controlled constant voltage
battery charger designed for Railway coaches. The topology of the battery charger consists of a three-
phase diode bridge rectifier at the front end and an IGBT based full bridge inverter for generating a high
frequency pulsed output.
This pulsed output is the input to a high frequency transformer; the rectifier circuit converts the three phase
415V AC supply to DC. This rectifier output is given to a full bridge DC-DC converter; this converter
produces a regulated and isolated DC voltage for charging and other application. The complete analysis
about circuit design, its operation and validation of simulation results are discussed in the paper. The
complete simulation is done in the MATLAB SIMULINK environment.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 4
PED-08
Modeling and simulation of a 9-Level Cascade H-Bridge Multilevel Inverter
Satvinder Singh1, Krishan Kumar
2
1 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: This paper presents Modeling and simulation of a 9- level cascade H-Bridge Multilevel Inverter.
Multilevel inverter is used where high voltage and high current is needed. Low THD, better output
waveform and high efficiency for a given quality of output waveform are the several advantages of cascade
H bridge multilevel inverter. Multilevel inverter has the advantage of its reduced number of power source
compared to conventional inverter. This paper contains the basic model of the cascade H bridge 9-level
multilevel inverter. The model is simulated on the MATLAB software and it is found to be quite
satisfactory and the output waveform is obtained.
PED-09
Performance and Operation of DVR
(Dynamic Voltage Restorer) Under Fault Condition Using PI Controller
Maheshwari1, Dr.P. R. Sharma
2
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: This manuscript describes about the operation and benefits of the dynamic voltage restorer in
power system applications. Different types of loads create various power qualities issues, which is not
appreciated for a healthy operation of a system. To overcome these faults various techniques are used such
as solid state switches and converters, filters etc. one such device is DVR which also solve the purpose of
power quality in the system. In this paper the complete analysis of the DVR under fault conditions is
studied and implemented and results are verified on the MATLAB SIMULINK environment.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 5
PED-10
SVPWM Technique Operated Matrix Converter for Speed control
of Induction Machine 1Sagar,
2Shakuntla Boora
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: Most of all industrial applications are depended on power conversion, either ac to ac or dc to dc
or dc to ac and vice-versa. The ac to ac converters are widely used in the industrial applications because of
its ease of use and provide the output voltage and current of desired magnitude. These converters take
power from one ac system and deliver it to another ac system with the waveform having different
amplitude, frequency, and phase. For this purpose, the direct matrix converter is used which not only
provides ac to ac power conversion but also overcomes the drawbacks of indirect converters. The matrix
converter is a single-stage converter which has an array of a×b bidirectional power switches to connect,
directly, a -phase voltage source to a b-phase load. It does not have any DC-link circuit and does not need
any large energy storage elements. It consists of nine bi-directional switches. In this paper, the matrix
converter is simulated to control the speed of a three phase induction motor using SVPWM technique in
MATLAB Simulink. The main purpose of the modulation technique is to change the voltage transfer ratio
and also provide suitable gating signal to the switches of matrix converter. There are different types of
modulation techniques available of which SVPWM is chosen for its efficiency and wide application.
By changing the modulation index of the reference sine wave of SVPWM, the speed of the induction
motor is controlled as the voltage output of the matrix converter is controlled and also FFT analysis of the
output voltage waveform is done to study the THD.
PED-11
Grid Integration of Renewable Energy Sources
Ankit Shukla, Anubha Gautam, Shipra Jain 1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology YMCA,
Faridabad, Haryana, India
[email protected] [email protected] [email protected]
Abstract: Renewable energy resources are used increasingly, connected in distribution systems utilizing
power electronic converters. This paper presents a novel control strategy for achieving maximum benefits
from these grid-interfacing inverters when installed in 3-phase 4-wire distribution systems. The inverter is
controlled to perform as a multi-function device by incorporating active power filter functionality. The
inverter can thus be utilized as: 1) power converter to inject power generated from RES to the grid, and 2)
shunt APF to compensate current unbalance, load current harmonics, load reactive power demand and load
neutral current. All of these functions may be accomplished either individually or simultaneously. With
such a control, the combination of grid-interfacing inverter and the 3-phase 4-wire linear/non- linear
unbalanced load at point of common coupling appears as balanced linear load to the grid. This new control
concept is demonstrated with extensive MATLAB/ Simulink simulation studies and validated through
digital signal processor-based laboratory experimental results.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 6
PED-12
Speed Control of SRM Motor Using Fuzzy Logic Controller
Priyanka Gaur, Sakshi Kalra, Rachna Dhir 1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology YMCA,
Faridabad, Haryana, India
[email protected]; [email protected]; [email protected]
Abstract: The application of Switched Reluctance Motor has extended enormously since the day of its
creation. This paper presents a novel control strategy for achieving maximum benefits from these Switch
Reluctance Motors which are widely used in industrial applications. Speed control is one of the different
application forced compel for the choice of a motor due to its complex construction. The rotor is made of a
load of steel covers cut to yield the ideal number of rotor shafts. The rotor and stator need not have similar
number of shafts. Windings are position absurd teeth and curls are associated with structure stages. The
excitation is exchanged successively from one stage to another as the rotor moves. The move the rotor
along with the stator shafts and to analyse the inductance of the curl. The controller used for the purpose is
Fuzzy Logic Controller (FLC) which has 3 basic components fuzzifier, inference system and defuzzifier in
which Mamdani Approach has been used to control the speed of SRM motor. The Mamdani approach used
is easier to understand, rule based and is well suited to the system applications. The results are
demonstrated with extensive MATLAB/ Simulink and validated through digital signal processor based
laboratory experimental results.
