This document contains a resume for Shraf eldin Sati Shampool Abdelgader. He has a Bachelor's degree in Electrical Engineering from Sudan University of Science and Technology, and is currently working as a Real Time Transmission Operation Engineer for Sudanese Electricity Transmission Co. His responsibilities include maintaining reliability of the power system, controlling power flow, carrying out switching operations safely, and restoring power during blackouts. He has over 5 years of experience and has completed several professional training courses in areas like power system operation, protection, and engineering.
Suresh Kumar is an Electrical Engineer with 8 years of experience in testing and commissioning of power system protection relays and control panels. He has expertise in fault analysis, protection schemes, numerical relays, and software like E-TAP, AutoCAD, C/C++. He held roles at The Aluminium Industries Ltd testing relays, preparing technical documents, designing traction projects, and providing on-site support. His projects involved testing and commissioning work for various railway and state electricity board substations across India. He holds a B.E. in Electrical Engineering, MBA in HR, and professional certificates in E-TAP, CCNA, and project management.
This document discusses power quality disturbances and their analysis using wavelet transforms. It provides definitions of power quality from IEEE and IEC standards. Power quality disturbances are classified and various techniques for their detection are discussed, including Fourier transforms, wavelet transforms, and S-transforms. Wavelet transforms are well-suited for analyzing transient waveforms in power quality. The document focuses on using multi-resolution analysis and energy difference multi-resolution analysis to extract features of power quality disturbances and classify them using pattern recognition techniques.
The document discusses using a Dynamic Voltage Restorer (DVR) to mitigate power quality problems. A DVR injects voltage in series with the distribution system voltage to correct voltage sags and swells. It consists of an injection transformer, harmonic filter, energy storage devices like batteries, a voltage source converter, and a control system. During voltage disturbances, the DVR injects active and reactive power as needed from the storage devices to restore the load voltage to its nominal value. The DVR response is fast at around 25 ms and can effectively compensate for voltage sags and swells in the distribution system.
Power systems certificate is designed by highly educated instructors at TONEX in order to provide a specialized training in power system area. The certificate consists of four technical power system areas which is designed for engineers and students seeking to improve their power system knowledge and position themselves for their job responsibilities and promotions.
Our industry and faculty experts at TONEX will help you to understand the fundamental concepts of power system in order to tackle the real-world challenges. The power system certificate consists of major topics:
Power systems modeling and analysis
Power quality and design
Power systems standards
Advanced power systems (Micro and Smart grids)
Power system control ( linear and advanced)
Audience:
All engineers who wants to learn, design, or operate the power systems
Power traders to understand the power systems.
Independent system operator personnel.
Faculty members from academic institutes who want to teach the power system courses.
Investors and contractors who plan to make investments in power industry.
Professionals in other energy industries.
Objectives:
Understand the basic power system components with their functionality
Design the power system components based on customers demand
Differentiate the modern power system with advancement of power electronics with traditional power systems
Model generators, transformers, transmission lines and loads
Conduct the stability analysis for different components of the power systems
Design the grounding system in power systems
Design the distribution systems
Understand the different types of faults in power systems and fault analysis
Describe the fundamentals of protection and relaying in power systems
Understand the modern power system components and smart/micro grids
Explain the communication technology used in micro/smart grids
Understand the different control levels in micro/smart grids
Differentiate the modern and traditional control in power systems
Explain the advanced control and optimizations implemented in micro/smart grids
Analyze the stability in modern power systems
Implement the control/analysis in real world projects
Training Outline:
Basic Concepts
Main Components of Power Systems
Transformer Modeling
Transmission Line Parameters and Performance
Power System Models
Power Flow Analysis
Fault Analysis
Symmetrical Components and Unbalanced Operation
State Estimation
Contingency Analysis
Call us today at +1-972-665-9786. Learn more about course audience, objectives, outlines, pricing. Visit our website links below.
Power Systems Certificate
https://www.tonex.com/training-courses/power-systems-certificate/
This document summarizes a study on the electricity distribution system, substation operations, and maintenance at DESCO. It provides an overview of DESCO and Bangladesh's power sector, describes the supply chain and infrastructure from generation to consumers. It then details the key equipment at substations, such as transformers and circuit breakers, and the maintenance procedures. It also discusses DESCO's goals like increasing access to electricity and reducing losses, as well as their plans to expand operations to meet rising demand.
This document provides a proposal for upgrades to the electrical installation at the KIUMA Ministry Complex in Tanzania. It includes:
1. An overview of the ministry and site details.
2. A visual inspection report of the existing electrical infrastructure including generator room, battery room, solar panels, workshops and buildings identifying issues.
3. Recommendations for essential upgrades to the generator room, battery room and solar array to improve reliability and safety of the electrical network.
4. Suggested optional upgrade plans and configurations for phased improvements to the overall electrical system capacity and performance.
Improved technique for under voltage load shedding using Genetic Algorithm an...Dr.Raja Masood Larik
This document summarizes an improved technique for under voltage load shedding using a hybrid genetic algorithm and particle swarm optimization (GAPSO). The key objectives are to develop multiple contingency scenarios using various loading factors, establish criteria to identify weak buses for load shedding, and optimize the amount of load shed using an improved GAPSO approach. The improved GAPSO approach integrates a fast voltage stability index to select weak buses and adds voltage stability as a constraint. This technique aims to optimally stabilize system voltages following contingencies while minimizing load shed amounts.
Visweswara Rao Kudipudi is an electrical supervisor with 14 years of experience. He has worked for several petrochemical companies in Saudi Arabia and India, holding roles including electrical technician and supervisor. His experience includes commissioning, maintenance, and troubleshooting of electrical equipment up to 36kV. He holds a Diploma in Electrical Engineering and certifications in electrical supervision.
Suresh Kumar is an Electrical Engineer with 8 years of experience in testing and commissioning of power system protection relays and control panels. He has expertise in fault analysis, protection schemes, numerical relays, and software like E-TAP, AutoCAD, C/C++. He held roles at The Aluminium Industries Ltd testing relays, preparing technical documents, designing traction projects, and providing on-site support. His projects involved testing and commissioning work for various railway and state electricity board substations across India. He holds a B.E. in Electrical Engineering, MBA in HR, and professional certificates in E-TAP, CCNA, and project management.
