This 3-day workshop provides comprehensive guidelines for commissioning, testing, and maintenance of electrical systems. It covers topics such as the commissioning process, safety considerations, testing procedures for various electrical equipment including cables, motors, transformers, switchgear, and protective relays. Standards and real-world case studies are also discussed. The workshop is aimed at electrical professionals and aims to help participants gain expertise in ensuring electrical systems are properly tested and maintained to operate as intended.
This document provides a resume for Dr. Valentin Daniel Giurgiu, including his contact information, areas of expertise in power systems and mathematical modeling, education background, professional experience, research interests, publications, and references. It details his extensive experience in power engineering roles, research projects, and teaching positions in both academia and industry.
Swakshar Ray has over 15 years of experience in electrical engineering. He currently works as a scientist at ABB focusing on HVDC and FACTS systems. Previously he held research positions at GE and ABB researching topics like wide area control, power system modeling, and energy storage. He holds a PhD in electrical engineering from the University of Missouri with a focus on intelligent wide area control.
Adam Downey is an Application Engineer at Nolan Power Group specializing in designing DC and AC UPS systems for industrial, utility, and telecom sectors. He has over 7 years of experience as a U.S. Navy Nuclear-Trained Electrician and holds a BS in Electrical Engineering. His experience includes designing UPS systems, coordinating projects, creating load profiles, and providing technical support to clients.
Nedim Besirevic has over 10 years of experience as an Electrical Engineer, currently working as an Engineer II at Dominion Resources' North Anna Power Station. He holds a Bachelors of Science in Electrical Engineering from Virginia Polytechnic Institute and State University. His experience includes design changes, project management, licensing processes, and working on various plant systems and equipment modifications. He is proficient in engineering software, technical writing, and has received several honors and awards.
Adeel Shahbaz is seeking a position as an electrical engineer where he can gain diversified experience and continue professional growth. He has a B.Sc. in Electrical Engineering from the University of Engineering and Technology with a CGPA of 3.14. His final year project involved developing a high voltage DC power supply up to 32kv using techniques like push-pull and voltage multiplication. He has skills in programming, software, and areas of electrical engineering like power systems and power electronics.
The document summarizes the Electric Power Technical Interest Group at Georgia Tech, including its faculty, areas of research and education, research centers, courses offered, and examples of current research projects in electric machines and power electronics. The group has leading programs in power engineering and conducts research across various areas of power systems, power electronics, and electric machines.
This document advertises a two-day master class on advance power system relaying theory and application to be held on November 28th and 29th 2014 in Mumbai, India. The class will cover topics such as power system faults, protection schemes, relaying applications, and new technologies impacting protective relaying. It provides contact information for nominations and lists the course speakers' qualifications.
The article is a continuation of the authors' work in research, mainly experimental, asynchronous electric drives with frequency regulation (AED FR) of hoisting-and-transport mechanisms, in which for constructive, operational and other reasons it is difficult to install additional sensors, for example encoders. The results of the analysis of the dynamics of AED FR with two types of sensorless control: vector and scalar are presented in this article. The study was conducted by mathematical modeling in the Simulink application of the MatLab software using standard control system models. The processes of sequential acceleration of the engine to fixed speeds with overload and load shedding on each of them were simulated. At the same time, the speed and effective values of the flux linkages of the rotor and stator and the stator current were monitored, by which the dynamics and efficiency of each type of control were evaluated. As in experimental studies, the dynamic and efficiency of a more stable scalar control was significantly improved by the use of dynamic positive feedback on stator current.
This document provides a resume for Dr. Valentin Daniel Giurgiu, including his contact information, areas of expertise in power systems and mathematical modeling, education background, professional experience, research interests, publications, and references. It details his extensive experience in power engineering roles, research projects, and teaching positions in both academia and industry.
Swakshar Ray has over 15 years of experience in electrical engineering. He currently works as a scientist at ABB focusing on HVDC and FACTS systems. Previously he held research positions at GE and ABB researching topics like wide area control, power system modeling, and energy storage. He holds a PhD in electrical engineering from the University of Missouri with a focus on intelligent wide area control.
Adam Downey is an Application Engineer at Nolan Power Group specializing in designing DC and AC UPS systems for industrial, utility, and telecom sectors. He has over 7 years of experience as a U.S. Navy Nuclear-Trained Electrician and holds a BS in Electrical Engineering. His experience includes designing UPS systems, coordinating projects, creating load profiles, and providing technical support to clients.
Nedim Besirevic has over 10 years of experience as an Electrical Engineer, currently working as an Engineer II at Dominion Resources' North Anna Power Station. He holds a Bachelors of Science in Electrical Engineering from Virginia Polytechnic Institute and State University. His experience includes design changes, project management, licensing processes, and working on various plant systems and equipment modifications. He is proficient in engineering software, technical writing, and has received several honors and awards.
Adeel Shahbaz is seeking a position as an electrical engineer where he can gain diversified experience and continue professional growth. He has a B.Sc. in Electrical Engineering from the University of Engineering and Technology with a CGPA of 3.14. His final year project involved developing a high voltage DC power supply up to 32kv using techniques like push-pull and voltage multiplication. He has skills in programming, software, and areas of electrical engineering like power systems and power electronics.
The document summarizes the Electric Power Technical Interest Group at Georgia Tech, including its faculty, areas of research and education, research centers, courses offered, and examples of current research projects in electric machines and power electronics. The group has leading programs in power engineering and conducts research across various areas of power systems, power electronics, and electric machines.
This document advertises a two-day master class on advance power system relaying theory and application to be held on November 28th and 29th 2014 in Mumbai, India. The class will cover topics such as power system faults, protection schemes, relaying applications, and new technologies impacting protective relaying. It provides contact information for nominations and lists the course speakers' qualifications.
The article is a continuation of the authors' work in research, mainly experimental, asynchronous electric drives with frequency regulation (AED FR) of hoisting-and-transport mechanisms, in which for constructive, operational and other reasons it is difficult to install additional sensors, for example encoders. The results of the analysis of the dynamics of AED FR with two types of sensorless control: vector and scalar are presented in this article. The study was conducted by mathematical modeling in the Simulink application of the MatLab software using standard control system models. The processes of sequential acceleration of the engine to fixed speeds with overload and load shedding on each of them were simulated. At the same time, the speed and effective values of the flux linkages of the rotor and stator and the stator current were monitored, by which the dynamics and efficiency of each type of control were evaluated. As in experimental studies, the dynamic and efficiency of a more stable scalar control was significantly improved by the use of dynamic positive feedback on stator current.
