Training Modern Electrical Power Systems

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Training Modern Electrical Power Systems

Introduction

Current practice is reviewed to establish a sound understanding of the underlying principles of power system transmission, distribution, operation & control with an emphasis on the developments taking place, as a result of:

• New forms of generation
• Load interconnection
• CO2 Emissions control
• Fault level limitation
• FACTS (Flexible AC Transmission Systems) and DMS (demand side management)

The seminar aims to make candidates aware of improvements that technological advances makes possible and to consider implementation these on their system.

Seminar Objectives

Delegates will gain a detailed appreciation of the following:

• Alternative forms of generation and embedded generation – carbon emission limiting, etc.
• Power flow optimisation for ‘real power’ and use of a of FACTS devices to improve system operation, including DSM approach
• New CT and VT optical transducers and protection system using micro processor relays
• Non linear loads and injected Harmonics, at the PCC (point of common coupling)
• Diagnostic monitoring of plant and in particular GIS substations
• High speed fault limiters and thermal monitoring systems for cables

 Training Methodology

Participants will receive a copy of the comprehensive course notes. The presenter will outline and discuss the topics using ‘power point’ displays and others. The course is designed to have an interactive format, to maximize delegate participation. Questions and answers are encouraged throughout and at the daily roundup sessions. Needs-Based case-studies and examples will be introduced and discussed, in problem solving workshop sessions. Only minimum note taking is encouraged, to ensure maximum delegate attention during the course.

Organisational Impact

The seminar will allow delegates to interact and gain from the following:

• Shared experiences of others
• Carefully selected examples and case studies used to illustrate the material being discussed
• Emphasis given to ensure that the material is appropriate to the organisations represented.
• Each delegate should leave with an awareness and understanding of the operational aspects of modern power systems
• How new technologies can assist in improving the quality and reliability of the consumers supply.

Personal Impact

On successful completion of this course delegates will be able:

• Appreciate how power is transferred efficiently across a network
• Understand how FACTS devices can provide real time support to improve network operation
• Understand how to improve the quality of the supply, dips, swells and harmonics sources
• Be familiar with diagnostic tools that lead to improved reliability including PD measurement
• Deal with methods to handle higher fault levels and power demand and cable thermal rating
• Deal with the question of alternative forms of generation and CO2 emissions

Who Should Attend?

• Designers
• Engineers
• Supervisors and Technicians
• Professionals involved with the planning, operation and maintenance of small to large scale power networks, from around 11kV, upwards.
• Professionals from the Distribution Companies, Power Utilities, Engineering Professionals in the Electricity Supply Industry and Petrochemical Companies who have to deal with aspects of generation, transmission and distribution should be interested in learning how to handle increased demand, how to drive the system harder, but safely, and with increased reliability, security and monitoring.

Programme Outline

Introduction Overview of a typical systems covering generation, transmission and distribution Determination of flow of real (P) and reactive power (Q) Determination and control of fault level Control of reactive power & voltage Control of active power & system frequency The requirements for reactive compensation – voltage profiles Quality of supply

Current Operational Problems Coping with rising demand for power – transmission and distribution The costs associated with increasing fault level Catering for increasing load on the existing system – ratings of plant Monitoring of plant condition – e.g. temperature A review of analytical methods & demonstration of software for optimising system operation Increasing problems of heavily loaded systems – stability, voltage dips Introduction to System Operation Active Power and Frequency Control – automated Voltage Control and Reactive Power Requirements – automated Generation, including combined cycle and small embedded generators Transmission voltage levels – line and cable design, power loading and de-rating for temperature effects

Emerging technologies Energy and the Environment – solar power, geothermal power, etc. CO2 and its impact on the world ‘Green’ generation? Is it possible on a large scale or are there stability problems? Demand Side Management – remote load control – minimising demand – optimising transmission – coping with dips and swells Optical Current Transducers for Protection – optical current sensors eliminate CT saturation High Voltage Applications – Surge protection, current limiters network switching, etc Non linear loads – harmonics at PCC – filtering – G5/4 requirements

Advances in control and monitoring Power Electronics Applied to Power Systems Flexibility in AC Systems – static VAr Compensation – series controlled capacitors Changing maintenance schedules, remote surveillance of plant and the introduction of unmanned substations Data logging Making the system work harder HC-DC Links for stability improvement Power Dynamics Management – the low frequency oscillation Advanced protection and Control Techniques Is – Fault Current Limiter – how to apply GIS diagnostics – partial discharge techniques Optical cable temperature monitoring SCADA and artificial intelligence systems for fault diagnostics

System protection Digital and Micro Processor Protection Electrical Insulation – Air and SF6 – the problems Condition Monitoring of Plant Appendix – Characteristics of a Power Network – Review for the Future Note: Case studies will be undertaken where appropriate

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