The document outlines the course orientation program for the subject 19EE603 - Renewable Energy Sources. It discusses the course objectives, outcomes, units, syllabus, textbooks, assessment details and career opportunities. The course aims to impart knowledge about non-conventional energy sources like solar, wind and biomass energy. It covers 5 units distributed over various renewable energy topics and synchronous, induction and single phase motors. Students are provided tips to score minimum 50 marks through internal assessments, assignments and practicing problems from question banks.
This document contains the resume of A. Mohammed Ovaiz. It summarizes his educational qualifications, professional experience, skills, publications, and additional qualifications. Some key details include:
- He has a M.E. in Power Electronics and Drives with 6 years of teaching experience and 3 years of experience in power sector operations and maintenance.
- He is currently working as an Assistant Professor and has taught subjects related to electrical engineering, power systems, and drives.
- He has published 8 papers in international journals and presented in 3 conferences on topics related to power systems and control systems.
- He is proficient in software like MATLAB, LabVIEW and has experience in programming languages like C/C++.
A. Mohammed Ovaiz is seeking a career in the power industry where he can learn about emerging technologies and take on challenging roles. He has 6 years of teaching experience and 3 years of experience in power sector operations and maintenance. He holds an M.E. in Power Electronics and Drives with high marks and a B.E. in Electrical and Electronics Engineering also with high marks. He has expertise in various power-related fields and has published papers in international journals and conferences.
This document outlines the syllabus for the course EE6352 - Electrical Engineering and Instrumentation. The course is divided into 5 units that cover topics such as DC machines, transformers, induction and synchronous machines, basics of measurements and instrumentation, and analog and digital instruments. It also lists some recommended reference books for the course. The course aims to teach students about the principles and applications of electrical machines, transformers, and instrumentation through theory, problems, and examples.
Muhammad Osama Iqbal is seeking a challenging career utilizing his technical skills and experience in electronics engineering. He has a B.E. in Electronics Engineering from Usman Institute of Technology with 3.1 CGPA. His internship experiences include the Civil Aviation Authority, The Automator, and Pakistan Cable. He has two years of part-time training experience at Power Wave designing and installing electrical circuits, wiring diagrams, and working with PLCs and variable frequency drives. His final year project involved implementing a PLC and frequency converter to automatically control a water intake system based on load changes. His engineering skills include Multisim, PCB design, AutoCAD, MATLAB, and electrical troubleshooting.
This document provides information for the Electrical Machines course including course objectives, learning outcomes, program learning outcomes, course contents and schedule, assessment criteria, and list of experiments. The course objectives are to introduce fundamentals of electrical machines and detailed operating principles of DC and AC machines and transformers. Key topics include transformers, DC generators and motors, induction and synchronous machines, and special purpose motors. Students will be assessed based on theory exams, assignments, lab experiments and reports. The lab experiments cover electrical safety, electrical machine basics, and experiments on resistive, capacitive, inductive loads and measuring parameters of induction and single phase motors.
Online certification course matlab , electrical machine , motor and motor con...ArvindKumar1806
This document provides a summary of an industrial training presentation submitted by Shubham Dadhich. It outlines various courses covered during the training, including complete electrical machines, motor and motor control circuits, PLC and AC drive systems, system dynamics and control, and an introduction to MATLAB programming. Time spent on each course is provided. The training was aimed at providing knowledge of electrical machines, motor control, industrial automation using PLCs, system modeling, and programming skills.
Our aim is to generate electric power from vehicle losses by using shock absorber. With the help of magnet and winding
project by santhosh rs and group
mobile number-+919449977866
This document provides information about experiments to be conducted in an electrical machines lab. It includes objectives, theory, and procedures for experiments on single-phase transformers and determining their parameters from open and short circuit tests. The experiments are intended to help students understand transformer principles and apply theoretical knowledge learned in lectures. Tests will be conducted to determine transformer specifications and performance.
This document contains the resume of A. Mohammed Ovaiz. It summarizes his educational qualifications, professional experience, skills, publications, and additional qualifications. Some key details include:
- He has a M.E. in Power Electronics and Drives with 6 years of teaching experience and 3 years of experience in power sector operations and maintenance.
- He is currently working as an Assistant Professor and has taught subjects related to electrical engineering, power systems, and drives.
- He has published 8 papers in international journals and presented in 3 conferences on topics related to power systems and control systems.
- He is proficient in software like MATLAB, LabVIEW and has experience in programming languages like C/C++.
A. Mohammed Ovaiz is seeking a career in the power industry where he can learn about emerging technologies and take on challenging roles. He has 6 years of teaching experience and 3 years of experience in power sector operations and maintenance. He holds an M.E. in Power Electronics and Drives with high marks and a B.E. in Electrical and Electronics Engineering also with high marks. He has expertise in various power-related fields and has published papers in international journals and conferences.
This document outlines the syllabus for the course EE6352 - Electrical Engineering and Instrumentation. The course is divided into 5 units that cover topics such as DC machines, transformers, induction and synchronous machines, basics of measurements and instrumentation, and analog and digital instruments. It also lists some recommended reference books for the course. The course aims to teach students about the principles and applications of electrical machines, transformers, and instrumentation through theory, problems, and examples.