Mohan Krishnan Gopal has extensive experience in electrical engineering, semiconductor devices, integrated circuits, optoelectronics, and spacecraft technology. He holds a PhD in electrical engineering from the University of Arizona with a focus on silicon-germanium quantum well MOSFETs. Some of his accomplishments include designing an optical slip ring, managing the design of a satellite launched by India, and establishing an EMI testing facility. Currently he is interested in silicon/silicon-germanium devices, integrated circuits, solar cells, and technical project management.
This document appears to be a resume for someone named Indranil Saaki. It includes sections about their name, address, career objective, educational background with degrees and percentages, assets, and dissertations completed. It also lists workshops attended and papers published. The document is written in multiple languages and contains some symbols, so it is difficult to fully understand.
Murugan Paramasivam is an electrical engineer with over 9 years of experience in thermal power plant projects, operations, and maintenance. He has expertise in commissioning large electrical equipment including generators up to 776.5 MVA and transformers up to 270 MVA. Murugan has managed electrical projects, operations, and maintenance at multiple thermal power plants with a total capacity of 1980 MW and 120 MW. He holds several industry certifications including Certified Energy Auditor and Manager. Murugan is seeking a position where he can utilize his skills in electrical projects, operations, maintenance, and energy management.
Thomas Brady's Electrical Engineering ResumeThomas Brady
Completed Specialized classes such as Modern Communications, Digital Communications, Semi Conductor Materials, Nanotechnology, and Power.
Successfully built a rapidly built medical grade prototype.
IRJET- Microgrid State of Charge Sharing and Reactive Power ControlIRJET Journal
This document proposes a control system for a standalone photovoltaic (PV) powered microgrid using a battery energy storage system (BESS) and fuzzy logic control. The system aims to smooth fluctuations from the PV generation and regulate the state of charge (SOC) of the batteries. A segmented energy storage approach is used, with two or more batteries that can be charged individually. This allows for wasted PV power to be stored when one battery reaches full charge. The system includes a PV array, BESS, DC/DC converter, and inverter to provide a pure sine wave output. A fuzzy logic control method is implemented to efficiently control the SOC of the batteries under different operating conditions. Simulations are conducted to analyze the performance
Rajan Parulkar is an Executive Engineer with over 30 years of experience in testing, commissioning, and troubleshooting of high voltage direct current (HVDC) and high voltage alternating current (HVAC) systems. He holds a B.E. in Electrical Engineering and has worked on various HVDC and HVAC projects throughout his career. Some of his key responsibilities have included testing and maintenance of converter transformers, filters, thyristor valves, and AC and DC control and protection systems. He has also presented technical papers at international conferences and participated in seminars on topics related to HVDC systems.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning new installations upon completion and existing installations after major alterations. The objectives are to verify proper functioning of equipment/systems and that performance meets the design intent through a series of tests and adjustments. The scope includes preliminary inspections during construction, statutory inspections and tests, functional performance tests, documentation, and energization procedures. Specific testing procedures are provided for low voltage, high voltage, lighting, and other systems.
This document provides a summary of the qualifications and experience of Del J. Ventruella as an electrical engineer with over a decade of experience in power system simulation, design, and management. He has extensive experience performing engineering studies, developing software, publishing papers, and teaching. He is a senior member of the Institute of Electrical and Electronics Engineers and has held engineering roles for various companies, most recently as an adjunct professor and energy engineer.
This 3-day electrical exam preparation course provides 32 hours of classroom instruction to help students pass the PSI electrical licensing exam. The course covers topics including basic electrical theory, circuits, the National Electrical Code, mathematical formulas, motor and transformer calculations, advanced code calculations for dwellings, multifamily units, commercial buildings, and solar PV systems. Registration costs $400, with $350 due on the first day of class. The course does not guarantee passing the exam but is intended to provide additional knowledge and practice exams to help students gain proficiency in NEC calculations.
Jawed Ali is an electrical engineer seeking a position to utilize his knowledge and skills. He has a Bachelor's degree in Electrical Power Systems from Mehran University. He has over 7 years of experience working as a Project Engineer and Trainee Engineer on various electrical installation and commissioning projects. His experience includes substation design, transmission and distribution systems, generators, circuit breakers, and implementing industry standards. He has specialized skills in testing and commissioning, protection design, and maintenance of power systems.
This document is a resume for Saravanan Muthukumaraswamy summarizing his professional experience and qualifications. Over 7 years he has worked on testing and commissioning projects for substations, transmission lines, and power plants in India and the Middle East. His experience includes testing protection systems and equipment, planning maintenance schedules, and managing project teams. He currently works as a senior testing and commissioning engineer in Dubai.
This document provides an overview of the commissioning process for writing for television and video. It discusses various job roles in the industry such as commissioning editors, executive producers, film producers, directors, and writers. It also covers commissioning bodies, the role of the writer, becoming a writer including getting an agent and royalty payments, presenting a professional script, time management, and legal and ethical considerations like copyright, censorship, watershed rules, and plagiarism.
Khao Lam is a Thai dessert made of sticky rice, sugar, coconut cream, and sometimes black beans or sesame seeds, wrapped in bamboo tubes and roasted. The ingredients are mixed together and stuffed into cleaned bamboo cylinders. The cylinders are then wrapped in coconut husks and roasted over charcoal for 35-40 minutes. The roasted Khao Lam can be eaten hot straight from the bamboo or refrigerated and eaten cold later.
This document provides contact information for Susan Prabulos and Jason Rushing and lists several free and paid educational websites, web apps, and mobile apps. Some of the resources listed include Google Classroom, Code.org, Kahoot, Scratch Jr., and augmented reality apps related to NASA, anatomy, and Disney nature. Most of the resources listed are free to use.
BE-ELECTRICAL SENIOR TESTING AND COMMISSIONING ENGINEERGanesan Raja
I HAVE SUCCESSFULLY TESTING AND COMMISSIONED 415 V TO 765KV SYSTEM OF SUBSTATION AND GENERATION POWER PLANTS,CEMENT PLANTS INCLUDING GAS INSULATION SUBSTATION
This document discusses different types of directional over current relays. It explains that directional over current relays operate when fault current flows in a particular direction and will not operate if power flows in the opposite direction. It provides details on 30 and 90 degree connections for directional relays and describes the construction and operation of non-directional over current relays and shaded pole type directional over current relays.
Created by Mohan K M, Ganesh C, Yerriswamy
Technology used: Microsoft power point, Excel, Multisim, Proteus, AutoCAD, Solid edge, Arduino.
As a final year project in PESIT Bangalore
The SIPROTEC 7SA522 relay provides full-scheme distance protection for transmission lines with various protection functions:
- Distance protection with 6 measuring systems using mho and quadrilateral characteristics for phase and ground faults.