PED-13
SPWM operated Inverter
Robin1, Shakuntla Boora
2
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: An inverter generates an output of AC voltage from an input of DC with the help of switching
circuits to reproduce a sine wave by generating one or more square pulses of voltage per half cycle.SPWM
“Sinusoidal pulse width modulation”(SPWM) is the most popularmethodof PWM generation for
harmonics reduction as inverter use 3 sine waves displaced in 120 degree phase difference as reference
signal for the working. This paper represents the SPWM technique for harmonic reduction & shows how to
generate SPWM switching signal using different simple Operational-Amplifier (Op-Amp) circuits/analog
circuits for three phase pulse width modulated (PWM) voltage source inverter (VSI). If the size of the
pulses is adjusted, the output is said to be pulse width modulated. With this modulation, some pulses are
produced per half cycle. The pulses close to the ends of the half cycle are constantly narrower than the
pulses close to the center of the half cycle such that the pulse widths are comparative to the equivalent
amplitude of a sine wave at that part of the cycle. To change the efficient output voltage, the widths of all
pulses are amplified or reduced while keeping the sinusoidal proportionality. With PWM (pulse width
modulation), only the on-time of the pulses are changed during the amplitude.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 7
EVC-01
A Review on Benefits of Electric Vehicle
Vineeta Choudhary1, Digamber
2, Suraj Verma
3, Subhash
4
1Assistant Professor, SDIET, Faridabad, India
2-4Student, SDIET, Faridabad, India
Abstract: Electric vehicles (EV) are considered to be one of the best solutions for decarbonization of
transport. In order to make more people aware about its benefits, The MIT Economic Projection and Policy
Analysis (EPPA) model has already been presented to represent the fleet dynamics of light-duty vehicles
(LDV), including internal combustion engine (ICE) vehicles and EVs. The market of EVs is predicted to
grow from 1.1 billion vehicles in 2015 to 1.65–1.75 billion in 2050, while global EV stock is growing from
about a million in 2015 to about 585–825 million in 2050. In this review paper, it shall be depicted how
EVs are gaining attention from every corner of automobile industry because of its benefits like controlling
the emission of Carbon Dioxide gas, Zero direct emission of hazardous gases that helps in improving the
Air Quality.
EVC-02
A Review of Electric Motor Toward the Advancement in the Automobile Sector 1Jalaj Tayagi,
2Shakuntla Boora,
3Shipra Agarwal
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: This paper provides the review of the advancement in technologies in the automobiles sector to
deliver the efficient and pollution free technology to the environment in terms of electric and hybrid
vehicle. Current Rapid increase of the power electronics devices in the automobile sector incorporate use
of motors such as Induction Motor, Permanent Magnet Direct Current Motor, Switched Reluctance Motor,
BLDC Motor to compete the combustion engine and improve the high performance of the electrical motor.
Electric vehicle/ Hybrid Vehicle are intensively used to full-fill the requirement of the vehicle engine in the
automobile industry. This paper includes basic analytic structure of the EV/HEVs and effect of the
EV/HEVs on the environment. Future scope of development and efficiency of the electric motor to drive
the combustion engine of the automobile sector is also discussed.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 8
EVC-03
Power Management of Charging Station for Electrical Vehicles at a
Residential Green Building
Sagar1,, Poonam Singhal
2
1Research Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
[email protected] , [email protected]
Abstract: Atmospheric pollution is speedily increasing due to uncontrolled carbon emissions from
vehicles driven by petrol & diesel. This issue calls us to think to move towards Electric Vehicles. In this
paper the power management of charging station for the charging of Electric Vehicles in a residential green
building is presented. Charging of Electric Vehicles introduces various technical challenges as the power
consume by electric vehicle is very high, power consumed by electric vehicles is around fourth of the
residential loads. In this paper power management of charging station is proposed in such a way that
required power for the charging of electrical vehicle is fulfilled by combined operation of grid system and
renewable system.