Muhammad Osama Iqbal is seeking a challenging career utilizing his technical skills and experience in electronics engineering. He has a B.E. in Electronics Engineering from Usman Institute of Technology with 3.1 CGPA. His internship experiences include the Civil Aviation Authority, The Automator, and Pakistan Cable. He has two years of part-time training experience at Power Wave designing and installing electrical circuits, wiring diagrams, and working with PLCs and variable frequency drives. His final year project involved implementing a PLC and frequency converter to automatically control a water intake system based on load changes. His engineering skills include Multisim, PCB design, AutoCAD, MATLAB, and electrical troubleshooting.
This document provides information for the Electrical Machines course including course objectives, learning outcomes, program learning outcomes, course contents and schedule, assessment criteria, and list of experiments. The course objectives are to introduce fundamentals of electrical machines and detailed operating principles of DC and AC machines and transformers. Key topics include transformers, DC generators and motors, induction and synchronous machines, and special purpose motors. Students will be assessed based on theory exams, assignments, lab experiments and reports. The lab experiments cover electrical safety, electrical machine basics, and experiments on resistive, capacitive, inductive loads and measuring parameters of induction and single phase motors.
Online certification course matlab , electrical machine , motor and motor con...ArvindKumar1806
This document provides a summary of an industrial training presentation submitted by Shubham Dadhich. It outlines various courses covered during the training, including complete electrical machines, motor and motor control circuits, PLC and AC drive systems, system dynamics and control, and an introduction to MATLAB programming. Time spent on each course is provided. The training was aimed at providing knowledge of electrical machines, motor control, industrial automation using PLCs, system modeling, and programming skills.
Our aim is to generate electric power from vehicle losses by using shock absorber. With the help of magnet and winding
project by santhosh rs and group
mobile number-+919449977866
This document provides information about experiments to be conducted in an electrical machines lab. It includes objectives, theory, and procedures for experiments on single-phase transformers and determining their parameters from open and short circuit tests. The experiments are intended to help students understand transformer principles and apply theoretical knowledge learned in lectures. Tests will be conducted to determine transformer specifications and performance.
This document provides information about the Electrical and Electronics Engineering Department at SNS College of Engineering in Coimbatore, India. It outlines the department's vision, mission, facilities, laboratory equipment, industry partnerships, courses offered, student achievements and more. The department aims to provide quality technical education and prepare innovative problem solvers. It has well-equipped laboratories and works with local industries to give students hands-on experience. Students have participated in conferences, workshops and projects covering topics like embedded systems, automation, and power electronics.
This document provides the syllabus for an "Electric Drive" course offered at Maulana Abul Kalam Azad University of Technology, West Bengal. The syllabus outlines the course objectives, prerequisites, units of study, textbook and reference materials, and expected learning outcomes. Key topics covered include principles of electric drive operation, starting and braking methods, modeling and control of DC and AC drives, and industrial applications of electric drives.
This document provides a curriculum vitae for Yasin Ahmad Yasin Al-Shiboul, including his personal details, education history, work experience, training, publications, and programming languages. He has a M.Sc. in Electrical Engineering from the University of Jordan and worked for over 30 years in electrical engineering roles for Jordan Telecommunications Company and as a lecturer at Al-Balqa' Applied University, teaching courses on power systems and electronics. He has published several papers and books and has experience programming in MATLAB, Simulink, and other languages.
This document summarizes a seminar presentation on developing a power generation shock absorber. The presentation outlines introducing a shock absorber that converts the kinetic energy dissipated through the suspension system into electrical energy. It discusses utilizing an electromagnetic system within the shock absorber where relative motion between a coil and magnet generates electricity. The generated power can be stored in vehicle batteries to increase their life. The presentation provides background on energy losses in vehicles, reviews previous related studies, and describes the objectives, components, design, advantages, applications and conclusions of the proposed energy harvesting shock absorber system.
About This Training Course
The two day course is designed for electrical engineers and operational staff involved in power generation. The content
is relevant for all types of generation involving synchronous machines; from traditional coal, oil, gas and hydro, to
offshore and nuclear. The course will give delegates a firm understanding in the operation of excitation control systems
along with an appreciation of the different types available and the numerous systems offered by the major manufacturers.
Learning Outcomes
Delegates will learn about:
Fundamentals of the synchronous machine
The generator capability diagram
Excitation system components
Excitation system control theory
Parallel operation of generators
Brushless / Rotating excitation systems
Static excitation systems
Power System Stabilisers
Transmission company compliance
IEEE Excitation Standards
Who Should Attend
•Electrical engineers involved in power generation both onshore and offshore
•Power plant operational staff
This document proposes generating electricity from speed breakers using a rack and pinion mechanism. It outlines the aims to design such a mechanism and investigate power generation from kinetic energy of vehicles passing over speed breakers. The methodology involves creating linear motion from the speed bump that turns pinions connected to a generator to produce electricity. Calculations estimate a daily power generation of 56.45 kW could be achieved. The budget for a prototype is estimated at 25,000 rupees. Successful results could utilize the power at traffic signals and streetlights.