- Additional functions include overcurrent, power swing, under/over voltage, auto-reclosing, breaker failure protection.
- It has communication interfaces for protection data exchange and integration into a control system via protocols like IEC 60870-5-103, PROFIBUS, DNP 3.0, Ethernet.
- The relay is suitable for cables and overhead lines with features like high-speed tripping, self-setting power swing detection, and adaptive auto-rec
The document discusses relay coordination and fault calculation. It describes how proper coordination of relay settings is important for system reliability and selectivity. The author presents different coordination techniques, such as current graded, time graded, and both current and time graded. Fault calculation methods including per unit and MVA methods are demonstrated through examples. Software features for graphical modeling, calculation, curve plotting, and setting sheets are overviewed to enable coordination studies.
Mohan Krishnan Gopal has extensive experience in electrical engineering, semiconductor devices, integrated circuits, optoelectronics, and spacecraft technology. He holds a PhD in electrical engineering from the University of Arizona with a focus on silicon-germanium quantum well MOSFETs. Some of his accomplishments include designing an optical slip ring, managing the design of a satellite launched by India, and establishing an EMI testing facility. Currently he is interested in silicon/silicon-germanium devices, integrated circuits, solar cells, and technical project management.
This document appears to be a resume for someone named Indranil Saaki. It includes sections about their name, address, career objective, educational background with degrees and percentages, assets, and dissertations completed. It also lists workshops attended and papers published. The document is written in multiple languages and contains some symbols, so it is difficult to fully understand.
Murugan Paramasivam is an electrical engineer with over 9 years of experience in thermal power plant projects, operations, and maintenance. He has expertise in commissioning large electrical equipment including generators up to 776.5 MVA and transformers up to 270 MVA. Murugan has managed electrical projects, operations, and maintenance at multiple thermal power plants with a total capacity of 1980 MW and 120 MW. He holds several industry certifications including Certified Energy Auditor and Manager. Murugan is seeking a position where he can utilize his skills in electrical projects, operations, maintenance, and energy management.
Thomas Brady's Electrical Engineering ResumeThomas Brady
Completed Specialized classes such as Modern Communications, Digital Communications, Semi Conductor Materials, Nanotechnology, and Power.
Successfully built a rapidly built medical grade prototype.
IRJET- Microgrid State of Charge Sharing and Reactive Power ControlIRJET Journal
This document proposes a control system for a standalone photovoltaic (PV) powered microgrid using a battery energy storage system (BESS) and fuzzy logic control. The system aims to smooth fluctuations from the PV generation and regulate the state of charge (SOC) of the batteries. A segmented energy storage approach is used, with two or more batteries that can be charged individually. This allows for wasted PV power to be stored when one battery reaches full charge. The system includes a PV array, BESS, DC/DC converter, and inverter to provide a pure sine wave output. A fuzzy logic control method is implemented to efficiently control the SOC of the batteries under different operating conditions. Simulations are conducted to analyze the performance
Rajan Parulkar is an Executive Engineer with over 30 years of experience in testing, commissioning, and troubleshooting of high voltage direct current (HVDC) and high voltage alternating current (HVAC) systems. He holds a B.E. in Electrical Engineering and has worked on various HVDC and HVAC projects throughout his career. Some of his key responsibilities have included testing and maintenance of converter transformers, filters, thyristor valves, and AC and DC control and protection systems. He has also presented technical papers at international conferences and participated in seminars on topics related to HVDC systems.
This document provides testing and commissioning procedures for electrical installations in government buildings in Hong Kong. It outlines the objectives, scope, and specific procedures for testing and commissioning new installations upon completion and existing installations after major alterations. The objectives are to verify proper functioning of equipment/systems and that performance meets the design intent through a series of tests and adjustments. The scope includes preliminary inspections during construction, statutory inspections and tests, functional performance tests, documentation, and energization procedures. Specific testing procedures are provided for low voltage, high voltage, lighting, and other systems.
This document provides a summary of the qualifications and experience of Del J. Ventruella as an electrical engineer with over a decade of experience in power system simulation, design, and management. He has extensive experience performing engineering studies, developing software, publishing papers, and teaching. He is a senior member of the Institute of Electrical and Electronics Engineers and has held engineering roles for various companies, most recently as an adjunct professor and energy engineer.
This 3-day electrical exam preparation course provides 32 hours of classroom instruction to help students pass the PSI electrical licensing exam. The course covers topics including basic electrical theory, circuits, the National Electrical Code, mathematical formulas, motor and transformer calculations, advanced code calculations for dwellings, multifamily units, commercial buildings, and solar PV systems. Registration costs $400, with $350 due on the first day of class. The course does not guarantee passing the exam but is intended to provide additional knowledge and practice exams to help students gain proficiency in NEC calculations.
Jawed Ali is an electrical engineer seeking a position to utilize his knowledge and skills. He has a Bachelor's degree in Electrical Power Systems from Mehran University. He has over 7 years of experience working as a Project Engineer and Trainee Engineer on various electrical installation and commissioning projects. His experience includes substation design, transmission and distribution systems, generators, circuit breakers, and implementing industry standards. He has specialized skills in testing and commissioning, protection design, and maintenance of power systems.
This document is a resume for Saravanan Muthukumaraswamy summarizing his professional experience and qualifications. Over 7 years he has worked on testing and commissioning projects for substations, transmission lines, and power plants in India and the Middle East. His experience includes testing protection systems and equipment, planning maintenance schedules, and managing project teams. He currently works as a senior testing and commissioning engineer in Dubai.
This document provides an overview of the commissioning process for writing for television and video. It discusses various job roles in the industry such as commissioning editors, executive producers, film producers, directors, and writers. It also covers commissioning bodies, the role of the writer, becoming a writer including getting an agent and royalty payments, presenting a professional script, time management, and legal and ethical considerations like copyright, censorship, watershed rules, and plagiarism.
Khao Lam is a Thai dessert made of sticky rice, sugar, coconut cream, and sometimes black beans or sesame seeds, wrapped in bamboo tubes and roasted. The ingredients are mixed together and stuffed into cleaned bamboo cylinders. The cylinders are then wrapped in coconut husks and roasted over charcoal for 35-40 minutes. The roasted Khao Lam can be eaten hot straight from the bamboo or refrigerated and eaten cold later.
This document provides contact information for Susan Prabulos and Jason Rushing and lists several free and paid educational websites, web apps, and mobile apps. Some of the resources listed include Google Classroom, Code.org, Kahoot, Scratch Jr., and augmented reality apps related to NASA, anatomy, and Disney nature. Most of the resources listed are free to use.