EST-01
Role of Sciences in Sustainable Development in This Pandemic Era-A review
on innovations which helped in Pandemic/ Sustainable Development
Prachi Tripathi
PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
ABSTRACT: Due continuous development in energy sector our life almost fully dependent on science due
to per day new innovation in this field so vital role of increased energy efficiency in achieving sustainable
development. The outcomes are accounted for of an examination concerning the job of expanded energy
effectiveness in accomplishing feasible turn of events. In the paper the relations are inspected among
energy and manageable turn of events, and between energy effectiveness and natural effect and how due to
use of science we managed to survive this pandemic situation quite easily and how technology help us in
sustaining this time. The hypothetical and useful constraints on expanded energy proficiency are talked
about, especially as they identify with practical turn of events. It is demonstrated that energy resources and
their utilization are intimately related to sustainable development. It is additionally exhibited that, for
social orders to achieve or attempt to accomplish economical turn of events, much exertion should be
given not exclusively to finding maintainable energy assets, yet additionally to expanding the energy
efficiencies of cycles using these assets.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 9
EST-02
Evaluation of Surface Water Quality for Yamuna River
Bhuri Singh
Department of Chemistry, Faculty of Humanities and Applied Science
B.S. Anangpuria Institute of Technology and Management,Faridabad, Haryana-121004, India.
Abstract: Present work study of Yamuna river water. Yamuna river is pollute river in north India. Its water
flows from Yamuna Nagar, Panipat, Sonipat, Delhi, Gautam Buddha Nagar, Faridabad, Palwal, Aligarh,
Mathura, Agra, Etawah and Prayagraj (Allahabad). Yamuna river water has highly polluted from Gautam
Buddha Nager to Agra. The reasons are being urbanization, industrialization and agriculture waste and
fertilizers.So,water samples collection have been done on the basis of survey and taking samples on the
different intervals. These parameters were applied to pH ( 7.19 to 7.98), temperature ( 32.20C to 38.8
0C),
electrical conductivity ( 1174 µS/cm to 1776 µS/cm), dissolved oxygen ( 1.4 mg/L to 4.8 mg/L), turbidity
(14 NTU to 26 NTU ), total dissolved solid ( 1050 mg/L to 1560 mg/L ), salinity (0.343ppt to 0.560 ppt ),
chloride ( 190 mg/L to 310 mg/L), acidity ( 7.76 mg/L to 16.81 mg/L), total alkalinity ( 218 mg/L to 474
mg/L), total hardness (264 mg/L to 372 mg/L ), nitrate ions ( 18 mg/L to 40 mg/L), biochemical oxygen
demand ( 24 mg/L to 55 mg/L) and chemical oxygen demand ( 75 mg/L to 114 mg/L). Mostly, water
quality parameters have exceeded the desire prescribed limit of Bureau of India Standard. Yamuna river
water is not perfect for drinking and domestic purposes and Yamuna river water could not directly be
used.so, its needs to spread the aware for the pollution status of Yamuna River publicly.
EST-03
Challenges in Converting Our Building in to Smart Building-A Review
Prachi Tripathi
PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: There is an increasing demand in the Internet of Things (IoT) enabled smart buildings due to
high efficiency and fast life . The main question is: what are the key challenges, which must be addressed
to effectively manage and analyze the smart building easy in use for normal people. There is a need for the
systematic literature review to understand the challenges and the solutions to overcome such challenges.
By case , we can indentify that is India and Indian People happily ready for IOT based smart building in
real identified and reviewed in this paper. The data from these selected studies were extracted to identify
the challenges and relevant solution with benefits of using electrical advantage smart building.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 10
REMG-01
Analysis On Grid Tied PV Power Generation Technology Using FREEDM
Uma Yadav1, Rajesh Kr. Ahuja
2, Anju Gupta
3
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
[email protected], [email protected], [email protected]
Abstract: Solar energy is a renewable energy being used now a days for power generation is available in
abundance naturally worldwide. Govt. Initiative makes the availability of PV cells easily and nearly at low
cost. Thus, emphasizing to increase the power generation through use of renewable energy sources, mostly
by Solar. In this paper, FREEDM system is used for simulation of Photovoltaic solar power generation.
The tracking of Maximum power point can be done by making model on MATLAB using, SST which
plays main role in FREEDM System along with designing the PV Module. The output voltage coming out
from PV module is DC which can be connected with the low voltage grid as well as, with the high voltage
11 KV line with single phase inverter. While connecting with 11 KV, SST along with a 3- phase inverter
have been used. The simulation uses active- frequency, drift method. While simulating model of single
phase inverter and for DC to DC converter, we used high frequency transformer. A voltage source
converter has been used while modelling a 3- phase inverter.
REMG-02
A STATCOM Based Control Scheme for Grid Connected Wind Energy
System for power Quality Improvement
Neha Jadoun1, Shakuntla Boora
2
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
[email protected], [email protected]
Abstract: Quality of electrical power is affected when wind power is injected into an electric grid. The
wind turbine performance and quality of electrical power are thereby decided depending on the
measurements and standards followed according to the guidelines or rules mentioned in International
Electro-technical Commission standard,IEC-61400. The wind turbine impact in the grid system related to
the power quality measurement are the active power, reactive power, flicker, variation of voltage, electrical
behavior of switching operation and harmonics and these are studied according to the national
national/international guidelines. The literature study shows the power quality problems because of
installation of wind turbine with the grid. In the propound scheme STATIC COMPENSATOR
(STATCOM) is connected at a PCC (point of common coupling) with a battery energy storage system
(BESS) to mitigate the power quality disturbances. The battery energy storage is integrated for sustaining
the real power source under fluctuating wind power. The STATCOM control scheme for the grid
connected wind energy generation system for power quality improvement is simulated using
MATLAB/SIMULINKin power system block set and to verify the results under various operating
conditions of non-linear load. The productiveness of the propound scheme relives the main supply source
from the reactive power requirements of the load and the asynchronous or induction generator.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 11
REMG-03
Performance Enhancement of MPPT based Photovoltaic System using Fuzzy
Logic Controller
Nitin Goel1, Atma Ram
2 , Rajesh Saw
3
1,2 Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 3PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
[email protected], [email protected], [email protected]
Abstract: Paper presents a Fuzzy Logic-based control technique used for tracking the maximum power
point of a photovoltaic module. Fuzzy rules are framed for controlling the MPPT. The preferred technique
uses the Fuzzy logic control to precise the size of incremental current in the current command of MPPT.