This document discusses power quality disturbances and their analysis using wavelet transforms. It provides definitions of power quality from IEEE and IEC standards. Power quality disturbances are classified and various techniques for their detection are discussed, including Fourier transforms, wavelet transforms, and S-transforms. Wavelet transforms are well-suited for analyzing transient waveforms in power quality. The document focuses on using multi-resolution analysis and energy difference multi-resolution analysis to extract features of power quality disturbances and classify them using pattern recognition techniques.
The document discusses using a Dynamic Voltage Restorer (DVR) to mitigate power quality problems. A DVR injects voltage in series with the distribution system voltage to correct voltage sags and swells. It consists of an injection transformer, harmonic filter, energy storage devices like batteries, a voltage source converter, and a control system. During voltage disturbances, the DVR injects active and reactive power as needed from the storage devices to restore the load voltage to its nominal value. The DVR response is fast at around 25 ms and can effectively compensate for voltage sags and swells in the distribution system.
Power systems certificate is designed by highly educated instructors at TONEX in order to provide a specialized training in power system area. The certificate consists of four technical power system areas which is designed for engineers and students seeking to improve their power system knowledge and position themselves for their job responsibilities and promotions.
Our industry and faculty experts at TONEX will help you to understand the fundamental concepts of power system in order to tackle the real-world challenges. The power system certificate consists of major topics:
Power systems modeling and analysis
Power quality and design
Power systems standards
Advanced power systems (Micro and Smart grids)
Power system control ( linear and advanced)
Audience:
All engineers who wants to learn, design, or operate the power systems
Power traders to understand the power systems.
Independent system operator personnel.
Faculty members from academic institutes who want to teach the power system courses.
Investors and contractors who plan to make investments in power industry.
Professionals in other energy industries.
Objectives:
Understand the basic power system components with their functionality
Design the power system components based on customers demand
Differentiate the modern power system with advancement of power electronics with traditional power systems
Model generators, transformers, transmission lines and loads
Conduct the stability analysis for different components of the power systems
Design the grounding system in power systems
Design the distribution systems
Understand the different types of faults in power systems and fault analysis
Describe the fundamentals of protection and relaying in power systems
Understand the modern power system components and smart/micro grids
Explain the communication technology used in micro/smart grids
Understand the different control levels in micro/smart grids
Differentiate the modern and traditional control in power systems
Explain the advanced control and optimizations implemented in micro/smart grids
Analyze the stability in modern power systems
Implement the control/analysis in real world projects
Training Outline:
Basic Concepts
Main Components of Power Systems
Transformer Modeling
Transmission Line Parameters and Performance
Power System Models
Power Flow Analysis
Fault Analysis
Symmetrical Components and Unbalanced Operation
State Estimation
Contingency Analysis
Call us today at +1-972-665-9786. Learn more about course audience, objectives, outlines, pricing. Visit our website links below.
Power Systems Certificate
https://www.tonex.com/training-courses/power-systems-certificate/
This document summarizes a study on the electricity distribution system, substation operations, and maintenance at DESCO. It provides an overview of DESCO and Bangladesh's power sector, describes the supply chain and infrastructure from generation to consumers. It then details the key equipment at substations, such as transformers and circuit breakers, and the maintenance procedures. It also discusses DESCO's goals like increasing access to electricity and reducing losses, as well as their plans to expand operations to meet rising demand.
This document provides a proposal for upgrades to the electrical installation at the KIUMA Ministry Complex in Tanzania. It includes:
1. An overview of the ministry and site details.
2. A visual inspection report of the existing electrical infrastructure including generator room, battery room, solar panels, workshops and buildings identifying issues.
3. Recommendations for essential upgrades to the generator room, battery room and solar array to improve reliability and safety of the electrical network.
4. Suggested optional upgrade plans and configurations for phased improvements to the overall electrical system capacity and performance.
Improved technique for under voltage load shedding using Genetic Algorithm an...Dr.Raja Masood Larik
This document summarizes an improved technique for under voltage load shedding using a hybrid genetic algorithm and particle swarm optimization (GAPSO). The key objectives are to develop multiple contingency scenarios using various loading factors, establish criteria to identify weak buses for load shedding, and optimize the amount of load shed using an improved GAPSO approach. The improved GAPSO approach integrates a fast voltage stability index to select weak buses and adds voltage stability as a constraint. This technique aims to optimally stabilize system voltages following contingencies while minimizing load shed amounts.
Visweswara Rao Kudipudi is an electrical supervisor with 14 years of experience. He has worked for several petrochemical companies in Saudi Arabia and India, holding roles including electrical technician and supervisor. His experience includes commissioning, maintenance, and troubleshooting of electrical equipment up to 36kV. He holds a Diploma in Electrical Engineering and certifications in electrical supervision.
Syed Abra Ul Haq is an electrical engineer with over 5 years of experience in the cement industry. He is currently working as an electrical engineer at Dalmia Cement responsible for electrical maintenance and the 132/11kV switchyard. He holds an M.Tech in Electrical Power Systems and has experience maintaining electrical equipment including transformers, switchgear, motors, VFDs, and more. He is seeking new opportunities as an electrical engineer or related role where he can utilize his skills in electrical planning, maintenance, and project management.
IRJET- Fitness Function as Trust Value using to Efficient Multipath Routi...IRJET Journal
This paper proposes an energy efficient multipath routing protocol for mobile ad hoc networks. The protocol considers transmission power and remaining energy of nodes as energy metrics to select energy efficient paths and extend network lifetime. It is implemented using the NS-2 simulator. Simulation results show that the proposed protocol increases network lifetime and performance compared to the conventional AOMDV routing protocol by reducing energy consumption of mobile nodes. Key contributions are using transmission power control and residual energy calculation to select paths, and modifying the AOMDV route discovery process to include these energy metrics in route selection.