BE-ELECTRICAL SENIOR TESTING AND COMMISSIONING ENGINEERGanesan Raja
I HAVE SUCCESSFULLY TESTING AND COMMISSIONED 415 V TO 765KV SYSTEM OF SUBSTATION AND GENERATION POWER PLANTS,CEMENT PLANTS INCLUDING GAS INSULATION SUBSTATION
This document discusses different types of directional over current relays. It explains that directional over current relays operate when fault current flows in a particular direction and will not operate if power flows in the opposite direction. It provides details on 30 and 90 degree connections for directional relays and describes the construction and operation of non-directional over current relays and shaded pole type directional over current relays.
Created by Mohan K M, Ganesh C, Yerriswamy
Technology used: Microsoft power point, Excel, Multisim, Proteus, AutoCAD, Solid edge, Arduino.
As a final year project in PESIT Bangalore
The SIPROTEC 7SA522 relay provides full-scheme distance protection for transmission lines with various protection functions:
- Distance protection with 6 measuring systems using mho and quadrilateral characteristics for phase and ground faults.
- Additional functions include overcurrent, power swing, under/over voltage, auto-reclosing, breaker failure protection.
- It has communication interfaces for protection data exchange and integration into a control system via protocols like IEC 60870-5-103, PROFIBUS, DNP 3.0, Ethernet.
- The relay is suitable for cables and overhead lines with features like high-speed tripping, self-setting power swing detection, and adaptive auto-rec
The document discusses relay coordination and fault calculation. It describes how proper coordination of relay settings is important for system reliability and selectivity. The author presents different coordination techniques, such as current graded, time graded, and both current and time graded. Fault calculation methods including per unit and MVA methods are demonstrated through examples. Software features for graphical modeling, calculation, curve plotting, and setting sheets are overviewed to enable coordination studies.
Protection of transmission lines(encrypted)Rohini Haridas
This document discusses protection methods for transmission lines. It describes:
1. Transmission lines require more protective schemes than other equipment due to their long lengths and exposure, making faults more common.
2. Key methods of transmission line protection include time-graded overcurrent protection, differential protection, current-graded overcurrent protection, and distance protection.
3. Distance protection uses impedance relays that can discriminate between faults along the line and those near the end, providing more selective operation than overcurrent protection alone. It describes implementations using simple impedance, reactance, and mho relays.
Busbar protection uses differential protection to isolate faults on the busbar. It works by comparing the current entering and leaving the busbar using CTs - any difference indicates an internal fault. Proper CT ratios and a stabilizing resistance are needed to restrain operation for external faults. PS class CTs are preferred over other classes due to more consistent accuracy. While busbar protection is important, it is currently not implemented in line at MRSS due to some unspecified reason.
ASHIDA has a wide range of Feeder Protection Relays.
The Relays are available in Modular as well.
ASHIDA Directional & Non-Directional Relays are protecting the Feeders in substation across the world.
This document provides an overview of electrical maintenance, including definitions, types (preventive, operational, corrective), and examples of tasks. It discusses preventive maintenance strategies like reliability centered maintenance and scheduled inspection/testing of critical components. Specific preventive maintenance techniques are covered for both low and high voltage equipment, including infrared analysis, ultrasound leak detection, transformer oil testing, and polarization index testing. Operational maintenance is defined as care performed by operators during equipment use, while corrective maintenance focuses on repair after breakdown. Modern maintenance software programs are also noted.
protection of transmission lines[distance relay protection scheme]moiz89
The document discusses various aspects of transmission line protection including classification of transmission lines, types of faults, protection schemes, requirements of distance protection, over current protection, phase comparison protection, and distance protection schemes. It also covers autoreclose philosophy, power swings, fuse failure function, and other protection functions.
Relays sense abnormal voltage and current conditions and send signals to circuit breakers to isolate faulty parts of a power system. Electromagnetic induction relays use eddy currents produced in a disc to generate torque. There are different types of overcurrent and directional relays. Distance relays use impedance, reactance, or mho principles. Transformer and feeder protection uses overcurrent, distance, or pilot wire schemes. Circuit breakers use oil, air, sulfur hexafluoride, or vacuum to extinguish arcs and open faulty circuits. Instrument transformers reduce high voltages and currents to safer, measurable levels for meters and relays.
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.
Course Overview
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.
Course 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
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.
Dipti Ranjan Rout is an electrical engineer with 5 years of experience working at Essar Steel India Ltd. He has experience in design, engineering, installation, testing, commissioning, operation and maintenance of electrical equipment. He currently works as a Deputy Manager in the DRI plant, overseeing maintenance of transformers, motors, switchgears, drives, and other electrical systems. Rout has experience with high voltage equipment including 33kV and 11kV switchgear. He also has experience with engineering design, material procurement, safety practices, and quality management systems.
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
Testing & Commissioning Engineer | Power Supply Tech. | Traction Rail Power |...Sanil Balakrishnan
This curriculum vitae summarizes Sanil Balakrishnan's experience and qualifications. He has over 8 years of experience in electrical testing, commissioning, and maintenance of power systems up to the 33kV level. Currently, he works as a Power Supply Technician for ALSTOM in Dubai, maintaining the power supply systems for the Dubai Metro. He has a Bachelor's degree in Electrical Engineering and is proficient in testing various electrical equipment including transformers, switchgear, motors, and cables.
This document provides a summary of Shaik Irfan Vali's qualifications and experience as a site engineer specializing in electrical engineering. He has over 5 years of experience commissioning and maintaining solar power plants up to 11MW in size. He is proficient in testing and commissioning various electrical equipment including switchgear, transformers, cables, and protective relays. He seeks a career applying his expertise in electrical installations, maintenance, and industrial projects.
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.
This document contains the resume of Nolibert B. Eligan, who is applying for the position of Electrical & Instrument / Startup Commissioning. It summarizes his professional experience in control and instrumentation, commissioning, and maintenance across various industries including power plants, oil and gas, and water treatment. It also lists his education and training qualifications.
This document discusses procedures for locating cable faults and types of cable testing. It describes why cable testing is important to determine the condition of power cables and systems. The main types of cable testing discussed are high voltage DC withstand testing, partial discharge testing using acoustic equipment, and dielectric response testing measuring factors like dissipation factor, DC leakage current, and recovery voltage. The document also outlines procedures for locating cable faults, including fault indication, insulation testing, cable route tracing, and precise fault location. Various cable testing methods and their purposes are explained.
This document discusses power transformer diagnostics and condition monitoring. It provides background on TIFAC CORE (Technology Information Forecasting and Assessment Council Centre of Relevance and Excellence) and describes the research areas, objectives, and major facilities of the NIT Hamirpur TIFAC-CORE center in power transformer diagnostics. Some key statistics on transformer failures are presented, such as 41% being due to on-load tap changers. The document also provides information on transformer health indices and factors that impact breakdown voltages in gases.
