Analysis and Application of Industrial Electrical Systems and Sustainable Energy Practices (1).ppt

0 Gain insights into real-time industrial electrical systems.
Key Internship Objectives in Industrial Electrical Systems
Exploring automation, distribution architecture, and renewable energy integration through hands-on experience.
Develop a comprehensive understanding of how real-time monitoring and control are implemented in industrial electrical systems, enhancing efficiency and reliability.
8 Observe the use of DCS & SCADA for automation.
Learn about the role of Distributed Control Systems (DCS) and Supervisory Control and Data Acquisition (SCADA) in automating complex industrial
processes for improved oversight.
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Study the HT/LT distribution architecture.
Investigate the structures and components of High Tension (HT) and Low Tension (LT) distribution systems, focusing on their appl ications in various industrial
settings.
Examine renewable energy integration methods.
Explore the integration of solar energy and Waste Heat Recovery Systems (WHRS) into traditional energy frameworks, emphasizing sustainabi lity and
efficiency.
Conduct project analysis on Earthing System Design.
Engage in a detailed project-based ana lysis of earthingsystem design, assessing its significance in safeguarding industrial electrical systems from faults and
ensuring safety.
Investigate the role of Al in Solar Applications.
Analyze the application of Artificial Intelligence (Al) in enhancing solar energy solutions, focusing on performance optimization and predictive maintenance
techniques.

Key Challenges in Industrial Electrical Systems Training
Exploring the obstacles encountered during the training in industrial electrical systems and sustainability
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Limited access to
live equipment
Safety protocols
Overcoming
challenges
Complexity in areas
through
like Excitation and Extreme conditions
mentorship
Relay Logic demands d Utilizing observation,
advanced r mentorship, and
understanding and a thorough
skills. for trainees. documentation
allows for effective
knowledge transfer
despite limitations.
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High technical
depth in systems
Time constraints
vs plant size
Heat and
environmental
limitations
The expansive
nature
of industrial plants
creates challenges in
managing training
schedules effectively.
restrict hands-on
experience with
critical equipment,
impacting learning
opportunities.
uring kiln visits pose
isks to both safety
nd learning efficacy

Enhancements in Electrical Systems and Training
Improving safety and efficiency through advanced technologies and training methods
•Improve Earthing
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•Training Simulators
Integrating simulators for intern training will provide hands-on experience and better preparedness for real-world scenarios.
•Cross-functional Exposure
Fostering cross-functional exposure between Instrumentation and Electrical teams enhances skill sets and collaboration.
•Better Labeling
Improved labeling of electrical panels and earth pits enhances safety and operational efficiency in the facility.
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Enhancing the earthing systems at WHRS and Cement Mill willsignificantly improve safety and performance.
Al Fault Prediction
Implementing Al-based fault prediction dashboards can help in proactive maintenance and reduce downtime.