Operational Issues of Ash in Sustainable Fuel Use
Master the complexities of ash behavior in sustainable fuel systems, from fuel characterization to high-temperature corrosion management.
Master the complexities of ash behavior in sustainable fuel systems, from fuel characterization to high-temperature corrosion management.
This comprehensive course explores ash-related challenges in sustainable fuel utilization, covering fuel characterization, ash formation, deposit build-up, and corrosion control. Students learn to analyze fuel properties, understand ash transport mechanisms, quantify deposit processes, and implement solutions for high-temperature corrosion. Through detailed case studies and technical assignments, the course provides both theoretical knowledge and practical applications for managing ash-related issues in thermal conversion systems.
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What you'll learn
Master fuel and ash characterization techniques
Analyze ash formation and transport mechanisms
Understand deposit build-up and shedding processes
Evaluate high-temperature corrosion risks
Implement ash-related problem mitigation strategies
Apply knowledge to real industrial cases
Skills you'll gain
This course includes:
331 Minutes PreRecorded video
50 assignments
Access on Mobile, Tablet, Desktop
Batch access
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There are 9 modules in this course
This advanced course covers the complete spectrum of ash-related challenges in sustainable fuel utilization across nine comprehensive modules. Starting with fuel characterization, the curriculum progresses through ash chemistry, aerosol formation, deposit mechanisms, and high-temperature corrosion. Each module combines fundamental principles with practical case studies from Danish power plants, emphasizing both theoretical understanding and industrial applications.
Brief MOOC Introduction and Incitement for Following This
Module 1 · 30 Hours to complete
Fuel and Ash Chemistry and Characterization
Module 2 · 5 Hours to complete
Release of Critical Ash-Forming Elements
Module 3 · 3 Hours to complete
Formation of Fly Ash and Aerosols
Module 4 · 3 Hours to complete
Deposit Build-Up, Consolidation and Shedding
Module 6 · 7 Hours to complete
High-Temperature Cl-Corrosion
Module 7 · 3 Hours to complete
Use of additives to Minimize Deposit Formation and High-Temperature Corrosion
Module 8 · 5 Hours to complete
Danish Case-Studies on Ash and Deposit Formation
Module 9 · 5 Hours to complete
Fee Structure
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Instructor
Associate Professor at the Technical University of Denmark (DTU)
Flemming Jappe Frandsen, an Associate Professor at the Technical University of Denmark (DTU), specializes in biomass combustion, thermal conversion processes, and waste-to-energy technology. His research addresses critical challenges such as ash-related issues, slagging, fouling, and corrosion in energy systems, focusing on enhancing efficiency and reducing environmental impact. By integrating advanced materials and emissions control strategies, he contributes significantly to the development of sustainable energy solutions.
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