The document discusses power quality standards. It explains that power quality used to be defined simply as reliability, but two changes - more sensitive customer equipment and interconnected systems - have increased concerns about other power quality issues like transients, sags, swells, and harmonics. Standards development organizations are working to establish standards to address these issues, including the IEC, IEEE, ANSI and others. The document reviews some existing and developing standards that relate to steady state voltage, harmonics, transients and other power quality topics.
This document contains the resume of Jeevan.Kannadasan which details his professional experience, qualifications, and personal details. It outlines his past roles as an electrical engineer for various companies where he was responsible for testing, commissioning, maintenance and installation of electrical equipment. It also lists his educational qualifications which include a B.E in Electrical and Electronics Engineering and a Diploma in Electrical and Electronics Engineering.
A Review On Power Quality Issues and StandardsIRJET Journal
This document reviews power quality issues, standards, and the evaluation process. It discusses common power quality problems like voltage sags, interruptions, harmonics, and imbalances. The evaluation process involves identifying, measuring, analyzing, and selecting solutions to power quality problems. Relevant IEEE standards for limits on harmonics, grounding practices, and other topics are also summarized. Maintaining good power quality is important for economic reasons, as quality issues can impact equipment and business operations.
Amandeep Singh Bhullar is seeking challenging assignments in operations, maintenance, and project management for thermal power generation and petrochemical industries. He has over 10 years of experience managing maintenance operations and reducing downtime of electrical equipment. He is experienced in commissioning, testing, and preventative maintenance of equipment including generators, air circuit breakers, transformers, and numerical relays. Bhullar holds a diploma in electrical engineering and is proficient in electrical drawings, circuitry, and protection parameters.
Cuauhtémoc Ortiz C. has over 15 years of experience as a senior electrical test engineer performing routine and specialized electrical testing on power transformers up to 420 MVA and 400 kV according to various industry standards. He has held leadership roles commissioning and managing medium and large power test laboratories. His responsibilities include performing electrical testing, reviewing specifications, preparing test plans, managing personnel, ensuring quality, and providing training. He also supports distribution testing, troubleshooting electrical systems, and additional specialized testing techniques.
Sathis T N is a senior QA/QC engineer with over 6 years of experience in testing and commissioning of power systems. He has extensive experience testing and commissioning equipment such as circuit breakers, transformers, motors and numerical protection relays. He has worked on projects in India and overseas in Saudi Arabia and is proficient in testing and commissioning a wide range of equipment from various manufacturers including ABB, Siemens, and Areva.
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 an overview of the Central Power Research Institute (CPRI) in India. It describes CPRI's mission, value, and attitude. It also lists CPRI's departments and provides more detail on the Centre for Collaborative and Advanced Research, Diagnostics Cable & Capacitor Division, Dielectric Materials Division, and High Power Laboratories. CPRI functions as the power house of the Indian electrical industry, conducting applied research to assist industry and ensure reliability, economy, and quality in power systems. It employs over 300 engineers and scientists across various departments focused on research, testing, and certification of power equipment.
This document provides information about the fourth edition of the textbook "Electric Machinery Fundamentals" by Stephen J. Chapman. It includes details about the author's background and qualifications. The book is dedicated to the author's mother and contains brief contents, table of contents, and information about the publisher. It provides a high-level overview of the textbook's coverage of fundamental principles of electric machinery, transformers, power electronics, AC and DC machines.
Similar to Commissioning Testing And Maintenance (M'sia) - Arifin (20)
Commissioning Testing And Maintenance (M'sia) - Arifin
1. COMMISSIONING, TESTING, ANDCOMMISSIONING, TESTING, AND
MAINTENANCE OF ELECTRICAL SYSTEMSMAINTENANCE OF ELECTRICAL SYSTEMS
COMMISSIONING, TESTING, ANDCOMMISSIONING, TESTING, AND
MAINTENANCE OF ELECTRICAL SYSTEMSMAINTENANCE OF ELECTRICAL SYSTEMS
UNI training courses are thoroughly researched and carefully structured to provide practical and
exclusive training applicable to your organisation.
Benefits include:
• Thorough and customised programmes to address current market concerns
• Illustrations of real life case studies
• Comprehensive course documentation
• Strictly limited numbers
Master principles of accomplishing a successful commissioning and start up including testing
and subsequent maintenance of the electrical system
28th - 30th January, 2015 • Kuala Lumpur, Malaysia
Proudly Organised by:
Course Facilitator:
Professor Mohamed E. El-Hawary
Professor of Electrical and Computer
Engineering & Dean and Director of
International and External Relations,
Faculty of Engineering, Dalhousie
University, Canada
• More than 40 years of experience in
electrical engineering
• Former president of Canadian Society for
Electrical Engineering
• Former president of IEEE Canada
• Distinguished lecturer for the IEEE Industry
Applications and Power Engineering
Societies, and IEEE Canada
• Awards and Recognition
- Distinguished Lecturer: IEEE Power and
Energy Engineering Society
- Recipient IEEE Canada W. S. Read
Service Award, 2010
- Engineering Institute of Canada, Julian
C. Smith Medal for 2001 in recognition of
Technical leadership and contributions to
Electrical and Computer Engineering
- Institute of Electrical and Electronics
Engineers, (IEEE) Canada General A.G.L.
