Electric Power System Planning and Reliability Calculation
Date | Format | Duration | Fees | |
---|---|---|---|---|
12 May - 23 May, 2024 | Live Online | 10 Days | $4495 | Register |
17 Jun - 21 Jun, 2024 | Live Online | 5 Days | $2250 | Register |
08 Jul - 12 Jul, 2024 | Live Online | 5 Days | $2250 | Register |
23 Sep - 27 Sep, 2024 | Live Online | 5 Days | $2250 | Register |
25 Nov - 29 Nov, 2024 | Live Online | 5 Days | $2250 | Register |
16 Dec - 20 Dec, 2024 | Live Online | 5 Days | $2250 | Register |
Date | Venue | Duration | Fees | |
---|---|---|---|---|
22 Apr - 26 Apr, 2024 | Dubai | 5 Days | $4750 | Register |
26 May - 06 Jun, 2024 | Doha | 10 Days | $9150 | Register |
27 May - 31 May, 2024 | Dubai | 5 Days | $4750 | Register |
03 Jun - 07 Jun, 2024 | Nairobi | 5 Days | $4950 | Register |
17 Jun - 21 Jun, 2024 | Dubai | 5 Days | $4750 | Register |
15 Jul - 19 Jul, 2024 | Dubai | 5 Days | $4750 | Register |
29 Jul - 02 Aug, 2024 | Singapore | 5 Days | $5695 | Register |
05 Aug - 09 Aug, 2024 | Dubai | 5 Days | $4750 | Register |
09 Sep - 13 Sep, 2024 | New York | 5 Days | $5695 | Register |
23 Sep - 27 Sep, 2024 | Dubai | 5 Days | $4750 | Register |
28 Oct - 01 Nov, 2024 | Dubai | 5 Days | $4750 | Register |
04 Nov - 08 Nov, 2024 | Dubai | 5 Days | $4750 | Register |
11 Nov - 15 Nov, 2024 | Seoul | 5 Days | $5350 | Register |
02 Dec - 06 Dec, 2024 | London | 5 Days | $5695 | Register |
23 Dec - 27 Dec, 2024 | Dubai | 5 Days | $4750 | Register |
Course Overview
Utility customers today are demanding higher reliability and lower costs, and this trend will undoubtedly continue for the next several decades. Strategic planning techniques provide a means of meeting the customer demands of reliability and economy while better placing power systems for acclimatising to future requirements.
Knowledge of power system protection systems is crucial when it comes to enhancing the reliability level of electric structures. With the developments in protection and communication technology and the durable increase in renewable energy sources, the design and implementation of power system protection systems have become even more challenging.
What do this “Electric Power System Planning and Reliability Calculation” course entail? Power system protection systems play a vital role in launching reliable electrical power systems.
Due to the increasing relevance of electricity in today’s world, such power failures can have a severe impact on society and the global economy. Ill-designed protection systems may lead to major power failures. This training course presents proven planning methods which will benefit both the utility and its customers.
This Zoe training course will empower you with the knowledge on how to use economic and reliability analysis as a tool for decision support during planning, design, operation, and maintenance of electric power systems.
Course Objectives
Upon completing this Electric Power System Planning and Reliability Calculation course successfully, participants will be able to:
- Benefit from an in-depth knowledge of power system planning and economics
- Recognise the optimal transmission capacity
- Discuss the nature of planning in the electricity sector and the hierarchy of electricity planning models
- Employ the various electricity pricing approaches
- Define the economic operation of the power system and employ the planning methods
- Determine value-based transmission expansion by quantifying the value of the transmission
- Articulate power-flow problem covering techniques for power-flow studies
- Carry out demand-side management as a strategic option in utility planning
- Deliberate over the deregulation of electrical utilities and its approaches
Training Methodology
This collaborative Electric Power System Planning and Reliability Calculation training program will comprise the following training methods:
- Lectures
- Seminars & Presentations
- Group Discussions
- Assignments
- Case Studies & Functional Exercises
Similar to all our programs, this course also follows the ‘Do-Review-Learn-Apply’ model.
Organisational Benefits
Companies who nominate their employees to participate in this Electric Power System Planning and Reliability Calculation course can benefit in the following ways:
- Keep your company one step ahead with this all-inclusive overview of electric power system planning and reliability calculation
- Ensure safe electric power system planning and reliability calculation in your workplace
- Assist technical committees and boards to create, publish and update working standards pertaining to electric power system planning and reliability calculation
- Support the relevant authorities in writing, editing, and processing standards for electric power system planning and reliability calculation
- Establish discussions with related government organisations regarding regulations that affect electric power system planning and reliability calculation and the government’s respective standards
Personal Benefits
Individuals who participate in this Electric Power System Planning and Reliability Calculation course can gain from it in the following ways:
- Keep up with late-breaking developments in electric power system planning and reliability calculation by studying new literature and other sources of information
- Benefit from a tailor-made academic program for technicians or equivalent workforce involved in electric power system planning and reliability calculation
- Get yourself trained, assessed, and certified by experts in the electric power system planning and reliability calculation domain
- Identify, act on, and report any issues with electric power system planning and reliability calculation
- Perform the test activities and site procedures related to electric power system planning and reliability calculation
- Detect and utilise the appropriate PPE tools and methods when carrying out tasks to ensure compliance with electric power system planning and reliability calculation standards
- Enhance your skills and get yourself trained for further qualifications in the field of electric power system planning and reliability calculation
Who Should Attend?