A systematic approach to evaluating the influence of demand side management r...journalBEEI
Available transfer capability is an index to measure the security and economic viability of an interconnected system. However, to accurately determine this index, other associated parameters need to be accurately evaluated. One of these parameters is the capacity benefit margin (CBM). For efficient power generation reliability and sustainability, a certain amount of supply capacity is commonly reserved by utilities, which in most cases remain unused, to reduce the effect of generation outage. To minimize this unused reserve, utilities usually reserve a predetermined amount of tie-line capacity between interconnected areas to have access to external supply. This tie-line reserved for this purpose is termed as capacity benefit margin (CBM). In this paper a technique for computing CBM is used, the sensitivity of CBM support from other areas to the increase in load in one of the areas is investigated, and conclusively, demand side management is proposed to improve the quantification of CBM. The contribution of this work is the assessment of the CBMs support from other areas during a critical condition, using the flexibility of DSM technique. The modified 24-bus IEEE reliability test system is employed for the verification of the approach.
Syed Abra Ul Haq is an electrical engineer with over 5 years of experience in the cement industry. He is currently working as an electrical engineer at Dalmia Cement responsible for electrical maintenance and the 132/11kV switchyard. He has a Master's degree in Electrical Power Systems and is seeking new opportunities as an electrical engineer. He has experience planning, operating, and maintaining electrical systems including switchyards, motors, drives, and more at cement plants in India and Saudi Arabia.
This document proposes a tutorial on design issues and practical solutions for electric and hybrid electric vehicle propulsion systems. The tutorial will be split into three sessions covering: an introduction to EV/HEV propulsion systems; modeling, design, and control of advanced motor drives; and electric machine design issues and solutions. The introduction will cover vehicle power system architectures and efficiency modeling techniques. The second session will present advanced motor drive topologies, with case studies of an in-wheel direct drive system using PMSM and an SRM drive using FPGA control. The final session addresses electric machine design considerations and a case study comparing IPM, SRM, and IM machines for an HEV application.
Shabeer CP is an electrical engineer with over 4 years of experience as an Assistant Engineer at a 110 KV substation in Kerala, India. He holds a B.Tech in Electrical and Electronics Engineering from College of Engineering, Trivandrum and a Diploma in the same from SSM Polytechnic College. His experience includes maintenance of transformers and high voltage equipment, testing protection relays, and troubleshooting control panels. He also has technical skills in REVIT, AutoCAD, PLCs, SCADA, DCS, and has participated in leadership roles while in college.
The document discusses considerations for designing an embedded system to measure and estimate the state-of-charge (SOC) of an electric vehicle battery pack. It describes lithium-ion battery characteristics and sensors for measuring voltage, current, and temperature. It also provides an overview of current SOC estimation algorithms, including neural networks, multi-state techniques with Kalman filtering, and least squares support vector machines. Practical hardware and software issues for implementing such a system are also presented.
Security Constraint Unit Commitment Considering Line and Unit Contingencies-p...IJAPEJOURNAL
This summary provides the key details about the document in 3 sentences:
The document presents a new approach for security constrained unit commitment that considers both generator and transmission line contingencies using an incidence matrix methodology. It formulates the security constrained unit commitment problem and proposes modeling the optimal power flow using an incidence matrix to overcome challenges of admittance matrix based methods. The methodology allows easier modeling of multiple contingencies without changes to the network topology.
Mr. Supachai Manoonpatarachai is applying for the position of Maintenance Assistant Manager. He has 14 years of experience in maintenance, including 5 years as a maintenance leader. He is proficient in maintenance planning, preventative maintenance, automation systems, energy saving systems, and safety management. He holds a Bachelor's degree in Engineering Management and certifications in safety supervision, energy management, and leadership. Currently he is a Maintenance Supervisor at Kellogg Thailand, where he oversees maintenance technicians, budgets, and ensures regulatory compliance.
Jonathan Poblete is seeking a position utilizing his 15 years of experience in leadership, management, electrical, and technical skills. He has extensive experience installing, commissioning, troubleshooting, and maintaining low, medium, and high voltage electrical systems. His background includes work as a prime power production specialist, instrumentation specialist, HVAC technician, and generator mechanic in both the military and private sector. He has qualifications in project management, electrical testing, and relay protection and controls.
Optimum performance of tulkarim governorate networkslmnsvn
This document provides an introduction to the graduation project on optimizing the performance of Tulkarim Governorate network and Sarra Connection Point in Palestine. It discusses the objectives of connecting the two networks to the Sarra electricity converter station to improve voltage levels and reliability. It also covers load flow analysis methods that will be used like the Gauss-Seidel and Newton-Raphson methods to study the networks and detect problems. The document lists some IEC standards and defines terms like load buses, generator buses, and slack buses used in classifying buses in a power system model.
Irfan Rasheed is an Electrical Technician with 6 years of experience working for Engro Fertilizers Limited in Daharki, Pakistan. He has experience conducting preventative and corrective maintenance on generators, motors, switchgear, transformers, protection relays, batteries, UPS systems, and other electrical equipment. He is responsible for maintenance scheduling in SAP, completing PMs and CMs, record keeping, and planning projects and tasks. Some of his achievements include installing an intelligent load management scheme.
This document appears to be a seminar report submitted by Mr. Amey Kulkarni to Savitribai Phule Pune University. The report discusses induction motor protection systems. It includes an abstract, list of figures, tables, abbreviations, and 5 chapters. Chapter 1 provides an introduction and objectives of studying induction motor protection. Chapter 2 reviews literature on classical monitoring techniques for 3-phase induction motors and their limitations. Chapter 3 will discuss implementation of a protection system. Subsequent chapters will cover over/under voltage protection, single phasing protection, phase reversal protection, overheating protection, and components of an induction motor protection system. The report is submitted under the guidance of Prof. R.S. Tar
Power System Analysis is designed for senior undergraduate or graduates electrical engineering students studying power system analysis and design. The book gives readers a thorough understanding of the fundamental concepts of power system analysis and their applications to real-world problems.
This document describes a project to optimize the fuel consumption of a series electric hybrid vehicle over the New European Driving Cycle (NEDC) using different control strategies. A team of 4 master's students worked on various subsystems of the vehicle including the electrical machine, power electronics, battery, generator, internal combustion engine (ICE), and supervisor controller. The team developed Simulink models of each subsystem and integrated them to simulate different operating strategies over the NEDC cycle with the goal of minimizing fuel consumption. Key results showed how the state of charge and fuel consumption varied over the cycle depending on the initial and minimum SOC levels used in the control strategy.