McNaughton 1999 Gold Medalist, “for
sustained technical contributions and
leadership in power engineering research
and education, and service to IEEE at the
national and international level”
- Recipient of the Izaak Walton Killam
Memorial Fellowship, University of
Alberta, 1970-72
Capitalise on expert knowledge to gain maximum
value on these vital issues
APPLY and GAIN an in depth knowledge on electric & control system commissioning,
testing & maintenance
MASTER the electrical theory and test requirements
DEFINE component testing procedures and explain tests for major components of electrical
& control system
IDENTIFY the commissioning of generators, motors, Variable Frequency Drives (VFDS),
Variable Speed Drives Constant Frequency (VSCF), transformers, switchgear, cables,
battery system/UPS, protective relay systems, electrical distributed control system, power
management system & control systems
DISCUSS standards and specifications such as NEC, ANSI / IEEE standards
LEARN the principles and testing techniques of AC and DC machines
EXPLORE good industry practices in performing the tests
EXAMINE safe maintenance policies including safe working in switch rooms, indoor and
outdoor substations
Author of eleven textbooks on Electric Power System Analysis and
Design, Principles of Electric machines and Power Electronics
Optimal Economic Operation of Electric Power Systems, New York , Academic Press, 1979
Electric Power system Design and Analysis, Englewood Cliffs, N.J., Prentice-Hall ( Reston ),
1983
Control Systems Engineering, Englewood Cliffs, NJ, Prentice-Hall ( Reston ), 1984
Principles of Electric Machines with Power Electronic Applications, Englewood Cliffs , N.J.,
Prentice-Hall (Reston), 1986
Applications of Optimal Control in Electric Power Systems, New York , Plenum Press, 1987
Electric Power system Design and Analysis, Revised Edition, IEEE Press, 1995
Fuzzy Power System Applications, IEEE Press, 1998
Electric Power System Dynamics and Stability with Artificial Intelligence Applications, Marcel
Dekker, 2000
Electrical Energy Systems, CRC Press, 2000
Principles of Electric Machines and Power Electronics, Wiley-IEEE Press, 2002
Introduction to Electrical Power Systems, Wiley-IEEE Press, November 2008
Partial list of journals
“Optimal Capacitor Placement and Sizing in Unbalanced Distribution Systems With Harmonics
Consideration Using Particle Swarm Optimization” IEEE Transactions on Power Delivery
Volume: 25, Issue: 3 pp. 1734 - 1741 2010
“Novel power quality indices based on wavelet packet transform for non-stationary sinusoidal
and non-sinusoidal disturbances, Electric Power Systems Research, Volume 80, Issue 7, pp.
753-759, July 2010
“Optimization MethodsApplied for Solving the Short-Term Hydrothermal Coordination Problem”
Electric Power Systems Research Volume 79, Issue 9, pp. 1308-1320 September 2009
“Wavelet Packet Transform Based Power Quality Indices for Balanced and Unbalanced Three-
Phase Systems under Stationary or Non-stationary Operating Conditions” IEEE Transactions
on; Vol. 24, No.4, pp. 2300 – 2310, Oct. 2009
“A new reactive, distortion and non-active power measurement method for non-stationary
waveforms using wavelet packet transform” Electric Power Systems Research, Volume 79,
No. 10, pp.1408-1415, October 2009.
2. Workshop Overview
Participants in this course will be offered comprehensive and
crucial guidelines to understanding elements and procedures
involved in the commissioning and start up of electrical
apparatus and systems involved in major industrial and
commercial projects. The course addresses the special problems
that may be encountered in the starting up of any electrical
system regardless of size, type or industry. Fundamental to the
commissioning task is the significant effort required to test each
individual apparatus to ensure its proper functioning and its ability
to offer service continuity under the specific operating conditions
required by the industrial environment. A good deal of time will be
spent discussing practical aspects of testing major equipment
such as cables, motors, transformers and switchgear. The
course will highlight testing procedures, standard testing
frequencies, what to expect in the results of testing and
remedial actions. The importance of maintenance to maintain
design life expectancy can not be overemphasized and the course
will offer details of philosophies underlying maintenance practices.
In addition, it will deal with safety considerations and testing and
start-up procedures for all the components of any electrical
system. Furthermore, the course will provide useful guidelines on
what to do when things go wrong during this phase of a project.
DAY 1 | 28th January 2015
Agenda
DAY 2 | 29th January 2015
THE COMMISSIONING PROCESS
Organizational aspects
Roles and responsibilities of the commissioning teams
Test phases
THEORETICAL UNDERPINNINGS OF EQUIPMENT TESTING
DC and AC Circuits
Dielectric theory
Desired and undesired power factors
Dielectric losses
Insulation failure modes
DC TESTING METHODOLOGIES
Equivalent circuits of insulation specimens
Leakage current components
Polarization
Insulation and high pot testing
Polarization indices
What is a good insulation resistance?
AC TESTING METHODOLOGIES
Power factor and dissipation factor
AC high potential tests
One-tenth hertz frequency
AC series resonant tests
Induced voltage tests
CASE STUDIES I
In this segment participants will consider some cases where
fatalities were caused by not adhering to safety rules and
regulations while working with overhead-lines.
AC OR DC TESTING?
Advantages and disadvantages of DC and AC testing
FACTORY, FIELD ACCEPTANCE, AND MAINTENANCE TESTING
How far does each test have to go?
To test or not to test?
SAFETY AND ARC FLASH CONSIDERATIONS
Safe electric current levels
Safety practices
Work area control
Arc flash hazards
Preventive measures
CABLE TESTING
Insulation Resistance Measurement Test
Insulation resistance values
DC over-potential test
Corona and its suppression
ICEA and IEEE Standards
Voltage versus leakage current
Leakage current versus time test
Ac power factor test
CABLE COMMISSIONING AND START-UP
Cable Commissioning and start-up
Receiving, Handling Prior to Installation, Storage, preliminary
tests, Installation, Connections
MOTOR TESTING
Insulation Resistance and Dielectric Absorption Tests
Stator and rotor tests
DC over-potential test
Voltage versus leakage current
Leakage current versus time test
Ac power factor test
Dissipation factor tip-up test
Voltage surge comparison test
MOTOR COMMISSIONING AND START-UP
Motor Commissioning and start-up
Receiving, Handling Prior to Installation, Storage, preliminary
tests, Installation, Connections
MOTOR PERFORMANCE TESTING
Determination of efficiency
Test Method A—Input-output
Test Method B—Input-output with loss segregation
Test Method C—Duplicate machines
Test Method E or E1—Electrical power measurement with
loss segregation
Test Method F or F1—Equivalent circuit
Test Method C/F, E/F, or E1/F1—Equivalent circuit calibrated
with one load point
Power factor, Rotor voltage, Locked-rotor tests, Tests for
speed-torque and speed-current curves, Correction of data
for speed-torque, speed-current, and locked-rotor tests run
at reduced voltage
CASE STUDIES II
In this segment the group considers collectively real-life cases
and consequences of overlooking simple safety rules while using
Articulated boom-supported elevated aerial work platform.
TESTING, DIAGNOSTICS, AND COMMON PROBLEMS OF
VARIABLE SPEED DRIVES
Overheating, Dust and Dirt, Moisture, corrosion
3. Agenda
TRANSFORMER TESTING
Insulation resistance tests
ac or dc high-potential (ac or dc hi-pot) test (optional)
Insulation power factor test
Transformer turns ratio (TTR) test
Polarity test
Excitation current test
Induced potential test (Optional)
Insulating fluid dielectric tests
Dissolved gas analysis tests
Polarization recovery voltage test
Transformer core ground test
Dc winding resistance test
TRANSFORMER COMMISSIONING AND START-UP
Transformer Commissioning and start-up
Receiving, Handling Prior to Installation, Storage, preliminary
tests, Installation, Connections, Fluid Testing, In-service
Testing of Insulating Fluids.
