Transmission Network Analysis focuses on the critical aspects of designing, analyzing, and optimizing electrical transmission networks. Participants will engage in hands-on projects that simulate real-world scenarios, allowing them to apply theoretical knowledge to practical challenges. The course emphasizes interactive learning, fostering collaboration among peers while encouraging participants to publish their findings in Cademix Magazine, thus contributing to the broader field of electrotechnical systems.
The curriculum is structured to cover essential topics that equip learners with the skills needed to excel in the industry. By the end of the course, participants will have a thorough understanding of transmission network components, performance metrics, and optimization techniques. This program is designed for those looking to enhance their expertise and advance their careers in electrotechnical and high-power systems.
Fundamentals of Transmission Networks
Key Components of Transmission Systems
Load Flow Analysis Techniques
Short Circuit Analysis and Fault Calculations
Stability Analysis of Transmission Networks
Power Quality and Reliability Assessment
Optimization Techniques for Transmission Systems
Impact of Renewable Energy Sources on Transmission
Smart Grid Technologies and Their Applications
Final Project: Design and Analysis of a Transmission Network

Power Quality Insights delves into the critical aspects of power quality within electrotechnical and high power systems. Participants will engage in hands-on projects that explore various power quality issues, measurement techniques, and mitigation strategies. The course emphasizes real-world applications and encourages participants to publish their findings in Cademix Magazine, fostering a culture of knowledge sharing and professional development.
This program is structured to enhance both theoretical understanding and practical skills. Participants will explore the intricacies of power quality phenomena, including harmonics, voltage sags, and flicker, while also learning to utilize advanced measurement tools and software. The final project will require participants to analyze a specific power quality issue in a chosen system, develop a solution, and present their findings, thereby solidifying their expertise in the field.
Fundamentals of Power Quality
Measurement Techniques for Power Quality Analysis
Harmonics: Sources and Mitigation Strategies
Voltage Sags and Swells: Causes and Effects
Flicker: Measurement and Control
Transients in Power Systems
Power Quality Standards and Regulations
Impact of Renewable Energy on Power Quality
Case Studies of Power Quality Issues in Industry
Final Project: Analysis and Solution Development for a Power Quality Issue

Smart Energy Metering equips participants with the knowledge and practical skills necessary to implement and optimize advanced metering infrastructure in various energy systems. This course emphasizes hands-on projects that allow learners to engage directly with the technologies and methodologies that define modern energy management. Participants will explore the integration of smart meters, data analytics, and energy efficiency strategies, preparing them for roles in an evolving energy landscape.
The curriculum is structured to provide a comprehensive understanding of smart energy metering systems, focusing on both theoretical foundations and practical applications. Participants will work on real-world projects, culminating in a final project that showcases their ability to design and implement a smart energy metering solution. By encouraging the publication of results in Cademix Magazine, the course also fosters a culture of knowledge sharing and professional development.
Overview of Smart Energy Metering Technologies
Fundamentals of Electrotechnical Systems
Data Communication Protocols for Smart Meters
Integration of IoT in Energy Metering
Energy Consumption Analysis and Reporting
Smart Meter Installation and Configuration
Advanced Metering Infrastructure (AMI) Design
Regulatory Frameworks and Standards
Case Studies of Smart Metering Implementations
Final Project: Design and Implementation of a Smart Metering Solution