K. Jeyakkannan is seeking a position that utilizes his 4+ years of experience in electrical engineering. He has worked on multiple power plant and substation projects, handling tasks like cable sizing calculations, equipment procurement, and layout design. He is proficient in AutoCAD and has a B.E. in Electrical and Electronics Engineering. His objective is to apply his technical skills efficiently in an organization and strive for excellence.
This document provides a summary of S.Yuvaraj's qualifications and work experience. It includes details of his educational background such as a M.E. in Power Electronics from Vels University and a B.E. in Electrical and Electronics Engineering from Sasurie College of Engineering. It also lists his professional experience in technical roles supporting power infrastructure for telecom companies such as ZTE Telecom India Pvt Ltd and MTS India Pvt Ltd over the past 10 years. Additionally, it outlines his areas of expertise in operations and maintenance, installation and commissioning, and team management.
1. This chapter provides an overview of setting up a basic DeviceNet network, including understanding the topology, media options, maximum distances, and how to terminate, supply power, and ground the network.
2. The key steps are to understand the trunk/drop line topology and cable options, determine the maximum trunk and cumulative drop line lengths allowed for the chosen data rate, and properly terminate the network at both ends.
3. Guidelines are provided for supplying power to the network within specifications and using a checklist to ensure proper installation.
This document provides a summary of Muhammad Rizwan's personal and professional details. It includes his contact information, education history, certifications earned, and over 10 years of experience in maintenance, production, and project management roles in industries like electrical equipment manufacturing and packaging. Some of his responsibilities have included leading maintenance departments, implementing preventative maintenance schedules, and reducing downtime and costs through strategic planning.
This document provides a summary of an individual's professional experience and qualifications. It includes details about their current role as an electrical instructor for Yemen LNG, previous engineering roles, education in electrical engineering, and relevant training and certifications. Their objective is to obtain a challenging job in LNG electrical training or engineering.
Muhammad Nadeem is an electrical operation and maintenance technician with over 14 years of experience. He is currently working as an electrical technician for OMV Exploration and Maurice Energy Ltd Pakistan. He has held previous positions as a senior electrical technician and electrical technician. Nadeem has extensive training in electrical systems, safety procedures, and maintenance. He seeks a challenging position where he can utilize his skills and experience.
Syed Abra Ul Haq is an electrical engineer with over 5 years of experience in the cement industry. He is currently working as an electrical engineer at Dalmia Cement responsible for electrical maintenance and the 132/11kV switchyard. He holds an M.Tech in Electrical Power Systems and has experience maintaining electrical equipment including transformers, switchgear, motors, VFDs, and more. He is seeking new opportunities as an electrical engineer or related role where he can utilize his skills in electrical planning, maintenance, and project management.
IRJET- Fitness Function as Trust Value using to Efficient Multipath Routi...IRJET Journal
This paper proposes an energy efficient multipath routing protocol for mobile ad hoc networks. The protocol considers transmission power and remaining energy of nodes as energy metrics to select energy efficient paths and extend network lifetime. It is implemented using the NS-2 simulator. Simulation results show that the proposed protocol increases network lifetime and performance compared to the conventional AOMDV routing protocol by reducing energy consumption of mobile nodes. Key contributions are using transmission power control and residual energy calculation to select paths, and modifying the AOMDV route discovery process to include these energy metrics in route selection.
A systematic approach to evaluating the influence of demand side management r...journalBEEI
Available transfer capability is an index to measure the security and economic viability of an interconnected system. However, to accurately determine this index, other associated parameters need to be accurately evaluated. One of these parameters is the capacity benefit margin (CBM). For efficient power generation reliability and sustainability, a certain amount of supply capacity is commonly reserved by utilities, which in most cases remain unused, to reduce the effect of generation outage. To minimize this unused reserve, utilities usually reserve a predetermined amount of tie-line capacity between interconnected areas to have access to external supply. This tie-line reserved for this purpose is termed as capacity benefit margin (CBM). In this paper a technique for computing CBM is used, the sensitivity of CBM support from other areas to the increase in load in one of the areas is investigated, and conclusively, demand side management is proposed to improve the quantification of CBM. The contribution of this work is the assessment of the CBMs support from other areas during a critical condition, using the flexibility of DSM technique. The modified 24-bus IEEE reliability test system is employed for the verification of the approach.
Syed Abra Ul Haq is an electrical engineer with over 5 years of experience in the cement industry. He is currently working as an electrical engineer at Dalmia Cement responsible for electrical maintenance and the 132/11kV switchyard. He has a Master's degree in Electrical Power Systems and is seeking new opportunities as an electrical engineer. He has experience planning, operating, and maintaining electrical systems including switchyards, motors, drives, and more at cement plants in India and Saudi Arabia.
This document proposes a tutorial on design issues and practical solutions for electric and hybrid electric vehicle propulsion systems. The tutorial will be split into three sessions covering: an introduction to EV/HEV propulsion systems; modeling, design, and control of advanced motor drives; and electric machine design issues and solutions. The introduction will cover vehicle power system architectures and efficiency modeling techniques. The second session will present advanced motor drive topologies, with case studies of an in-wheel direct drive system using PMSM and an SRM drive using FPGA control. The final session addresses electric machine design considerations and a case study comparing IPM, SRM, and IM machines for an HEV application.
Shabeer CP is an electrical engineer with over 4 years of experience as an Assistant Engineer at a 110 KV substation in Kerala, India. He holds a B.Tech in Electrical and Electronics Engineering from College of Engineering, Trivandrum and a Diploma in the same from SSM Polytechnic College. His experience includes maintenance of transformers and high voltage equipment, testing protection relays, and troubleshooting control panels. He also has technical skills in REVIT, AutoCAD, PLCs, SCADA, DCS, and has participated in leadership roles while in college.
The document discusses considerations for designing an embedded system to measure and estimate the state-of-charge (SOC) of an electric vehicle battery pack. It describes lithium-ion battery characteristics and sensors for measuring voltage, current, and temperature. It also provides an overview of current SOC estimation algorithms, including neural networks, multi-state techniques with Kalman filtering, and least squares support vector machines. Practical hardware and software issues for implementing such a system are also presented.