CASE STUDIES III
Participants are divided into groups and are given details
of unfortunate incidents and work together to come up with
recommendations to avoid recurrence.
SWITCHGEAR AND CIRCUIT BREAKER TESTING
Insulation resistance measurement test
Dc high-potential test
Circuit breaker contact resistance test Power factor or
dielectric loss test
Circuit breaker time-travel analysis test
SWITCHGEAR AND CIRCUIT BREAKER COMMISSIONING
AND START-UP
Switchgear Commissioning and start-up
Receiving, Handling Prior to Installation, Storage, preliminary
tests, Installation, Connections
PROTECTIVE RELAY TESTING
Advance Preparation
Daily Preparation
Tests and Inspections,After Completion,After Tests completed
on All Circuits
Protective Relay Test Procedures and Circuits
General Protective Relay Calibration and Checklist
Relay Test Points and Test Circuits for relay types
CASE STUDIES IV
Cases involving improper practices that lead to unforeseen
situations and how to plan ahead to avoid their recurrence.
MULTIFUNCTION DIGITAL RELAYS
Basic Design, Features
Testing Digital Relays
Disabling Settings for Testing, Testing Setting Group Change
Testing Programmable Logic
Testing External Inputs, Testing Targets and Output Contacts
Using the Digital Relay as a Commissioning Aid
Impact of Digital Relay Self-Monitoring and Diagnostics on
Testing
DAY 3 | 30th January 2015
PROTECTIVE RELAY COMMISSIONING AND START-UP
Relay Commissioning and start-up
Receiving, Handling Prior to Installation, Storage, preliminary
tests, Installation, Connections
TESTING AND MAINTENANCE PRACTICES
Preventive maintenance
Reliability Centered maintenance
Creating an electrical preventive maintenance (EPM)
program
Maintenance department prime responsibilities
Maintenance electrician’s basic qualifications
Maintenance schedules
Maintenance work orders
Maintenance inspection and repair records
Repair and maintenance cost records, After-maintenance
check
IEEE Std 3007.2™-2010
FAILURE MODES AND TROUBLESHOOTING
Why equipment fail?
Electrical-based failures, short cycling, voltage unbalance,
surge-related insulation failure, thermal-related failures,
ventilation and cooling aspects, misalignments, bearings,
harmonics and their detrimental effects
Tell-tale signs of impending failure and its impact on your
facility
FORENSIC ENGINEERING
Forensic systems engineering
Electro-forensic engineering
Qualifying for an Assignment
How to Proceed
Where to Start
Codes, Standards, and Relevant Publications, IEEE, NEC
ELECTROMAGNETIC AND ELECTROSTATIC FIELD EFFECTS
Electrophobia and its Origins, Solutions, Latest results
PRE-COURSE QUESTIONNAIRE
To ensure that you gain maximum value from this course, a detailed
questionnaire will be forwarded to you upon registration to establish
your exact training needs and issues of concern. Your completed
questionnaire will be analysed by the course trainer prior to the event
and addressed during the event. You will receive a comprehensive set
of course documentation to enable you to digest the subject matter
in your own time.
In-House Training
Cost effective In-house courses, tailored specifically to your
organisation’s needs, can be arranged at your preferred location and
time. If you would like to discuss further, please contact our In-house
division at iht@unistrategic.com.
Programme Schedule
(Day 1 & Day 3)
08:30 Registration
09:00 Morning Session Begins
10:40 - 11:00 Refreshments & Networking Break
12:45 Luncheon
14:00 Afternoon Session begins
15:30 - 15:50 Refreshments & Networking Break
17:00 Course Ends
4. ABOUT YOUR COURSE FACILITATOR
Dr. El-Hawary is a Professor of Electrical and Computer Engineering at Dalhousie University and was Associate Dean of Engineering
between 1995 and 2007. His technical contributions cover more than forty years of sustained work in research, education and service
to the community. On the research side, Dr. El-Hawary pioneered in computational solutions for economic operation of power systems
including hydro-thermal systems. His fundamental and pioneering work on economic operation of power systems, the application of
computational intelligence techniques to power system operational problems is frequently referred to by the users community, and is
documented in ten textbooks and research monographs and more than 300 research articles.
He served as IEEE Canada President (2002-2003,) and Secretary of IEEE (2004-2005) and the Awards Board and Fellows Committee.
Moreover, he served as IEEE Canada Awards Chair.
Dr. El-Hawary serves currently as a member of the 2010 Publications Services and Products Board, and is IEEE Press Power Engineering
Series Editor. He served as Editor-in-Chief of IEEE Press in 2006-2007. He is Founding Editor, Power Letters, Power Engineering Society,
is Associate Editor for the three major Electric Machines and Power Systems’ Journals, and is Editor, Electrical Power Engineering,
McGraw-Hill Encyclopedia of Science and Technology
Dr. El-Hawary received numerous awards and recognitions including the McNaughton medal and is a Fellow of the Canadian Academy of
Engineering, the Institute of Electrical and Electronics Engineers, and the Engineering Institute of Canada.
His partial client list includes:
WHO SHOULD ATTEND
The workshop is designed for electrical practitioners interested in gaining further insights into the practice of electrical technology as
pertaining to critical infrastructure and facilities. Those who are responsible for the welfare and economically productive life of the electrical
enterprise will find this course beneficial, including:
Saudi Aramco
Abu Dhabi Water and Electricity
Department
Mecca Power System
Panama Canal Authority
Red Eléctrica de España
Sultanate of Oman Power Authority
Tenaga Nasional Malaysia
Taiwan Power Company
Commonwealth Edison
Electrical Engineers
Electrical Supervisors
Commissioning Managers / Engineers
Maintenance Managers/ Engineers
All Electrical Professionals involved in commissioning, testing,
start-up, troubleshooting, maintenance and repair of Electrical
Equipment and Control Systems.
Detroit Edison
Florida Light and Power
Salt River Project
British Columbia Hydro
Manitoba Hydro
Saskatchewan Power
Toronto Hydro
London Hydro
Hydro Quebec
Ontario Hydro
Hydro One
Nova Scotia Power
New Brunswick Power
Newfoundland Power
Newfoundland Hydro
Transalta
AMEC Consultants
SNC Lavalin
CBCL
Abitibi-Consolidated
Hershey Canada (Smith Falls)
Irving Energy
WHY YOU SHOULD ATTEND?
Today’s electrical and control systems utilize thousands of separate parts, manufactured by
hundreds of different manufacturers, installed by several different trades. It takes a skilled
professional, adept at all facets of the design and construction process, to ensure that the
complete system meets and operates according to the design intent. The commissioning
process ensures that systems operate at their highest efficiency, as intended by design. The
process of commissioning includes testing and balancing, tuning control loops, point-to-point
wiring verification, and testing of safety and backup systems.