Abdul Malik Mahar is seeking a position as an electrical engineer. He has a Bachelor's degree in Electrical Engineering from Mehran University of Engineering and Technology. He has experience working internships at gas turbine and thermal power plants to learn about power generation, transmission, and control systems. His technical skills and interests include power quality analysis, smart grids, and renewable energy. He is a recent graduate looking for an opportunity to effectively contribute to an organization using his engineering knowledge and skills.
IRJET- Experiment Study on Rotational Behaviour of a Savonous Wind Turbin...IRJET Journal
This study examines the rotational behavior of a Savonius wind turbine placed on the sides of two-lane highways in Coimbatore, India during the monsoon season. Experiments were conducted measuring the angular rotational speeds of the turbine in different wind directions. The data obtained shows that vehicles moving in opposite directions on the highway can create a "negative drag force" affecting the rotational speed of the turbine. Analysis indicates that wind direction plays a key role in harnessing maximum energy from highway winds for wind turbines.
National Power Training Institute (NPTI) is India's national apex body for training and human resource development in the power sector. It has been operating for over four decades through nine institutes across India's northern, southern, eastern, western, and northeastern regions. NPTI conducts academic programs to develop skilled professionals for India's power sector. Its vision is to enhance excellence in power and energy through training and human resources development. NPTI's objectives include functioning as the national organization for training in power generation, transmission, distribution and other electrical energy systems. It aims to establish standards for personnel qualifications and certification in the electricity industry.
This document summarizes a student's research project comparing the performance of different battery types for electric vehicles under various temperature conditions using MATLAB simulation. The student aims to evaluate how temperature affects battery voltage, current, aging, and degradation. A hybrid car model will be simulated under different road and temperature conditions to analyze battery performance and suggest the best battery combination. Simulation results will provide insights into how temperature optimization can improve battery life and sustainability for electric vehicles.
The field of power systems operation and control including renewable energy (RE) along with power, quality is considered as one of the major technical challenges among the researchers and practicing engineers. Several types of renewable energy resources are available on earth such as solar, wind, Geo-thermal, hydro, etc. The foremost resources of renewable energy are - Sunlight and Wind. The wind energy is always a center of attraction for power engineers. In the wind energy system, the pitch angle of turbine blades is playing an important role in controlling the power output of the system. The pitch angle imposes two types of control on the wind turbine system: aerodynamic torque and the rotational velocity of the turbine system. These parameters directly affect the performance of the wind power generation system in terms of the profile of power, voltage, and current. Conventionally, PID control-based system modeling has been used to evaluate the optimal pitch angle for a given wind pattern. However, PID based Pitch Angle Identification require regular tuning against variation in wind velocity and significant large time for tuning. Thus, Artificial Intelligence could provide a better solution in comparison to PID Based tuning strategy. The present work shows the evaluation of the optimal pitch angle of the wind turbines for variable wind velocity using the Fuzzy Logic Control Strategy. The test results are obtained by MATLAB Simulink modeling of the wind power generation system. The simulation shows that fuzzy logic control will provide an optimal pitch angle to obtain more efficient solutions. The existing fuzzy control-based simulation model solutions can be utilized as a testbed for evaluating the optimal pitch Angle of any geographical region. In the present work, the optimal pitch angle of Various Geographical regions of India.
Eng. Walid Ibrahime Khalil Madi is an electrical engineer seeking a position. He has a M.Sc. and B.Sc. in electrical engineering from Alexandria University. He has over 13 years of experience in electrical design, maintenance, and project management. Currently he is the Head of Sector for Operator and Maintenance Electrical Engineering at Sidi Kerir Petrochemical Company, where he oversees electrical systems, maintenance planning, and a staff of maintenance engineers. He is proficient in several electrical and design software programs and seeks to further contribute his skills.
Modeling of Induction motor using Ansys Motor CadShanmukhSaiR
This document provides a mid-review report for an electrical engineering project on modeling an induction motor for electric vehicle applications. It includes sections on literature survey, motivation/gaps identified, project title/objectives, approach/methodology, software requirements, next steps, and references. The literature survey summarizes several papers on induction motor design, efficiency improvement using materials like amorphous iron, electromagnetic calculation using ANSYS Maxwell, modeling for electric vehicles, analyzing losses using ANSYS, and thermal analysis. The objectives are listed as developing the motor for electric vehicles to reduce size, increase efficiency, and perform harmonic torque and derating analyses using induction motor modeling. The methodology involves developing a Simulink model in ANSYS and comparing it to
This document contains a resume for Abhijit Kumar Pandia. It summarizes his contact information, career objective, educational qualifications, technical skills, projects, extracurricular activities and personal details. His highest educational qualification is a B.Tech in Electrical Engineering. He has skills in areas like AC and DC components, power distribution, house wiring and renewable energy. One of his projects involved designing a solar street light. He has participated in various technical workshops and seminars. His personal details include his date of birth, marital status and interests.