Security Constraint Unit Commitment Considering Line and Unit Contingencies-p...IJAPEJOURNAL
This summary provides the key details about the document in 3 sentences:
The document presents a new approach for security constrained unit commitment that considers both generator and transmission line contingencies using an incidence matrix methodology. It formulates the security constrained unit commitment problem and proposes modeling the optimal power flow using an incidence matrix to overcome challenges of admittance matrix based methods. The methodology allows easier modeling of multiple contingencies without changes to the network topology.
Mr. Supachai Manoonpatarachai is applying for the position of Maintenance Assistant Manager. He has 14 years of experience in maintenance, including 5 years as a maintenance leader. He is proficient in maintenance planning, preventative maintenance, automation systems, energy saving systems, and safety management. He holds a Bachelor's degree in Engineering Management and certifications in safety supervision, energy management, and leadership. Currently he is a Maintenance Supervisor at Kellogg Thailand, where he oversees maintenance technicians, budgets, and ensures regulatory compliance.
Jonathan Poblete is seeking a position utilizing his 15 years of experience in leadership, management, electrical, and technical skills. He has extensive experience installing, commissioning, troubleshooting, and maintaining low, medium, and high voltage electrical systems. His background includes work as a prime power production specialist, instrumentation specialist, HVAC technician, and generator mechanic in both the military and private sector. He has qualifications in project management, electrical testing, and relay protection and controls.
Optimum performance of tulkarim governorate networkslmnsvn
This document provides an introduction to the graduation project on optimizing the performance of Tulkarim Governorate network and Sarra Connection Point in Palestine. It discusses the objectives of connecting the two networks to the Sarra electricity converter station to improve voltage levels and reliability. It also covers load flow analysis methods that will be used like the Gauss-Seidel and Newton-Raphson methods to study the networks and detect problems. The document lists some IEC standards and defines terms like load buses, generator buses, and slack buses used in classifying buses in a power system model.
Irfan Rasheed is an Electrical Technician with 6 years of experience working for Engro Fertilizers Limited in Daharki, Pakistan. He has experience conducting preventative and corrective maintenance on generators, motors, switchgear, transformers, protection relays, batteries, UPS systems, and other electrical equipment. He is responsible for maintenance scheduling in SAP, completing PMs and CMs, record keeping, and planning projects and tasks. Some of his achievements include installing an intelligent load management scheme.
This document appears to be a seminar report submitted by Mr. Amey Kulkarni to Savitribai Phule Pune University. The report discusses induction motor protection systems. It includes an abstract, list of figures, tables, abbreviations, and 5 chapters. Chapter 1 provides an introduction and objectives of studying induction motor protection. Chapter 2 reviews literature on classical monitoring techniques for 3-phase induction motors and their limitations. Chapter 3 will discuss implementation of a protection system. Subsequent chapters will cover over/under voltage protection, single phasing protection, phase reversal protection, overheating protection, and components of an induction motor protection system. The report is submitted under the guidance of Prof. R.S. Tar
Power System Analysis is designed for senior undergraduate or graduates electrical engineering students studying power system analysis and design. The book gives readers a thorough understanding of the fundamental concepts of power system analysis and their applications to real-world problems.
This document describes a project to optimize the fuel consumption of a series electric hybrid vehicle over the New European Driving Cycle (NEDC) using different control strategies. A team of 4 master's students worked on various subsystems of the vehicle including the electrical machine, power electronics, battery, generator, internal combustion engine (ICE), and supervisor controller. The team developed Simulink models of each subsystem and integrated them to simulate different operating strategies over the NEDC cycle with the goal of minimizing fuel consumption. Key results showed how the state of charge and fuel consumption varied over the cycle depending on the initial and minimum SOC levels used in the control strategy.
K. Jeyakkannan is seeking a position that utilizes his 4+ years of experience in electrical engineering. He has worked on multiple power plant and substation projects, handling tasks like cable sizing calculations, equipment procurement, and layout design. He is proficient in AutoCAD and has a B.E. in Electrical and Electronics Engineering. His objective is to apply his technical skills efficiently in an organization and strive for excellence.
This document provides a summary of S.Yuvaraj's qualifications and work experience. It includes details of his educational background such as a M.E. in Power Electronics from Vels University and a B.E. in Electrical and Electronics Engineering from Sasurie College of Engineering. It also lists his professional experience in technical roles supporting power infrastructure for telecom companies such as ZTE Telecom India Pvt Ltd and MTS India Pvt Ltd over the past 10 years. Additionally, it outlines his areas of expertise in operations and maintenance, installation and commissioning, and team management.
1. This chapter provides an overview of setting up a basic DeviceNet network, including understanding the topology, media options, maximum distances, and how to terminate, supply power, and ground the network.
2. The key steps are to understand the trunk/drop line topology and cable options, determine the maximum trunk and cumulative drop line lengths allowed for the chosen data rate, and properly terminate the network at both ends.
3. Guidelines are provided for supplying power to the network within specifications and using a checklist to ensure proper installation.
This document provides a summary of Muhammad Rizwan's personal and professional details. It includes his contact information, education history, certifications earned, and over 10 years of experience in maintenance, production, and project management roles in industries like electrical equipment manufacturing and packaging. Some of his responsibilities have included leading maintenance departments, implementing preventative maintenance schedules, and reducing downtime and costs through strategic planning.
This document provides a summary of an individual's professional experience and qualifications. It includes details about their current role as an electrical instructor for Yemen LNG, previous engineering roles, education in electrical engineering, and relevant training and certifications. Their objective is to obtain a challenging job in LNG electrical training or engineering.
Muhammad Nadeem is an electrical operation and maintenance technician with over 14 years of experience. He is currently working as an electrical technician for OMV Exploration and Maurice Energy Ltd Pakistan. He has held previous positions as a senior electrical technician and electrical technician. Nadeem has extensive training in electrical systems, safety procedures, and maintenance. He seeks a challenging position where he can utilize his skills and experience.
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.
Akhilesh Kumar is seeking a position in electrical and electronics engineering where he can enhance his knowledge and problem-solving skills. He has a Bachelor of Technology degree in Electrical Engineering from Magadh University. His professional experience includes over 3 years of operation, maintenance, and control room work for telecom companies and industrial plants. He is proficient in software like MS Office and has technical skills in PLCs, SCADA, and automation systems.