The start-up of any electrical and control system for the first time, regardless of its size, type
or industry, is a very special occurrence and poses some unique challenges to electrical
and control personnel. Proper start-up and commissioning of power distribution and control
equipment is vital to the long-term health of an electrical system. Improper installation and
commissioning are the leading causes of premature failures. Inexperience and poor planning
will inevitably result in prolonged delays in the start-up which can lead to costly productivity
losses. Commissioning is often a critical component of the design and installation process,
and can distinguish whether a project will succeed or fail. Commissioning can help ensure
proper equipment operation, user acceptance and intended energy savings in both new
construction and renovation projects.
This course provides invaluable information to anyone who wishes to know and understand
the role of Acceptance Testing, Commissioning and Start-Up of Electrical Power Distribution
and Control Systems. The importance of planning and preparation for the project, from
engineering to commissioning and start-up, will be emphasized. This course deals with safety
considerations and testing and start-up procedures for all the components of any
electrical and control system. It will provide the delegates with a solid understanding of
theory and standards. The course will also make the delegates aware of issues concerning
the proper application, installation, risk assessment and maintenance of electrical and
control systems with a strong emphasis on safety.
Productivity and Innovation Credit (PIC)
Scheme
• All business in Singapore can enjoy up to
400% tax deduction for external training*
provided by UNI Strategic Pte Ltd for up to $
400,000 for year of assessment 2014. You can
enjoy up to 68% of tax savings from attending
our trainings which means you only need to
pay 1/3 of the course fees
• Alternatively, businesses can opt for a non-
taxable cash payout option of 60% of up
to $100,000 for year of assessment 2014
meaning up to a maximum of $60,000
* This includes both trainings in Singapore
and overseas
* Both local and foreign employees are
eligible
* Course fees only
PIC Bonus (as announced in Budget 2013)
On top of the existing 400% tax deductions/
allowances and/or 60% cash payout (“PIC cash
payout”) under the PIC scheme, the PIC Bonus
gives businesses a dollar-for-dollar matching
cash bonus for YAs 2013 to 2015, subject to an
overall cap of $15,000 for all 3 YAs combined.
Businesses must incur at least $5,000 in PIC-
qualifying expenditure during the basis period for
the YA in which a PIC Bonus is claimed. The PIC
Bonus is taxable.
Please refer to https://www.iras.gov.sg/irasHome/
page04.aspx?id=14566 for more info
5. Venue and Date
Kuala Lumpur, Malaysia
Workshop 28th
- 30th
January, 2015
Workshop Fee
SGD 4,095 per delegate
SGD 3,895 per delegate if 2 or more delegates sign up
Fee inclusive of course documentation, luncheons, refreshments and
15% services charge.
The above amount payable is net withholding taxes or any other
taxes, if any.
Registration and Enquiries
UNI Strategic Pte Ltd
20 Science Park Road,
#01-26/30, TeleTech Park,
Singapore Science Park II,
Singapore 117674
Contact ARIFIN (SGB 04011)
General Line: (65) 6825 9579
Direct Line: (65) 6622 7911 Mobile: (65) 9489 9069
General Fax: (65) 6825 9580
Email: arifin@unistrategic.com
Hotel Accommodation
Accommodation is not included in the training fee. To make a
reservation for accommodation at the training venue, please contact
the respective hotel.
Kuala Lumpur, Malaysia
Event Code: SGT 2246
COMMISSIONING, TESTING, AND MAINTENANCE OFCOMMISSIONING, TESTING, AND MAINTENANCE OF
ELECTRICAL SYSTEMSELECTRICAL SYSTEMS
Payment Method
Credit Card:
Please debit my VISA MASTERCARD
Card Holder’s Name:_________________________________
Card Number:
- - -
Security Code:
Signature: _________________________Expiry Date: _____/_____
mth year
Cancellations/Substitutions
If you are unable to attend, a substitute delegate is always welcome at no additional charge. All bookings carry a 50% liability immediately after a fully completed sales contract has been received by the UNI office. Please
note that a written notice of the cancellation must be received via mail or fax 3 weeks prior to the event date in order to obtain the balance of the event fee as a credit to be applied against another UNI conference, summit or
training course. All fees are inclusive of an 15% service charge, which is completely non-refundable and non-creditable. Cancellation of any event with less than 3 weeks notice prior to the event date carry a 100% liability,
however the delegate will still be entitled to a complete set of course documentation. Payment must be made within 5 working days upon registration and in agreement, UNI will not be able to mitigate its losses for less than
50% of the contract value in case of dispute with the client or cancellation of this contract by any one party. UNI reserves the right to cancel or make any other changes to the content and timing of the events or speakers for
reasons beyond its control. If for any reason UNI decide to amend these conferences, summits or training courses, UNI is not responsible for covering airfare, hotel or other costs incurred by registrants. In the event that UNI
cancel the event, UNI reserves the right to transfer this booking to another event or to provide a credit of an equivalent amount to another event to be held within the following twelve months.
INDEMNITY: Should for any reason outside the control of UNI, the venue or speakers change, or the event be cancelled due to an act of terrorism, extreme weather conditions or industrial action, UNI shall endeavour to
reschedule but the client hereby indemnifies and holds UNI harmless from and against any and all costs, damages and expenses, including attorney fees, which are incurred by the client. The construction, validity and per-
formance of this Agreement shall be governed in all respects by the laws of Singapore to the exclusive jurisdiction of whose Courts the Parties hereby agree to summit.
Sales Contract
Please complete this form immediately and fax back to
ARIFIN (SGB 04011): (65) 6825 9580
DELEGATES’ DETAILS
Name:______________________________________________
Position: ____________________________________________
Email: ______________________________________________
Name: _____________________________________________
Position: ____________________________________________
Email: ______________________________________________
Name: _____________________________________________
Position: ____________________________________________
Email: ______________________________________________
*Company Details
Organisation: ________________________________________
Address: ____________________________________________
___________________________________________________
___________________________________________________
Town:____________State:___________Postcode:___________
Tel: ( )__________________ Fax: ( ) __________________
Nature of Business: ___________________________________
Company Size: ______________________________________
*Finance Department Contact Details
Name: _____________________________________________
Position: ____________________________________________
Email: ______________________________________________
Contact Number: _____________________________________
*Authorisation
Signatory must be authorised to sign on behalf of contracting
organisation.
Name: _____________________________________________
Position: ____________________________________________
Signature: _______________________Date:_____ /_____/____
This sales contract is invalid without signature & company stamp
*Mandatory field