The performance of a proposed system is analyzed in MATLAB/Simulink framework. The simulation
compares the proposed algorithm with Perturb & Observation (P&O) technique. The results show that the
proposed algorithm enhances the performance of the PV System. Also, the convergence time of maximum
power point (MPPT) with the proposed algorithm is better than that of the Perturb & Observation
technique.
REMG-04
Hybrid PV Battery and Supercapacitor System Using Fuzzy Logic Controller
Prashant Kumar Srivastava
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: In present there is so much complextion in energy system so to improve grid stability and
performance of system ,we use PV cells but still insufficient and low energy and high oscillation are
present in system arises using MPPT ( Maximum Power point tracking ) so by using Fuzzy logic controller
, we will get better response to get optimal voltage by modulating duty cycle and by using supercapacitor
battery life also get improve.
REMG-05
Development of Hybrid Energy System for Remote Area
Priyanka Anand
Department of Electronics and Communication Engineering
Bhagat Phool Singh Mahila Vishwavidyalaya, Khapur kalan, Sonipat, Haryana, India
Abstract: Deploying hybrid energy systems (HES) to provide adequate, affordable and reliable supply of
energy is indispensable for nations aimed at achieving their goals of sustainable development. In this work,
sizing of HES including different renewable energy sources has been carried out using an optimization
approach. To fulfil the energy needs of remote area, different scenarios of HES in off grid and grid
connected mode has been implemented in MATLAB and found an optimal solution in terms of least cost.
To validate the results, the comparison of different optimization approaches has also been presented.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 12
REMG-06
Sizing of Renewable Energy Based Hybrid Energy System Using Optimization
Approaches
Priyanka Anand
Department of Electronics and Communication Engineering
Bhagat Phool Singh Mahila Vishwavidyalaya, Khapur kalan, Sonipat, Haryana, India
Abstract: Deploying hybrid energy systems (HES) to provide adequate, affordable and reliable supply of
energy is indispensable for nations aimed at achieving their goals of sustainable development. In this work,
sizing of HES including different renewable energy sources has been carried out using an optimization
approach. To fulfill the energy needs of remote area, different scenarios of HES in off grid and grid
connected mode has been implemented in MATLAB and found an optimal solution in terms of least cost.
To validate the results, the comparison of different optimization approaches has also been presented.
REMG-07
Recent Trends in Secondary Control for DC Microgrids
Pragalbha Kant1, Kanika Lodha
2 Dr. Poonam Singhal
1
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: The concept of Direct Current (DC) Microgrid is being highly sought in the modern power
system in order to have a clean and green alternative source of power. The evolution of Power Electronic
technology, the reduced conversion losses and the easy amalgamation of Renewable Energy Sources
(RES) has led to the sharply increased focus towards the DC Microgrid and the DC distribution system. A
critical factor in the execution of DC Microgrid is the proper current sharing among the participating
power electronic converters and the voltage regulation of the DC bus. The task of optimum power sharing
has been accomplished by the traditional droop control. However, the droop control has a major drawback
of the reduction of output voltage with the increment in output current leading to an undesirable voltage
deviation in the DC bus. The secondary control scheme can alleviate this undesirable voltage deviation and
enhance the current sharing accuracy. This is realized by shifting the voltage as well as adjusting the slope
of the droop curve. This paper presents an exhaustive literature survey of the secondary control methods
for the DC Microgrids. A detailed comparative analysis of the centralized and distributed approach based
secondary control is presented. The paper ends with the relevant conclusion and the scope for future work.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 13
REMG-08
Study of Behavioral Aspects of a PV Cell
Nisha1, Anju Gupta
2, Rachna dhir
3
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: The photovoltaic cell is defined by non-linear equations that is difficult to solve by analytic
methods since the performance of a solar cell changes with the variation in temperature and solar
irradiation. The conversion of sun light to electricity through PV module must be modelled accurately to
design a solar system. Modelling and performance analysis of solar cell is the basic requirement to do
further research in field of PV system. This paper presents a procedure of modelling a photovoltaic (PV)
module using Simulink in MATLAB. The model considers the most representative form of PV without
simplification usually considered in the literature. The performance of the proposed model is evaluated at
different values of temperature and irradiation and the output is represented in the form of power-voltage
(P-V) and current-voltage (I-V) characteristic.