This document contains personnel information and work history for Asad Ali Shah, including his contact information, qualifications, skills, and 12 years of experience working as an electrical supervisor on various projects in Pakistan, UAE, and Saudi Arabia. Shah has experience supervising installations, testing, and commissioning of electrical equipment such as substations, transformers, generators, and switchgear. He is proficient in English, Arabic, Urdu, and Pashto and has skills in areas like cable testing, electrical drawings, and maintenance/troubleshooting of low and high voltage systems.
Michael Grant Smith has over 24 years of experience as a Chief Electrical Technician at Sasol in South Africa. He has qualifications in Electrical Engineering and safety training. Throughout his career, he has held various roles testing electrical equipment, managing projects, and training junior staff. Currently, he is responsible for managing the cost, quality, resources, communications, risk, contracts, knowledge, and integration of various electrical renewal and capital projects.
Resume electrical engineer- for oil & gasvineeth ravi
Vineeth Ravi is an electrical engineer from India seeking a position that utilizes his qualifications and abilities. He has a Bachelor's degree in Electrical and Electronics Engineering from Anjuman Engineering College. His work experience includes over 7 years in electrical engineering roles in Oman and Singapore, working on oil rigs, vessels, and transmission systems. He has extensive safety training and software skills in PLC, SCADA, CADD, and various programming languages.
Although the probability of failures of electrical equipment such as switchgear, transformers, protection systems and ancillary equipment are low, the consequences of failure can be substantial. It is therefore vital to keep up the switchgear safe and reliable. This 2-day course is aimed at owners, operators and users of electrical switchgear in industrial and commercial organisations in both high and low voltage networks, plant and equipment. This training course will deal with the issues around design, maintaining and operating switchgear safe. It provides the latest UK industry practices and incorporates the very latest R&D work being undertaken by UK electricity utilities. It will help managers, engineers and others to understand their responsibilities and duties in the selection, use, operation and maintenance of high-voltage switchgear. Safety issues associated with switchgear and the non-invasive diagnostic techniques in use today will be fully discussed. Degradation processes are well determined with the latest monitoring techniques as well as typical failure modes in switchgear and other electrical equipment. By using historic performance information, failure data coupled to modern diagnostic information and simple but effective asset management techniques the risk of failure can be considerably reduced. The learning process is also aided by the use of practical advice and case examples.
This document provides a summary of an electrical engineer's professional profile. It includes contact information, objective, qualifications, and work experience. Specifically:
- The engineer has over 4 years of experience in cement and power plants and seeks a result-oriented position utilizing their skills.
- Educational qualifications include a Bachelor's in Electrical Engineering, diploma in Industrial Safety, and diploma in Electrical Engineering.
- Recent work experience was as an Electrical Engineer and Safety Officer at a cement company in Saudi Arabia, and previously as a Junior Engineer at a cement plant in India, where safety responsibilities included training, inspections, and reporting.
This document summarizes an executive exchange program organized by the U.S. Energy Association and funded by USAID. A delegation from various Kenyan electricity sector organizations, including KenGen, Kenya Power, Ketraco, and the Energy Regulatory Commission, visited several U.S. electricity providers to learn about integrating wind power and system operations best practices. The visits covered topics like operational challenges with intermittent resources, operations with wind generation, reliability standards, operator training, system frequency and voltage regulation, and protection systems.
This document is a resume for Michael S. Caliboso, a System Operations Engineer at Manila Electric Company in the Philippines. It summarizes his 13 years of experience in real-time monitoring and control of distribution and transmission grids utilizing SCADA and ADMS systems. It also outlines his duties related to outage management, planning, reporting, and training. His education, licenses, accomplishments, and references are also included to provide a full profile of his qualifications and experience.
Muhammad Asim is applying for positions in the organization that match his qualifications and experience. He has a bachelor's degree in electronics engineering and field experience in electrical and mechanical projects. His areas of expertise include testing and commissioning, instrumentation, BMS/BACS, DCS, and HMI. He is seeking a position as an electrical or BMS engineer where he can utilize his skills and contribute to organizational goals.
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.
Suhas Sharad Bhosale is an electrical engineer with over 2.5 years of experience working in energy and power management services. He is currently employed as an electrical engineer at Vision Power Factx in Mumbai. He has expertise in areas like energy audits, power quality analysis, fault analysis, and electrical installation and maintenance. He is proficient in software like ETAP and has experience working on projects and operations management as well as providing technical services to clients.
Mr. Suhas Bhosale is an electrical engineer with over 2.5 years of experience in energy and power management services. He currently works as an electrical engineer for Vision Power Factx in Mumbai. He has expertise in areas like energy audits, power quality analysis, fault analysis, and electrical installation and maintenance. He is proficient in software like ETAP and seeks a challenging role where he can utilize his technical skills and experience.
Sila Malak Zakher Boktor is a senior protection testing and commissioning engineer with experience working for Egyptian Electricity Transmission. She has over 20 years of experience testing high voltage equipment up to 500MVA, including transformers, circuit breakers, and numerical relays from manufacturers like Siemens, Areva, and ABB. She is seeking new opportunities that allow her to continue developing her technical skills and take on leadership roles.
Fadi Suwan is an electrical engineer currently working as a Facilities Coordinator for a university in Dubai. He has over 10 years of experience in facility management and electrical engineering. Suwan holds a Master's degree in Energy Engineering and is seeking new employment opportunities in electrical engineering or facility management. He has extensive experience coordinating operations and maintenance, supervising technicians, and managing various building systems. Suwan also has a background in green building design and energy efficiency projects.
Roshan Kumar Mishra is an electrical engineer with over 10 years of experience seeking a position in a reputable organization. He has extensive experience in electrical system design, project management, and maintenance across various industries. Some of his areas of expertise include electrical circuit design, power generation and distribution systems, industrial automation, and renewable energy. Mishra holds a B-Tech in electrical engineering and has worked as a senior electrical engineer for Energy International and an electrical engineer for CG Agro Products. He is proficient in AutoCAD, PLC programming, and Microsoft Office applications.
