Introduction
Grounding (earthing) systems are fundamental to the safety, reliability, and performance of electrical substations. In 30/11 kV stations, properly designed and maintained grounding networks ensure effective fault current dissipation, protection of equipment, and safety of personnel against electric shock.
This 10-day advanced training program, developed by Global Horizon Training Center, provides a comprehensive understanding of grounding system design, installation, testing, and maintenance. It integrates theoretical principles with practical field applications, focusing on compliance with international standards such as IEEE 80 and IEC guidelines.
Participants will gain the expertise required to design, install, test, and maintain grounding systems in substations, ensuring safety and operational excellence.
Course Objectives
By the end of this program, participants will be able to:
- Understand grounding principles and safety requirements
- Design grounding systems for 30/11 kV substations
- Calculate grounding resistance and grid design parameters
- Install grounding networks and components
- Perform testing and measurement of grounding systems
- Identify faults and deterioration in grounding systems
- Apply maintenance and inspection practices
- Ensure compliance with international standards
Target Audience
- Electrical and Power Engineers
- Substation and Transmission Engineers
- Maintenance and Reliability Engineers
- Protection and Safety Engineers
- Utility and Distribution Personnel
Outline
Day 1: Fundamentals of Grounding Systems
- Purpose and importance of grounding
- Types of grounding (system grounding, equipment grounding)
- Grounding components and configurations
- Safety considerations
Day 2: Standards and Design Criteria
- Overview of IEEE 80 and IEC standards
- Grounding system design objectives
- Step and touch voltage limits
- Soil resistivity and site conditions
Day 3: Soil Resistivity Measurement and Analysis
- Methods of soil resistivity measurement (Wenner, Schlumberger)
- Interpreting soil data
- Seasonal variations and effects
- Practical field considerations
Day 4: Ground Grid Design and Calculations
- Grid layout design
- Grounding conductor sizing
- Fault current calculations
- Resistance and potential rise calculations
Day 5: Grounding Materials and Installation Practices
- Conductors, rods, plates, and connectors
- Installation techniques
- Welding and bonding methods
- Corrosion protection
Day 6: Substation Grounding Systems
- Grounding of transformers, switchgear, and structures
- Neutral grounding methods
- Lightning protection integration
- Grid interconnection
Day 7: Testing and Measurement of Grounding Systems
- Ground resistance testing methods
- Fall-of-potential test
- Clamp-on testing techniques
- Step and touch voltage testing
Day 8: Fault Diagnosis and Troubleshooting
- Identifying grounding system failures
- Corrosion and degradation issues
- High resistance faults
- Case studies
Day 9: Maintenance and Reliability Management
- Inspection and maintenance strategies
- Preventive and predictive maintenance
- Documentation and recordkeeping
- Compliance and audits
Day 10: Integrated Grounding System Design & Final Workshop
- Designing a complete grounding system for a 30/11 kV station
- Risk assessment and optimization
- Case study and group project
- Final review and evaluation