Abdelrahman Mokhtar is an electrical engineer seeking a challenging career in engineering. He has over 5 years of experience in testing and commissioning high, medium, and low voltage substations in Saudi Arabia. He also has 1 year of experience as a sales engineer in Egypt. He holds a Bachelor's degree in Power and Electrical Machines from Ain Shams University in Egypt.
WILLIAM RANKINE POWER TRAINING CENTRE, SOLAPURmanish shukla
This document provides information about a 20-day operational aspects of thermal power plant training program offered by the William Rankine Power Training Centre (WRPTC) for mechanical engineering students. The training aims to help students understand the theoretical and practical aspects of thermal power plants to enhance their job opportunities. It will cover topics like plant components, water treatment, fuel handling, boiler, turbine, alternator, instrumentation and controls. Students will be evaluated through written and oral exams and those who pass will be awarded a certificate. The fee for the training course is 1499 INR.
This document provides information about a 20-day power plant operations training program offered by the William Rankine Power Training Centre (WRPTC) for mechanical engineering students. The training aims to help students understand the theoretical and practical operational aspects of thermal power plants to enhance their career opportunities. It will cover topics like plant components, water treatment, fuel handling, boilers, turbines, and instrumentation over 20 classroom sessions for a fee of 1499 INR. Students will receive a certificate upon successfully completing the course and examinations.
IRJET - Dynamic Wireless Electric Vehicle Charging System for Safe and Pr...IRJET Journal
This document proposes a dynamic wireless electric vehicle charging system to address range anxiety in electric vehicles. It involves routing electric vehicles to mobile energy disseminators (MEDs), which are mobile charging stations, to opportunistically charge vehicles while in motion. The system uses vehicle-to-vehicle communication and constraint logic programming to calculate efficient routes for electric vehicles to intersect with MEDs. Simulation results show the system can improve electric vehicle driving range and travel time compared to only using static charging stations. The document outlines the hardware components involved on the roadside and vehicle side, presents results of a simulation of the system, and concludes the approach extends vehicle range without needing larger batteries or infrastructure changes.
The document is a resume for Akhil Kuriakose providing details of his educational background, certifications, technical skills, work experience and academic projects. It outlines that he has a Post Graduate Diploma in Energy Systems Engineering from Centennial College and a Bachelor's Degree in Electrical and Electronics Engineering from Mahatma Gandhi University. It also lists his work as an Electrical Engineer and Designer at electrical substations in Kerala, India and experience working for the Toronto Transit Commission and Great Connections.
Mansoor Raza is seeking a career opportunity where he can utilize his skills and grow professionally. He has a B.E. in Electronics from Mehran University of Engineering and Technology and over 5 years of experience in instrumentation engineering roles. His skills include programming PLCs, HMI, automation networks and experience with various software. He has received achievements for his engineering design and projects.
This document provides information about the Electrical and Electronics Engineering Department at SNS College of Engineering in Coimbatore, India. It outlines the department's vision, mission, facilities, laboratory equipment, industry partnerships, courses offered, student achievements and more. The department aims to provide quality technical education and prepare innovative problem solvers. It has well-equipped laboratories and works with local industries to give students hands-on experience. Students have participated in conferences, workshops and projects covering topics like embedded systems, automation, and power electronics.
This document provides the syllabus for an "Electric Drive" course offered at Maulana Abul Kalam Azad University of Technology, West Bengal. The syllabus outlines the course objectives, prerequisites, units of study, textbook and reference materials, and expected learning outcomes. Key topics covered include principles of electric drive operation, starting and braking methods, modeling and control of DC and AC drives, and industrial applications of electric drives.
This document provides a curriculum vitae for Yasin Ahmad Yasin Al-Shiboul, including his personal details, education history, work experience, training, publications, and programming languages. He has a M.Sc. in Electrical Engineering from the University of Jordan and worked for over 30 years in electrical engineering roles for Jordan Telecommunications Company and as a lecturer at Al-Balqa' Applied University, teaching courses on power systems and electronics. He has published several papers and books and has experience programming in MATLAB, Simulink, and other languages.
This document summarizes a seminar presentation on developing a power generation shock absorber. The presentation outlines introducing a shock absorber that converts the kinetic energy dissipated through the suspension system into electrical energy. It discusses utilizing an electromagnetic system within the shock absorber where relative motion between a coil and magnet generates electricity. The generated power can be stored in vehicle batteries to increase their life. The presentation provides background on energy losses in vehicles, reviews previous related studies, and describes the objectives, components, design, advantages, applications and conclusions of the proposed energy harvesting shock absorber system.
About This Training Course
The two day course is designed for electrical engineers and operational staff involved in power generation. The content
is relevant for all types of generation involving synchronous machines; from traditional coal, oil, gas and hydro, to
offshore and nuclear. The course will give delegates a firm understanding in the operation of excitation control systems
along with an appreciation of the different types available and the numerous systems offered by the major manufacturers.