This engineering practice report summarizes Paul Soko's 12-week internship with Copperbelt Energy Corporation in their Emergency Power Department from January to April 2011. During his internship, Paul assisted with tasks like engine swaps, maintenance on gas turbine alternators, investigating faulty fire protection systems, and attending meetings. He gained experience working with instrumentation, reading diagrams, and using equipment like multimeters. The report provides background on Copperbelt Energy's role in providing emergency power and details several specific maintenance and troubleshooting tasks Paul assisted with during his placement.
Ramadan F. Ewaida is seeking a position utilizing his electrical engineering and project management knowledge. He has a Bachelor's degree in electrical engineering from the Islamic University of Gaza and is currently completing his Master's degree at King Saud University. His professional experience includes working as an electrical engineer for Saudi Binladen Group on the King Saud University for Health Sciences Project, where he was responsible for quality control and coordination of electrical, low current, and mechanical works across multiple buildings.
1. Sudanese Electricity Transmission Co. Ltd (SETCO) Mobile: 0123311933 9081182190
9 Gama’a Avenue P.O 1380 Khartoum Tel: +249123311933 +249912813249
E-mail: shrafsust@yahoo.com
Shraf eldin Sati Shampool Abdelgader
Real Time Transmission Engineer (Dispatcher- EMS/Operation Engineer)
SETCO, National Load Dispatch Centre (NLDC)
Personal Information
Date of Birth: 15/5/1990 Place of Birth: Aljazeera Nationality: Sudanese Religion: Muslim Military
Service: Completed Marital Status: single Languages: Arabic, English Passport No: P02075641
OBJECTIVE:
To obtain the opportunity of being employed in a position where my knowledge, skills, abilities, talents and potential capabilities will
be enhanced and utilized to build and develop a successful career in the field of my study.
SUMMARY:
Bachelor degree in Electrical Engineering (Power & Machines) with a First Class honors degree, In addition to my academic
qualifications, enhanced by Taking many profession courses and English Language Proficiency Certificate (IELTS Overall Band score
6.0) , I worked as a Teaching Assistant (Part-Time) for the full academic year 2012/2013 at Sudan University of Science and
Technology. And as of February 2013, I am working as a Real Time Transmission Operation Engineer (Dispatcher-
EMS/Operation Engineer) - for the Sudanese Electricity Transmission Company SETCO at National Load Dispatch Center.
Education:
2007 – 2012 Bachelor of Electrical Engineering – Power and Machines
Sudan University of Science and Technology – College of Engineering
Class of award: FIRST CLASS HONOUR (Excellent Grade 3.28/4.0)
Date of award: December 2012
Professional Experiences:
February 2013 ----- Till NOW
Real Time Transmission Operation Engineer (Dispatcher- EMS/Operation Engineer)
Sudanese Electricity Transmission Company (SETCO) National Load Dispatch Center, using real time control systems, SINAUT
Spectrum 4.4 by Siemens Company and Open3000 by Nari Tech China, to monitor and control power transmission system (From 33
KV up to 500 KV). Furthermore, I participated in restoration of two total blackouts and several partial blackouts apart from countless
small and large disturbances. My responsibilities are:
Maintaining Reliability of Power System.
Maintain sufficient spinning reserve (Largest Unit).
Control Power Flow to meet N-1 Criteria (sustain outage of an equipment).
Carry out switching operation according to safety procedure.
Blackout Restoration and Emergency Plan.
Action plan when generation Shortage (load shedding).
Responsible in the security of supply for transmission network up to 500KV.
To ensure safety of personnel and equipment at generation and transmission network.
Responsible in the economic operation at generation and transmission network.
2. Monitor and ensure continuous of electricity supply in the national network, within the prescribed values of limit violations, giving
priority to security and safety.
Regulate the voltage and frequency, and control active and reactive power flow in the network.
Direct generation output and reserve capacities at generating stations, and arrange busbar configurations according to system
demand, security and economically.
Directs the switching operations by giving instructions to field engineers in carrying –out switching the 500KV, 220KV, 110KV,
66KV, 33KV, and 11KV primary substations for maintenance and repair of network components, and for after fault restorations
conforming all operations done in strict compliance with department safety rules and regulations giving priority to safety and
security.
Carry-out load shedding in pre-arranged methods in case of generation shortage or other system contingency.
Supervision return of supply to the national network after interrupts and blackout cases.
Monitoring national grid operating condition of lines and equipment throughout SCADA system and make adjustments or direct
workers to make adjustments as conditions warrant using Network Application System NAS applications.
Calculate load estimates according to corrected weather and consumer- demand records while maintaining stability and economic
dispatch of the network using Energy Management System EMS applications.
Coordinate activities of personnel engaged in operating generating stations, substations, and lines.
Performs other related duties as needed upon request by the immediate supervisor.
Training Experiences:
Teaching Assistant (Part-Time) November 2012 ------ September 2013
Sudan University of science and Technology, College of engineering, school of electrical and nuclear engineering, my obligations are
tutoring, invigilating tests and exams, Grade homework assignments and exams, help students with homework, hold office hours to
interact with students, and leading student work in laboratories. Furthermore I have worked in different laboratories so I understand
deeply the practical and theoretical aspects of Power systems; I have learned some great teaching techniques from professors who have
been doing this job for years.
Electrical maintenance workplace at Thermal power station and Electrical Substations (500KV, 220KV, 110KV,
33KV, 11KV) (Duration 4 weeks)
Professional Courses:
Abroad professional courses:
i. 15 November - 26 November 2015
Power System Control: Automatic Generation Control (AGC), Power system reliability, Power System Simulator for Engineering
(PSSE application), Power System stability, Power Network application and Analysis, Real time (online) Operation policies, voltage
control, frequency control, parallel operation of transformers, blackout and islands restoration, short circuit fault and clearing, Unit
commitment and load forecast, economic dispatch, power systems reserve, Energy Management system (EMS) crises management,
SCADA, and communication systems and RTU.
Egyptian Electricity Holding Company, Egyptian Electricity Transmission Company, National Energy Control Center, Cairo,
Egypt
ii. 17 November - 29 November 2014
Power System Operation: Hydro and thermal power generations, Substations types and components, Smart grid, Protection schemes,
Reactive power management, Voltage and Frequency Control, HVDC, Energy Management system, Tariff philosophy and Transmission
line losses, and Power systems Operation, Reliability, Security, Stability and control.