REMG-09
Solar Energy Forecasting Using Deep Learning Techniques
M V Siva Prasad Chowdary1, Sriranga Suprabhath Koduru
2, Sreedhar Madichetty
3, Rakesh Batra
4
1,2,3Electrical and Electronics Engineering Department
Mahindra University, Hyderabad, India
General Engineer, Dept. of Homeland Security, Ellicott City, United States
[email protected], [email protected], [email protected],
Abstract: Nowadays, renewable energy sources like Solar energy, wind energy, etc., as a substitute for
conventional nonrenewable energy sources like coal, fossil fuels, etc., have been increasing drastically.
Solar is abundantly used as a perfect replacement for fossil fuels in the power generation of the available
renewable energy sources. The prediction of solar power generation with respect to time has become
necessary. Moreover, in the upcoming days, the conventional grid, which is unidirectional, would become
bidirectional. With the advancements in the field of Deep Learning technology, the time series prediction
of any data can be obtained effectively. This article’s main focus is on predicting power generated by the
solar power plant on an hourly basis. Initially, predictions were made using simple machine learning (ML)
regression algorithms such as Linear regression, Ridge regression, Lasso regression, Elastic net regression,
Xgboost regression. Further, it is extended to Deep learning techniques such as Simple RNN, GRU, and
LSTM. The predicted values are then compared with actually obtained values, and astonishingly, there has
been a great improvement in the RMSE of the testing and training results which are lower than the ML
techniques. We have performed the coding in python 3.8.6.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 14
PGC-01
Design of Optimal Automatic Generation Control for Interconnected
Deregulated Power System
Sandeep1, Sheilza Jain
2
Research Scholar1, Assistant Professor
2
1, 2J.C. Bose University of Science and Technology, YMCA, Faridabad, 121006
Haryana, India
[email protected], [email protected]
2
Abstract: This article presents the design of optimal automatic generation control regulator for an
interconnected deregulated power system. The dynamic model of the power system developed by
considering various types of possible market transactions. Frequency is a significant criterion for the
reliability of power systems. Active power balance and steady frequency are necessary to provide stability
for the interconnected power system and this frequency relies on active power balance. Therefore, in order
to enhance the reliability of the power networks, a load frequency control (LFC) system must be designed
to control the power generation and the active power at the tie line. In this paper, a subset of classical
control theory regarded as an optimal control concept is utilized to design controls for the deregulated
power system. The pattern of open-loop and closed –loop eigen values are also determined to ensure
system stability with and without optimal automatic generation control regulator. The MATLAB /
Simulink environment is used to simulate the overall system structure. This paper also proves that the
power system model under investigation is marginally stable in open-loop operating mode, while it attains
good stability margin in closed-loop mode.
PGC-02
Simulation of A Three Phase Inverter Using Closed Loop Voltage Control
Manish Kumar1, Anju Gupta
2, Mr. Atma Ram
3, Nitin Goel
4
1PG Scholar, Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India 2,3,4
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract – Different industrial processes are controlled by 3 phase inverter. Inverter based on power
electronic devices are popular and gives fast responses. In this paper IGBT based three phase inverter is
proposed and simulated using MATLAB . The firing pulse for IGBTs switching of inverter is generated
with the help of closed loop voltage control technique which is based on SRFT technique. The
performance of three phase inverter are studied and simulated for resistive load.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 15
PGC-03
Implementation of Shunt Active Filter for Harmonic Distortion
Satvinder Singh
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: In practice, utility of switching device is increased in industrial as well as in domestic
applications. Non-linearity causes adverse effects on system efficiency, utility of the power supply, power
factor, etc. As reduction in power factor increases reactive power which does not have any contribution in
energy transfer so its compensation is needed. So efforts are made to upgrade power quality, concept of
Filter is in demand. In contrast to passive filter, active filters are popular due to its smaller size and weight.
In this paper, work is done on shunt active filter (SAF) using P-Q theory for current harmonic mitigation
and reactive power compensation. Here the simulation as well as its parameters, with or without active
filter is well presented.
OT-101
Agriculture Technology of Tomorrow Applications
G. Ramachandran1, S. Kannan
2
1,2Assistant Professor, Department of Electronics and Communication Engineering, Vinayaka
Mission’s Kirupananda Variyar Engineering College, Vinayaka Mission’s Research Foundation
(Deemed to be University), Salem, Tamil Nadu, India
Abstract: As technology is growing quickly, the idea of utilizing knowledge in the agriculture sector has
also been developed gradually. However, since recent years, a revolutionary idea of using sensor and
Internet of Things had emerged. Internet of Things is basically the interconnections of physical devices
over the network such as camera, home appliances, vehicles and traffic lights in which data are collected
and send it to the cloud .These data can be remotely forced easily through handheld devices and
controllers. The Internet of Things has been evolving in all application areas and so a lot of companies are
focusing towards IoT enabled systems.