Learning Outcomes
Delegates will learn about:
Fundamentals of the synchronous machine
The generator capability diagram
Excitation system components
Excitation system control theory
Parallel operation of generators
Brushless / Rotating excitation systems
Static excitation systems
Power System Stabilisers
Transmission company compliance
IEEE Excitation Standards
Who Should Attend
•Electrical engineers involved in power generation both onshore and offshore
•Power plant operational staff
This document proposes generating electricity from speed breakers using a rack and pinion mechanism. It outlines the aims to design such a mechanism and investigate power generation from kinetic energy of vehicles passing over speed breakers. The methodology involves creating linear motion from the speed bump that turns pinions connected to a generator to produce electricity. Calculations estimate a daily power generation of 56.45 kW could be achieved. The budget for a prototype is estimated at 25,000 rupees. Successful results could utilize the power at traffic signals and streetlights.
Abdul Malik Mahar is seeking a position as an electrical engineer. He has a Bachelor's degree in Electrical Engineering from Mehran University of Engineering and Technology. He has experience working internships at gas turbine and thermal power plants to learn about power generation, transmission, and control systems. His technical skills and interests include power quality analysis, smart grids, and renewable energy. He is a recent graduate looking for an opportunity to effectively contribute to an organization using his engineering knowledge and skills.
IRJET- Experiment Study on Rotational Behaviour of a Savonous Wind Turbin...IRJET Journal
This study examines the rotational behavior of a Savonius wind turbine placed on the sides of two-lane highways in Coimbatore, India during the monsoon season. Experiments were conducted measuring the angular rotational speeds of the turbine in different wind directions. The data obtained shows that vehicles moving in opposite directions on the highway can create a "negative drag force" affecting the rotational speed of the turbine. Analysis indicates that wind direction plays a key role in harnessing maximum energy from highway winds for wind turbines.
National Power Training Institute (NPTI) is India's national apex body for training and human resource development in the power sector. It has been operating for over four decades through nine institutes across India's northern, southern, eastern, western, and northeastern regions. NPTI conducts academic programs to develop skilled professionals for India's power sector. Its vision is to enhance excellence in power and energy through training and human resources development. NPTI's objectives include functioning as the national organization for training in power generation, transmission, distribution and other electrical energy systems. It aims to establish standards for personnel qualifications and certification in the electricity industry.
This document summarizes a student's research project comparing the performance of different battery types for electric vehicles under various temperature conditions using MATLAB simulation. The student aims to evaluate how temperature affects battery voltage, current, aging, and degradation. A hybrid car model will be simulated under different road and temperature conditions to analyze battery performance and suggest the best battery combination. Simulation results will provide insights into how temperature optimization can improve battery life and sustainability for electric vehicles.
The field of power systems operation and control including renewable energy (RE) along with power, quality is considered as one of the major technical challenges among the researchers and practicing engineers. Several types of renewable energy resources are available on earth such as solar, wind, Geo-thermal, hydro, etc. The foremost resources of renewable energy are - Sunlight and Wind. The wind energy is always a center of attraction for power engineers. In the wind energy system, the pitch angle of turbine blades is playing an important role in controlling the power output of the system. The pitch angle imposes two types of control on the wind turbine system: aerodynamic torque and the rotational velocity of the turbine system. These parameters directly affect the performance of the wind power generation system in terms of the profile of power, voltage, and current. Conventionally, PID control-based system modeling has been used to evaluate the optimal pitch angle for a given wind pattern. However, PID based Pitch Angle Identification require regular tuning against variation in wind velocity and significant large time for tuning. Thus, Artificial Intelligence could provide a better solution in comparison to PID Based tuning strategy. The present work shows the evaluation of the optimal pitch angle of the wind turbines for variable wind velocity using the Fuzzy Logic Control Strategy. The test results are obtained by MATLAB Simulink modeling of the wind power generation system. The simulation shows that fuzzy logic control will provide an optimal pitch angle to obtain more efficient solutions. The existing fuzzy control-based simulation model solutions can be utilized as a testbed for evaluating the optimal pitch Angle of any geographical region. In the present work, the optimal pitch angle of Various Geographical regions of India.
Eng. Walid Ibrahime Khalil Madi is an electrical engineer seeking a position. He has a M.Sc. and B.Sc. in electrical engineering from Alexandria University. He has over 13 years of experience in electrical design, maintenance, and project management. Currently he is the Head of Sector for Operator and Maintenance Electrical Engineering at Sidi Kerir Petrochemical Company, where he oversees electrical systems, maintenance planning, and a staff of maintenance engineers. He is proficient in several electrical and design software programs and seeks to further contribute his skills.
Modeling of Induction motor using Ansys Motor CadShanmukhSaiR
This document provides a mid-review report for an electrical engineering project on modeling an induction motor for electric vehicle applications. It includes sections on literature survey, motivation/gaps identified, project title/objectives, approach/methodology, software requirements, next steps, and references. The literature survey summarizes several papers on induction motor design, efficiency improvement using materials like amorphous iron, electromagnetic calculation using ANSYS Maxwell, modeling for electric vehicles, analyzing losses using ANSYS, and thermal analysis. The objectives are listed as developing the motor for electric vehicles to reduce size, increase efficiency, and perform harmonic torque and derating analyses using induction motor modeling. The methodology involves developing a Simulink model in ANSYS and comparing it to
This document contains a resume for Abhijit Kumar Pandia. It summarizes his contact information, career objective, educational qualifications, technical skills, projects, extracurricular activities and personal details. His highest educational qualification is a B.Tech in Electrical Engineering. He has skills in areas like AC and DC components, power distribution, house wiring and renewable energy. One of his projects involved designing a solar street light. He has participated in various technical workshops and seminars. His personal details include his date of birth, marital status and interests.