National Power Training Institute, Power systems Training Institute, Bangalore, India
iii. 12 September – 19 September 2011
SCADA: Supervisory Control and Data Acquisition
Cairo University, High Technology Center HTC, Cairo, Egypt
3. Homeland professional courses:
1) 24 January - 28 January 2016
Power system analysis and applications: This course supports me to understand profoundly Energy Management System (EMS)
applications such as automatic generation control (AGC), Economic dispatch, reserve monitoring, production cost monitoring, load
forecasting methods, resource optimization, interchange transaction scheduling, and hydro-thermal coordination. Besides that I deeply
comprehend the network analysis (NA) applications - static and dynamic - for instance: network modeling, state estimator, dispatcher
power flow, contingency analysis, short circuit analysis, optimal power flow, available transmission capacity, network reduction,
NEPLAN software, fault analysis, load shedding, reliability and stability studies. Finally review the voltage and frequency control,
switching operation according to safety procedures, spinning reserve, blackout restoration and Dispatcher Training Simulator.
Sudanese Electricity Transmission Company, National Load Dispatch Centre, Operation Department, Khartoum, Sudan
2) 9 January - 17 January 2016
Low voltage switchgear: This course helps me to understand the concept of low voltage and medium voltage switchgear functions,
protections, and control. Moreover comprehend the switchgear components, features and short circuit breaking capacity of incomers,
bus section, feeders, contactors, relays, circuit breakers, fuses, and isolators. Furthermore be aware of main and backup protective relays
for transformers, feeders and motors. In addition recognize motor control circuit, automatic transfer switch, main and sub distribution
board. Finally realize the standard color code, numbers of control wires and fault level calculation.
Exemplar Center for Engineering Training and Career Development, Khartoum, Sudan
3) 11 October - 15 October 2015
Digital fault Analyzer: monitor brief and long incidents that occur in the power systems, check power system equipment performance
and behavior, reduce the down time of the power system restoration after failure by providing fast and accurate information, and examine
the actions of protection system during power system’s faults.
Sudanese Electricity Transmission Company, Instruments and control Department, Khartoum, Sudan
4) 29 August – 9 September 2015
Electrical Power Equipment Testing and Commissioning: This program helps me to understand the need for testing electrical
equipment, various types of high voltage equipment encountered in industries, types of tests performed, testing equipment used in these
tests and role of standards on testing. Moreover the program outlines are introduction to Electrical Equipment Testing and
Commissioning, Insulation Test Concept and Considerations, Routine tests, type or design tests, special tests, Factory Acceptance Test
FAT, Site Acceptance Test SAT, High Voltage Test, Transformer Testing, Current transformers and Voltage Transformers Testing,
Medium Voltage /High Voltage Circuit Breaker and Bus Bars System Tests, Power Cable Tests and site visit to a famous transformer
factory in Sudan to do practical tests in 11/0.415 KV transformer.
Exemplar Center for Engineering Training and Career Development, Khartoum, Sudan
5) 16 May 2015
Seminar on Power Quality Improvement (Reactive Power Compensation and Harmonics Filtering): basics and advantages of
Power Factor Correction (PFC), economics of PFC, penalty in Sudan according to PF, Schemes and selection of PFC capacitor, origin
and analysis of harmonics, problems caused by harmonics, effects of harmonics, Remedial measures for mitigating harmonics,
Comparison of various filtering systems and Customer benefits of harmonics mitigating.
Exemplar Center for Engineering Training and Career Development, Khartoum, Sudan
6) 17 January 2015
Seminar on Modern Power System Protective Relaying: power system faults, components of protection schemes, feeder protection,
bus protection, coordination management, transformer protection, high voltage transmission line protection, generator protection.
Exemplar Center for Engineering Training and Career Development, Khartoum, Sudan
7) 1st
November 2014
Seminar on Switchgear Technology and Electrical Power Substations: Establishing a solid understanding of switchgear components
and their specifications, provide valuable technical information on low and medium voltage switchgear equipment used in common
4. industrial, commercial and utility applications, Understanding of Transformer parallel operation and Develop a new knowledge in
electrical power equipment testing, types of tests, purpose of tests and testing techniques.
Exemplar Center for Engineering Training and Career Development, Khartoum, Sudan
8) 22 September- 29 September 2014
Protection of Transmission Networks: Power systems components, Substations, Current and Voltage Transformers, Relays, Circuit
breakers, (Bus bar, Generator, Transformer, Reactor, Transmission lines, Feeders) Protections.
Sudanese Electricity Transmission Company, Protection Department, Khartoum, Sudan
9) 13 February – 13 March 2013
AutoCAD 2D&3D: help to be sufficiently skilled in methods of producing drawing with the software to be able to go on to more
advanced constructions.
Abdelbari Center for Training and Technical Studies, Khartoum, Sudan
10) 15 January – 15 February 2012
Basic of IT: Microsoft Offices, Internet, Email
ZOALTECH Training and Human development Center, Khartoum, Sudan
Skills:
English language: Fluent (IELTS Certificate Overall Band Score 6.0)
Computer Skills:
o Very good command of Microsoft Windows and Office
o Basic of Linux Operating System
Working Skills:
Very skillful in essential tasks in control center, such as, switching, applying transmission and generation schedules, trouble
shootings & reporting.
Working with EMS applications (AGC, Economic Dispatch, Dispatcher Power Flow, Load forecast & Resource Optimization)
easily and with self-confidence.
Very skillful with focusing safety measures & control standards.
Skillful at and willing to delivering work experience to younger engineers.
Personality:
Persuasive demeanor, skilled at influencing the opinions & ideas of others and eventually convincing them.
Always looking to work beyond any expectations and deliver exceptional results.
Quick and enthusiastic as a learner—enjoy learning new skills and technologies.
Patient with determination and focusing in situations of high stress
References:
Mr. Haitham Ahmed Hashim Alhadeyah – Operation Department Manager – NLDC, Sudan +249123321376
Mr. Tarig Khalifa Gaffer – National Load Dispatch Center Manager – SETCO-Sudan +249123085857
Dr. Giddani Osman Addalan Kalcon – Assistant Professor – Sudan University of Science and Technology – College of
Engineering - School of Electrical and Nuclear Engineering , Sudan +249121077716