OT-102
Role of Electronic Devices in Agriculture
Sarita Bhan1, Parul Chaudhary
2, Kishan Kumar
3, Pranay
4
1,2Assistant Professor, SDIET, Faridabad, India
3-4Student, SDIET, Faridabad, India
Abstract. With the advancement in the field of Electronics Engineering, the applications that revolve
around this field of engineering keep on evolving. Almost in every field of life, the electronic gadgets are
coming up with their more pros to enable a support system that ensures increased level of comfort for their
users. Out of all those fields, we shall be discussing their role in the field of agriculture that is supposed to
be the source of livelihood for almost 70% of people in rural areas in India.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 16
OT-103
Sustainable Development: Role of Science & Technology- A Review
Bhudev Singh1, Sonia Bansal
2, Tushar
3, Aman
4
1,2Assistant Professor, SDIET, Faridabad, India
3-4Student, SDIET, Faridabad, India
[email protected], [email protected]
Abstract: Science and Technology depict their roles and responsibilities in diverse fields of present day
applications. To promote the sustainable development of such applications and innovation of new ones in
developing countries, it has been concluded in the UN conference on environment and development
1992(Earth Summit) that an action plan must be inherited and concrete policy must be enforced along with
more exposure to research oriented programs. Such developments start their evolution generally in the
educational environments; hence in the past decade, the Universities and other educational departments
have been working together on sustainable development (SD) in higher education. Universities play a
significant role in promoting sustainability development for the betterment of present and future. This
involves curricula, research and teaching-learning process. More number of Sustainability development
based events like conferences and awards are being organized. Sustainability development field specific
subject are being added in curricula as per promises and standards made at UN conference on environment
and development 1992 & UN Conference on Sustainable development 2012. In this paper we will review
the role of Science & technology in sustainable development goals that has been set up and will study how
academic institutions are playing a significant role in this.
OT-104
A Literature Review on Phasor Measurement Unit (PMU) Techniques Used in
Power System
Kauleshwar Pandey1, Lini Mathew
2, Vinod Shrivastava
3
1,2Department of Electrical Engineering, NITTTR, Chandigarh,
3Department of Electrical and Electronics Engineering RBCET Bareilly.
[email protected], [email protected], [email protected]
Abstract: Now a day Phasor Measurement Unit (PMU) becomes an important part of power system. It is
used for monitoring, protecting and controlling for the current power system. PMU provides the real time
data for voltage, frequency and current power systems. PMU in each feeder (bus line) is not economical
and also becomes difficult to handle this large data. So it is desirable to reduce the number of PMUs with
the aim of maximum power system observation. Since last few years different techniques have been
proposed for optimum PMU implementation such as heuristic method and mathematical programming.
PMU works on phasor values, collected by phasor estimation technique. Some other techniques are also
used for phasor measurements such as zero crossing, DFT and SDFT. This paper reviews the different
optimization methods for OPP problems along with techniques used for phasor measurement.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 17
OT-105
Parametric Analysis of Level of Service Attributes for Jaipur Metro
Pankaj Sharma1, Dr. J.K. Jain
2, Dr. Pawan Kalla
3
1,2Department of Civil Engineering, Amity School of Engineering and Technology (ASET)
Amity University Rajasthan, Jaipur India 3 Department of Civil Engineering, Malaviya National Institute of Technology, Jaipur, India
Abstract: Since the start of 21st century, most of the developing countries are facing a serious issue and
challenge related to urbanization and its related problems of transportation. Urbanization is due to
increased affluence, which leads to increased mobility. People travel daily for various requirements like
social, physical, psychological and economical – work, shopping, leisure, recreational, etc. The combined
consequence of increased population, high percentage of urbanization rate and rapid growth of private
vehicles collective with increasing needs for mobility is a matter of great concern for city planners and
urban transportation experts.
Principally, with the increased access and increased ease of usage of personalized mode of transport,
commuters prefer to avoid the use of public transport. So in order to make them move to public transport, a
decent level of service quality should be provided to them.
The purpose is to find level of quality of service in Jaipur Metro by recognizing five important factors from
similar studies done in India and abroad: Tangibility, Reliability, Responsiveness, Assurance and Empathy.
The results can be used by urban planners, municipal authorities, transport authorities, etc., for improving
the level of service.
The collected data was explored in two phases. Firstly, passengers satisfaction levels related to each
service parameter were compared by using means, median and mode. Thereafter, principal component
analysis with Varimax orthogonal rotation method was implemented to define the fundamental parameter.
Factors were extracted by following condition: an eigenvalue > 1 and factor loadings greater than 0.3. A
reliability analysis through Cronbach alpha was done to evaluate the association between variables of each
recognized factor.