Abdelrahman Mokhtar is an electrical engineer seeking a challenging career in engineering. He has over 5 years of experience in testing and commissioning high, medium, and low voltage substations in Saudi Arabia. He also has 1 year of experience as a sales engineer in Egypt. He holds a Bachelor's degree in Power and Electrical Machines from Ain Shams University in Egypt.
WILLIAM RANKINE POWER TRAINING CENTRE, SOLAPURmanish shukla
This document provides information about a 20-day operational aspects of thermal power plant training program offered by the William Rankine Power Training Centre (WRPTC) for mechanical engineering students. The training aims to help students understand the theoretical and practical aspects of thermal power plants to enhance their job opportunities. It will cover topics like plant components, water treatment, fuel handling, boiler, turbine, alternator, instrumentation and controls. Students will be evaluated through written and oral exams and those who pass will be awarded a certificate. The fee for the training course is 1499 INR.
This document provides information about a 20-day power plant operations training program offered by the William Rankine Power Training Centre (WRPTC) for mechanical engineering students. The training aims to help students understand the theoretical and practical operational aspects of thermal power plants to enhance their career opportunities. It will cover topics like plant components, water treatment, fuel handling, boilers, turbines, and instrumentation over 20 classroom sessions for a fee of 1499 INR. Students will receive a certificate upon successfully completing the course and examinations.
IRJET - Dynamic Wireless Electric Vehicle Charging System for Safe and Pr...IRJET Journal
This document proposes a dynamic wireless electric vehicle charging system to address range anxiety in electric vehicles. It involves routing electric vehicles to mobile energy disseminators (MEDs), which are mobile charging stations, to opportunistically charge vehicles while in motion. The system uses vehicle-to-vehicle communication and constraint logic programming to calculate efficient routes for electric vehicles to intersect with MEDs. Simulation results show the system can improve electric vehicle driving range and travel time compared to only using static charging stations. The document outlines the hardware components involved on the roadside and vehicle side, presents results of a simulation of the system, and concludes the approach extends vehicle range without needing larger batteries or infrastructure changes.
The document is a resume for Akhil Kuriakose providing details of his educational background, certifications, technical skills, work experience and academic projects. It outlines that he has a Post Graduate Diploma in Energy Systems Engineering from Centennial College and a Bachelor's Degree in Electrical and Electronics Engineering from Mahatma Gandhi University. It also lists his work as an Electrical Engineer and Designer at electrical substations in Kerala, India and experience working for the Toronto Transit Commission and Great Connections.
Mansoor Raza is seeking a career opportunity where he can utilize his skills and grow professionally. He has a B.E. in Electronics from Mehran University of Engineering and Technology and over 5 years of experience in instrumentation engineering roles. His skills include programming PLCs, HMI, automation networks and experience with various software. He has received achievements for his engineering design and projects.
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Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
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Discover the latest insights on Data Driven Maintenance with our comprehensive webinar presentation. Learn about traditional maintenance challenges, the right approach to utilizing data, and the benefits of adopting a Data Driven Maintenance strategy. Explore real-world examples, industry best practices, and innovative solutions like FMECA and the D3M model. This presentation, led by expert Jules Oudmans, is essential for asset owners looking to optimize their maintenance processes and leverage digital technologies for improved efficiency and performance. Download now to stay ahead in the evolving maintenance landscape.
The CBC machine is a common diagnostic tool used by doctors to measure a patient's red blood cell count, white blood cell count and platelet count. The machine uses a small sample of the patient's blood, which is then placed into special tubes and analyzed. The results of the analysis are then displayed on a screen for the doctor to review. The CBC machine is an important tool for diagnosing various conditions, such as anemia, infection and leukemia. It can also help to monitor a patient's response to treatment.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
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Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
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COURSE_ORIENTATION_PROGRAM_-_PPT_ AC MACHINES.ppt
1. By
Dr. L. Anbarasu
Assistant Professor(Sr.G.)
Department of Electrical and Electronics Engineering
COURSE ORIENTATION PROGRAM
2. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
At the end of the session, you will be able to clearly
explain,
The basic course facts and its relevance in shaping your
engineering career
TERMINAL OBJECTIVE
3. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Introduction
• Course Objective
• Course Outcome
• Proposed Activities
• Unit Distribution
• Suggested Resources
• How to approaches the courses
• Internal Assessment
• Practical Significance of the Course
• Scope in the job market
• Q&A
CONTENTS
4. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
19EE603 - RENEWABLE ENERGY SOURCES
THEORY(100%)
Course Duration = 45 Hrs
COURSE INTRODUCTION
5. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNITS DISTRIBUTION
UNIT 1:NON CONVENTIONAL ENERGY
SOURCES
UNIT 2: SOLAR ENERGY
UNIT 3: WIND ENERGY
UNIT 4: BIOMASS ENERGY
UNIT 5: ALTERNATE SOURCES
6. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNIT 1 – NON CONVENTIONAL
ENERGY SOURCES
7. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Know about the construction and performance of
synchronous generators.