This Electric Power System Planning and Reliability Calculation course would be suitable for:
- Engineers and technicians new to the electric utility industry
- Intermediate-level engineers, professional electrical engineers and technicians dealing with distribution planning and design
- Professionals involved with improving distribution system reliability
- Utility engineers and consultants who conduct load forecasts and studies
- Engineers tasked with assessing the performance of power distribution systems
Course Outline
MODULE 1: THE ELECTRICAL POWER SYSTEM
- The Planning Cycle
- Load flow Studies
- Stability Analysis
- Short Circuit Studies
MODULE 2: SYSTEM OPERATIONS
- Load Forecasting
- Simulated System Operation
- Generation, Transmission and Distribution Planning
- System Reliability
- Protection Coordination
MODULE 3: POWER SYSTEM PROTECTION
- Introduction to power systems
- Introduction to power system protection
- Power system and power system protection calculations
- Symmetrical component methods
MODULE 4: SOFTWARE PROGRAMS AND TECHNOLOGIES
- Use of software applications for fault calculations
- Protection technologies
- Instrument transformers
- Circuit breakers
MODULE 5: PROTECTION OF VARIOUS EQUIPMENT
- Protection of power transformers
- Distance protection
- Protection of HVDC networks
- Protection of power cables and lines
- Protection of substations
- Protection of motors
- Protection of generators
MODULE 6: PROTECTION FUNCTIONS & TESTING
- Arc flash studies
- Frequency and voltage protection
- Special protection functions
- Wide-arc protection
- Testing of power system protection
- Trends in power system protection
- Relay setting management
- Failure investigations
MODULE 7: ADVANCED PLANNING DESIGN & ENGINEERING
- Power system planning and advanced applications
- Power systems design
- Power engineering
- System safety engineering
MODULE 8: STRATGEIC PLANNING FOR INDUSTRIES
- Power Markets, Energy Economics and Strategic Planning
- Emerging Generation Technologies
- Dynamic/static loads
- Synchronous/induction motors
- Synchronous/induction generators
MODULE 9: DIFFERENT ELEMENTS FOR PLANNING & PROTECTION
- Solar generation
- Wind generation
- Energy storage units
- Power factor concept
- High voltage direct current system (HVDC)
- Multi-terminal HVDC system
- Converter circuits
MODULE 10: POWER & FREQUENCY CONTROL
- Concept of harmonics and filters
- Active power and frequency control
- Primary droop control
- Reactive power and voltage control
- Static VAR compensation
- Synchronous condensers
- Synchronous Machine Fundamentals
MODULE 11: POWER DYNAMICS & DISTRIBUTION
- Power System Dynamics
- Distribution Systems Planning and Engineering
- Substation/Distribution Automation
- Smart Grid
- Fundamentals of Renewable Energy Systems
- Distributed Energy Resources, Microgrids
- Grid Resiliency, Energy Storage and Electric Vehicles
MODULE 12: SYSTEM STABILITY, PROTECTION & DISTRIBUTION
- Power System Stability
- Distributed Generation Interconnection Studies
- Distribution Construction Work Plan
- Distribution Long Range Plan
- Distribution Loss Reduction
- Distribution Sectionalising and System Protection
MODULE 13: TRANSMISSION OF POWER SYSTEMS
- Transmission Power Flow
- Transmission Reactive Compensation
- Transmission Stability
- Transmission System Impact
MODULE 14: VOLTAGE ANALYSIS
- Extra High Voltage Engineering
- Power System Stability
- Surge Phenomena in Power Systems
- Computer Methods in Power System Analysis
- Linear Control Systems
MODULE 15: SYSTEM RELIABILITY
- Value of Service Studies and System Reliability
- Line Design
- Rate and Cost of Service Analysis
- Key Account Profitability Analysis
MODULE 16: ELECTRICAL POWER QUALITY
- Electric Power Quality
- Safety, Reliability and Service Quality
- Strategic Planning Issues
- Industry Restructuring
- Reliability Indexing and Benchmarking
MODULE 17: COMMUNICATION SYSTEMS
- Substation Automation
- Distribution Automation
- System Integration for Utilities