Training Substation Automation System
In recent years, electric utilities have embraced substation automation as much as any T&D automation technology. A recent research report found that 84 per cent of utilties have active substation automation and integration programs under way. Part of substation automation’s popularity undoubtedly has to do with the fact that a number of recent utility projects have shown that substation automation is a technology that can benefit the utility as a whole. Virtually any department that needs information mined at the substation can obtain benefits from a substation automation implementation.
Supervisory control and data acquisition systems — or SCADA systems — have been in place at electric utilities for decades. SCADA systems, old and new alike, are receiving more attention in recent times as “cybersecurity” of SCADA systems becomes an issue. The findings of a recent utility industry survey indicate that SCADA cybersecurity is a very real concern, as 20 per cent of utilties believe that their SCADA systems have already been subjected to outside threats. Compounding the problem of shoring up electric utility SCADA systems is the fact that different technologies and techniques may be required depending on whether the utility is working to secure a newly installed SCADA system or a legacy SCADA system.
The course will provide attendees a brief history of automation development in substations, the communications profiles and architectures used within and beyond the substations, and the related automation functions and associated FAT/SAT testing and system integration.
- Gain Knowledge Of State-Of-The-Art Substation Automation Technologies
- Learn From Practice: World Applications With Detailed Case Studies
- Learn The Levels Of Integration And Automation That Can Be Incorporated Into New Or Existing Substations.
- Learn Available System Architectures, IED Characteristics And Protocols, And Industry Standards.
- Learn How SCADA Can Be Designed For Integration With Other Systems.
This course is designed for engineering project managers, engineers, and technicians from utilities who have built or are considering building or retrofitting substations or distribution systems with SCADA and substation integration and automation equipment.
- Substation Operation And Planning Managers
- Transmission Planning Engineers
- Distribution Planning Engineers
- Substation Design Engineers
- Consulting Engineers
- Automation Engineers & Technologists
- Substation Network Management Engineers
- Substation Operation/Maintenance Engineers & Technologists
- Substation Protection & Control Engineers & Technologists
Introduction to ELSSI and SA
- What Is An IED?
- What Is ELSSI?
- Substation Integration And Automation Levels
- Integration Versus Automation
- Communication Paths From Substation
- Enterprise Interoperability
Substation Integration and Automation Technical Issues
- System Responsibilities
- Open Systems
- Substation Automation Applicability
- Benefits Of Open System Approach
- System Architecture
- Data Acquisition And Control Level
- Information Infrastructure Level
- Substation Host Processor
- Substation Local Area Network
- Control Devices / User Interface
- Communication Interfaces
- One/Common Data Repository
- Reduction In Databases
SCADA Systems Evolution and Overview
- Evolution From 1830 To Present
- Uses Of Supervisory Systems
- System Hardware
- System Software Functions
SCADA System Architectures
- Data Acquisition, Supervisory Control And Data Exchange
- Historical Information System
- Power Applications (Only Those Changed By RTOs/ISOs)
- User Interface
- Supporting Software
- Hardware Configurations
SCADA Integration with Other Systems
- Functions Performed
- Interfacing Different Systems
- Principles Of Systems Architecture
SCADA System Implementation and Maintenance
- System Constraints
- Implementation Considerations
What Would Substation SCADA Look Like?
- Distributed LAN Configuration
- Design Issues For Consideration
- Equipment Photographs
- Automatic Load Restoration
- Adaptive Relaying
- Remote Controlled Fuse Saving
- Equipment Condition Monitoring
Feeder Automation Equipment
- Fault Location, Isolation, And Service Restoration (FISR)
- Other Uses Of Automated Switches
- System Components
- Communication Facilities
- Control Panels
- Feeder Automation Categories
- Fully Automatic
- Feeder Automation Approaches
- Substation Centered
- Training Simulator
- Practical Matters
Feeder Automation Functions
- VAR Dispatch
- Voltage Control (Conservation Voltage Reduction)
- Integrated Volt VAR Control (IVVC) Communications Issues
- Communication Requirements
- Communication Technologies
- Future Trends
- Solution Providers
Building the Business Case for Integration and Automation
- Evaluation Methodology
- Needs Analysis
- Benefit/Cost Analysis Methodology
- Sample Study Cases
- Levels Of Integration And Automation
- Communication Paths From Substation
- New Versus Existing Substations
- Protocol Fundamentals
- Protocol Considerations
- Relevant Standards
Review of expectations
Questions and Answers
- All our courses can be facilitated as Customized In-House Training course.
- Course duration is flexible and the contents can be modified to fit any number of days.
- As for Open Enrolment Courses, we offer our clients the flexibility to chose the location, date, and time and our team of experts who are spread around the globe will assist in facilitating the course.
- The course fee includes facilitation, training materials, 2 coffee breaks, buffet lunch and a Certificate of successful completion of Training.
- FREE Consultation and Coaching provided during and after the course.
Yogyakarta, Jakarta, Bandung, Bogor, Cirebon, Solo, Semarang, Surabaya, Malang, Bali, Lombok, Samarinda, Balikpapan, Banjarmasin, Pontianak, Makassar, Medan, Palembang, Lampung, dll serta Timor Leste, Thailand, Singapore , Kuala Lumpur. (dengan harga dan minimal kuota yang berbeda)