AIM
• To impart knowledge on Construction and
performance of salient and non – salient type
synchronous generators.
OBJECTIVE
• Ability to understand the construction and
working principle of Synchronous Generator.
OUTCOME
• Hydro and Thermal Power Plants, Nuclear
Power Plant, Wind Turbine, Diesel-Generator
set.
APPLICATIONS
(PRESENTLY USED IN
INDUSTRY & AREA)
UNIT 1 – SYNCHRONOUS GENERATOR
8. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Types and construction features of alternators
• e.m.f equation armature reaction
• Synchronous reactance
• determination of voltage regulation using EMF,
MMF and ZPF methods
• parallel operation of synchronous generators
• two reaction theory – slip test.
SYLLABUS
NOTES PPT IMP QUES UQP
UNIT 1 – SYNCHRONOUS GENERATOR
9. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNIT 2 – SYNCHRONOUS MOTOR
10. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Know about the synchronous motor
operating principle and their performance.
AIM
• To impart knowledge on principle of
operation and performance of synchronous
motor.
OBJECTIVE
• Ability to acquire knowledge on Synchronous
motor.
OUTCOME
• Power factor correction, Constant speed,
constant load drives and Voltage regulation
of transmission lines.
• Paper mills, Synchronous condenser
APPLICATIONS
(PRESENTLY USED IN
INDUSTRY & AREA)
UNIT 2 – SYNCHRONOUS MOTOR
11. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
•Constructional features and principle of operation of
synchronous motor
•Starting methods
•torque and power relations
•V curves and inverted V curves
•Hunting and suppression methods–Synchronous
condenser.
SYLLABUS
NOTES PPT IMP QUES UQP
UNIT 2 – SYNCHRONOUS MOTOR
12. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNIT 3 -THREE PHASE INDUCTION MACHINES
13. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Know about the construction and principle of
operation of induction motor.
AIM
• To impart knowledge on Construction,
principle of operation and performance of
induction machines.
OBJECTIVE
• Ability to understand the construction and
working principle of Three Phase Induction
Motor
OUTCOME
• Driving fans, Blowers, Conveyers, Water
pumps, grinders, lathe machines.
• Rice mill, Paper industry, Steel rolling mill,
power plants, Sugar industry.
APPLICATIONS
(PRESENTLY USED IN
INDUSTRY & AREA)
UNIT 3 -THREE PHASE INDUCTION MACHINES
14. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Construction and principle of operation of three
phase induction motor
• Equivalent circuit
• Torque & Power equations
• Slip – Torque characteristics
• Maximum Torque Condition
• Losses and Efficiency
• Load test– No load & blocked rotor tests –
Separation of no load losses
• circle diagram.
SYLLABUS
NOTES PPT IMP QUES UQP
UNIT 3 -THREE PHASE INDUCTION MACHINES
15. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNIT 4 – STARTING AND SPEED CONTROL OF
THREE PHASE INDUCTION MOTOR
16. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Know about the starting and speed control of
three phase induction motors.
AIM
• To impart knowledge on Starting and speed
control of three-phase induction motors.
OBJECTIVE
• Ability to understand the starting methds and
speed control of three phase induction
motors.
OUTCOME
• Variable speed drives in chemical industry,
plastic industry, sugar factory, cement
industry, spinning mill
APPLICATIONS
(PRESENTLY USED IN
INDUSTRY & AREA)
UNIT 4 – STARTING AND SPEED CONTROL OF
THREE PHASE INDUCTION MOTOR
17. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Need for starting
• Starting methods of three phase induction motor
• Cogging & Crawling
• Speed control – Voltage control – Rotor resistance
control – Pole changing – Frequency control
• Slip power recovery scheme
• Double cage rotor –Induction generator –
Synchronous induction motor.
SYLLABUS
NOTES PPT IMP QUES UQP
UNIT 4 – STARTING AND SPEED CONTROL OF
THREE PHASE INDUCTION MOTOR
18. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
UNIT 5 – SINGLE PHASE MOTORS
19. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Know about the construction and principle of
operation and performance of single phase
induction motors and special machines.
AIM
• To impart knowledge on Construction,
principle of operation and performance of
single phase induction motors and special
machines.
OBJECTIVE
• Ability to understand the construction and
working principle of single phase induction
motors and special machines.
OUTCOME
• Domestic applications such as ceiling fan,
wet grinders, drilling machines.
• Record players , gramophones ,hair dryers ,
photocopying machines.
APPLICATIONS
(PRESENTLY USED IN
INDUSTRY & AREA)
UNIT 5 – SINGLE PHASE INDUCTION MOTORS
AND SPECIAL MACHINES
20. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• Single phase induction motors
• Double revolving field theory
• Torque – Speed characteristics
• Equivalent circuit – No load and Blocked rotor test -
Performance analysis
• Starting methods of Single phase motors
• Special motors: shaded pole motor, reluctance
motor, repulsion motor, Hysteresis motor.