OT-106
Altitude Control of Quadrotor using PID Control
Ritika Thusoo1, Sheilza Jain
2, Sakshi Bangia
3
1, 2, 3 JC Bose University of Science & Technology, YMCA, Faridabad, India
Abstract: The innovation in the field of aerial robotics and control system engineering has increased the
ubiquity of UAVs. Quadrotors are the broadly studied sub-category of the rotor-type UAVs. Their skill to
hover, vertically take-off and land, small size and uncomplicated design make them appropriate for many
real-life applications like medicine delivery times of COVID-19 to restricted and containment areas. This
system is under actuated because its four rotors are used to control six inputs and this causes instability in
the Quadrotor’s flight. Controlling techniques like LQR, PID and robust control can be implemented for
controlling various Quadrotor parameters. The various types of UAVs, the modeling and control
techniques used to control Quadrotors are discussed in this paper. The Altitude control of Quadrotor using
PID control technique is implemented and the results are compared.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 18
OT-107
A study of collisions of heavy ions in Quark Gluon Plasma
Neelam Rani1 and Manikant Yadav
2
1, 2 Department of Physics, J. C. Bose University of Science and Technology, YMCA, Faridabad,
Haryana, 121006
Abstract: The collisions of heavy ions are studied in quark gluon plasma by using the quantum chromo-
dynamics (QCD) in this paper. A general scheme is proposed here to describe the formation of quark gluon
plasma in ultra-relativistic heavy ions collisions. We discussed theoretical the nuclear matter formed at
high temperature, pressure and heavy-ion collisions are small-bangs, recreating droplets of big-bang
matter. When all the conditions for the production of QGP are met, the produced plasma state is lumpy and
as it grows and cools hydro-dynamically, the lumps smooth out resulting momentum anisotropies because
the specific viscosity of quark gluon plasma (QGP) is very small. The strongly coupled nature of QGP is
likewise observed and examined.
OT-108
Simulation and Application of Robotic Arm in Prduction using Programmable
Logic Controller
Mr.Surender Saini
ECE Department, Aravali College of Engineering and Management, (ACEM) Faridabad, Haryana, India
Abstract: Automation or automatic control is the use of various control systems for operating equipment
with minimal or reduced human intervention, with some processes have been completely automated. By
automating routine tasks and systems within the industrial automation especially for production lines using
robotic arms various benefits can be achieved. Automation or automatic process helps in improving the
production and product output. Automation systems are used in industrial automation for flexibility,
reliability, and modularity. Industrial automation is important in all production industries for sustainable
growth. Robotic arms play an important role in any industrial automation. Manual and Automatic control
is available for the production line in an industry with the help of the application of PLC. This paper
represents the simulation of robotic arm control for any production line in an industry using DELTA PLC
control. The use of automation systems in the production line has proved to be highly economical than
other means.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 19
OT-109
Performance Investigation of Next Generation-Passive Optical Network
Employing Hybrid Wavelength Division Multiplexing-Optical Time Division
Multiplexing
Parveen Kumar1, Ajay Kumar
2
1Research Scholar, IK Gujral Punjab Technical University, Kapurthala
2Department of Electronics and Communication Engineering, Beant College of Engineering and
Technology, Gurdaspur
Abstract: Over the last few years, hybrid information transmission systems have been considered as a
feasible technological solution to meet the high-bandwidth demands of future generation communication
links. In this paper, we propose a hybrid wavelength division multiplexed (WDM)-optical time division
multiplexed (OTDM)-based next generation-passive optical network (NG-PON) for future high-speed
access networks. 40 Gbit/s information with 4 optical line terminals has been transmitted to different
number of optical network units i.e. 64, 128, and 256 using passive optical power splitter. The proposed
system performance has been investigated using Q Factor, bit error rate, signal to noise ratio, received
power and eye diagrams of the received signal as the performance metrics. Also, the system performance is
compared for PIN and APD photo detector to find the optimal system performance. Further, we have also
compared the performance of different electrical filters at the receiver to optimize the link performance.
OT-110
Comparative Analysis of Data Compression Algorithms
Sangeeta Dhall1, Shailender Gupta
2
J.C. Bose University of Science and Technology, YMCA Faridabad
[email protected], [email protected]
Abstract: The portrayal of Information in such a form that its size and arrangement is customized and
redundancy is removed can be designated as Information compression. Information can be textual data,
image or video. Process of compression encodes the data effectively and trims down the requirement of
total number of bits for representation of defined information. These mechanisms have wide applications
due to escalation of ongoing digital multimedia revolution. Intact communication of digital information is
the vital need of diverse applications like medical, military, business transactions etc. Thus introduction of
compression algorithms along with security mechanisms introduces multiple levels of protection. To fulfil
these applications, in this paper numerous such techniques are implemented and compared in order to
identify the best mechanism to transform the data in highly compact and reproducible form with minimum
requirement of time of execution. Broadly, the data compression algorithms are classified as lossless and
lossy. But for the application in security and data communication networks, where data has to be
reproduced in original form only lossless are preferred. Under this category various techniques are
Arithmetic Coding, Huffman Compression, and Lempel-Ziv-Welch (LZW). After implementation and
comparison on different performance metrics it is concluded that Huffman compression algorithm is
preeminent, as per evaluation of outcomes. Performance parameters used for comparative analysis are
Compression Rate/Ratio, Compression Factor, Entropy, Bit Error rate and Speed of Execution.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 20
OT-111
112 Gbit/S Next Generation-Passive Optical Network Transmission System
Using Polarisation Multiplexed-Quadrature Phase-Shift Keyed Modulation
with Coherent Detection
Parveen Kumar1, Ajay Kumar
2
1Research Scholar, IK Gujral Punjab Technical University, Kapurthala
2Department of Electronics and Communication Engineering, Beant College of Engineering and
Technology, Gurdaspur
Abstract: This paper proposes the modelling and evaluation of 112 Gbit/s downstream data transmission in
a next generation-passive optical network (NG-PON 2) by using coherent detection with advanced
polarisation multiplexed-quadrature phase-shift keyed (PM-QPSK) modulation format. To improve the
system performance in the presence of fibre attenuation and nonlinear impairments, we have proposed the
application of different digital signal processing algorithms at the receiver. The proposed NG-PON 2
system is simulated and compared for different number of optical network unit terminals i.e. 64, 128, and
256 using bit error rate, receiver power of the data signal, and constellation graphs as the evaluation
metrics. The receiver sensitivity for different number of end users in the proposed system has also been
numerically investigated. Further, we have also compared the transmission performance of the proposed
NG-PON 2 system with existing literature.