SYLLABUS
NOTES PPT IMP QUES UQP
UNIT 5 – SINGLE PHASE INDUCTION MOTORS
22. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
RESOURCES
1. TEXT BOOK – INDIAN AUTHOR
2. TEXT BOOK – FOREIGN AUTHOR
3. MAGAZINES – INDIAN / INTERNATIONAL
4. JOURNALS – INDIAN / INTERNATIONAL
5. CASE STUDY REFERENCE
23. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
TEXT BOOK – INDIAN AUTHOR
1.D.P.Kothari and I.J.Nagrath, “Electric Machines”,
McGraw Hill Publishing Company Ltd,2001.
2.B.L.Theraja and A.K.Theraja, “A Textbook of Electrical
Technology”,S, Chand & Company Ltd, 2013
3.P.S. Bhimbhra, ‘Electrical Machinery’, Khanna
Publishers, 2003.
4.B.R.Gupta, ’Fundamental of Electric Machines’ New
age International Publishers, 3rd Edition,Reprint 2015.
5.Murugesh Kumar, ‘Electric Machines’, Vikas
Publishing House Pvt. Ltd, 2002.
24. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
TEXT BOOK – FOREIGN AUTHOR
1.A.E. Fitzgerald, Charles Kingsley, Stephen. D. Umans, ‘Electric
Machinery’, Mc Graw Hill publishing Company Ltd, 2003.
2.Vincent Del Toro, ‘Basic Electric Machines’ Pearson India
Education, 2016.
3.Alexander S. Langsdorf, ‘Theory of Alternating-Current
Machinery’, McGraw Hill Publications,2001.
4.Stephen J. Chapman, ‘Electric Machinery Fundamentals’4th
edition, McGraw Hill Education Pvt. Ltd, 2010..
25. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
MAGAZINES – INDIAN /
INTERNATIONAL
1.http://www.ee.co.za/article/synchronous-alternator-
protection-principles-systems.html
2.Drive India
3.https://www.motor.com/magazine-
summary/preventive-maintenance-starters-
alternators-november-2004/
4. Simens Magazine & IEEE Power Electronics
Magazine
5.Magazine of Motor Technology
27. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
JOURNALS – INDIAN / INTERNATIONAL
https://www.ieee.org/publications/periodicals.html
2.Motors for Ship Propulsion
3.Modelling and Simulation of Static Excitation
System in Synchronous Machine Operation and
Investigation of Shaft Voltage
4.Neuro PID Speed Controller for Permanent Magnet
Synchronous Motor
5.Design and Construction of a Solar Hybrid Car
(Electric Motor and Human Propulsion)
29. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
CASE STUDY REFERENCE
1.https://electronicsforu.com/category/electronics-
projects/hardware-diy
2.Turbine Generator Synchronization –
Two Case Studies
3.Condition monitoring of induction motor with a case
study
4.A Case Study of Fault Detection and Protection of
Three-Phase Induction Motor
5.A new equivalent circuit of the three-phase induction
Motor (case studies:current and power factor of the motor)
30. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
Tips To Secure Min 50 Marks Overall
Score at least 70% in each
Internal Assessment Test
(14 Marks)
1. Attend classes regularly.
2. Maintain class notes properly.
3. Complete & Submit assignments
on time.
4. Actively participate in class
activities.
Score at least 45% in AU
Exam
(36 Marks)
1. Unit Wise 2 Marks, 13 Marks & 15
Marks
2. Solve AU Question bank – Last 5
Yrs
3. Concentrate on problems and
diagrams.
4. Attend all Internal Assessments &
Model Exam
HOW TO APPROACH THE COURSE
31. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
INTERNAL / MODEL ASSESSMENTS
32. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
• When > 10.01.2019 TO 12.01.2019
• Portions > Units – I and 50% of Unit II
IAT - I
• When > 06.02.2019 TO 08.02.2019
• Portions > 50% of Unit II and Unit III
IAT - II
• When > 27.02.2019 TO 01.03.2019
• Portions > Unit IV and 50% of Unit V
IIT
INTERNAL / MODEL ASSESSMENTS
• When > 01.04.2019 TO 12.04.2019
• Portions > Units – I To Unit V
IAT - III
33. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
PRACTICAL SIGNIFICANCE OF THE COURSE
1.Know about the construction and performance of
synchronous generators.
2.Knowledge about the synchronous motor operating
principle and their performance.
3.Study about the construction and principle of operation of
induction motor.
4.Learn the induction motor speed control methods and
various types of starter.
5. Know the construction and principle of operation od single
phase induction motors and special machines.
35. ERODE SENGUNTHAR ENGINEERING COLLEGE
COURSE ORIENTATION PROGRAM – 2018 – 2019 (EVEN SEMESTER)
SCOPE IN THE JOB MARKET
1. Become an Electrical Engineer in various power plants
2.Opportunities in steel, chemical, spinning and paper
Industries
3.Opportunities in induction motor manufacturing
industries and design concerns.
4.Opportunities in large scale motor manufacturing
Industries.
5.Opportunities in motor rewinding industries.