OT-112
A Survey of Image Encryption Schemes Based On Chaos Theory
Malvika Choudhary1, Bharat Bhushan
2 ,
1Netaji Subhash University of Technology
2J. C. Bose University of Science and Technology, YMCA
[email protected] , [email protected]
2
Abstract- Transferring one form of data to another form in order to secure it from hackers, so that they are
not able to fetch the data and read whatever is being transferred is known as encryption. Various
encryption techniques are given in the literature that tries to do the same. Few latest techniques are based
on chaos theory which is impenetrable to a great extent. This paper is an effort to compare the available
chaos based schemes on the basis of several performance matrices such as: Visual Assessments, Statistical
Analysis, Historical Analysis, Correlation coefficient, Differential attacks, Quantitative Analysis, Entropy,
Computational Time.
International Conference on Advances in Sustainable Energy, Environment and Engineering (ICASEE-2021)
Page | 21
OT-113
Various Converter Topologies for Switched Reluctance Motor and Their
Comparison
Satvinder Singh
Department of Electrical Engineering, J C Bose University of Science and Technology
YMCA, Faridabad, Haryana, India
Abstract: Switched Reluctance Motor (SRM) drive systems have been paid renewed attention because of
the several advantages. Switched reluctance motor (SRM) has become a competitive selection for many
applications of electric machine drive systems recently due to its relative simple construction and its
robustness. The advantages of those motors are high reliability, easy maintenance and good performance.
The absence of permanent magnets and windings in rotor gives possibility to achieve very high speeds
(over 10000 rpm) and turned SRM into perfect solution for operation in hard conditions like presence of
vibrations or impacts. Such simple mechanical structure greatly reduces its price. Due to these features,
SRM drives are used more and more into aerospace, automotive and home applications. The major
drawbacks of the SRM are the complicated algorithm to control it due to the high degree of nonlinearity,
also the SRM has always to be electronically commutated and the need of a shaft position sensor to detect
the shaft position, the other limitations are strong torque ripple and acoustic noise effects.
About the University The J. C. Bose University of Science and Technology, YMCA Faridabad has been accredited by National Assessment and Accreditation Council (NAAC) with ‘A’ Grade and a CGPA of 3.08 in the First Cycle of Accreditation. JCBUST was established in 1969 as an indo-German project, a joint venture of the National Council of YMCA India, the Government of Haryana and the Central Agencies for Development Aid, Bonn, Germany. In December 2009 it was awarded the status of state university by the State Government. Right from the very beginning at institutional level, it has emphasized greatly on practical work related to industry. As a result our students are well accepted by the industries. The fact that many of them are entrepreneur with names of repute at national and international level establishes the same. The university has also added new chapters in its glorious history i.e. M.B.A., M.C.A, M.Tech. (Computer Engineering, Electrical Engineering, Electronics Engineering & Mechanical Engineering), M.Sc. (Physics, Math’s, Chemistry & Environmental Sciences), M.A. (Mass Communication and Journalism) and Ph.D
About the Department The Department of Electrical Engineering offers a vibrant environment for undergraduate education, postgraduate education and research in Electrical Engineering. The department has been playing a vital role in producing scientists and technologists of highest caliber ever since it was established in the year 1969. The department of Electrical Engineering at YMCA University of Science & Technology has evolved with time and offers B. Tech, M Tech and PhD. The UG curriculum provides strong base to the students in electrical engineering and provides exposure to the latest technologies. In addition to the strong undergraduate programme, the department has been playing a pioneering role in producing world class on engineering and our Environment. The formation of lasting productive partnerships between the participants is also an objective of this conference. This research conference is open to all in the research and scientific community. postgraduates and research scholars. The infrastructure and lab facilities are upgraded from time to time to make the opportunities available for students and researchers. The department is currently engaged in various areas of electrical engineering including Power Studies, Power Electronics, Electrical Drives, Renewable Energy and Power Quality etc.
Department of Electrical Engineering
J. C. Bose University of Science and Technology, YMCA Sector-6, Faridabad-121006, India [email protected] www.jcboseust.ac.in