Enroll Course: https://www.coursera.org/learn/sustainability-fuels-ash-chemistry-deposits-corrosion-additives
In the ever-evolving landscape of sustainable energy, understanding the complexities of fuel utilization is paramount. The course titled ‘Ash-Related Operational Challenges in Energy Utilization of Sustainable Fuels’ on Coursera offers an in-depth exploration of the challenges associated with ash formation and its implications for energy production. This MOOC is designed for both students and industry professionals, providing a platform for discussion and the latest research findings in the field.
### Course Overview
The course begins with a brief introduction that sets the stage for the topics to be covered. It dives into the chemistry and characterization of fuels and ash, introducing various analytical techniques ranging from basic proximate and ultimate analyses to advanced methods like Simultaneous Thermal Analysis (STA) and Scanning Electron Microscopy (SEM). This foundational knowledge is crucial for understanding the subsequent modules.
### Key Modules
1. **Release of Critical Ash-Forming Elements**: This module focuses on the release mechanisms of essential elements such as potassium (K), sulfur (S), and chlorine (Cl) during thermal conversion, providing insights into both fixed-bed and entrained flow release quantification.
2. **Formation of Fly Ash and Aerosols**: Here, learners explore the physical aspects of fly ash formation and the health impacts of combustion-derived aerosols, supported by pioneering studies from Denmark.
3. **Transport and Adhesion of Ash Particles**: This module addresses the transport mechanisms of ash species and the criteria for their adhesion, which are critical for understanding deposit formation.
4. **Deposit Build-Up, Consolidation, and Shedding**: The complexities of deposit formation are examined, including practical experiences in measuring deposits in full-scale operations.
5. **High-Temperature Cl-Corrosion**: This module discusses the corrosive interactions between deposits and heat transfer tubes, a significant concern in biomass and waste-fired units.
6. **Use of Additives to Minimize Deposit Formation and High-Temperature Corrosion**: The course concludes with strategies for minimizing corrosion and deposit formation through the use of various additives, drawing on extensive research conducted at DTU.
7. **Danish Case-Studies on Ash and Deposit Formation**: Real-world applications are highlighted through case studies from Danish utility boilers, showcasing the practical implications of the research.
### Conclusion
This course is a must for anyone involved in the energy sector, particularly those focused on sustainable fuels. It not only provides theoretical knowledge but also practical insights and case studies that bridge the gap between research and industry application. The interactive nature of the course encourages discussion and feedback, making it a valuable resource for both students and professionals.
### Recommendation
I highly recommend enrolling in this course if you are looking to deepen your understanding of ash-related challenges in energy utilization. The comprehensive syllabus, combined with the expertise of the instructors at DTU, ensures that you will gain valuable knowledge applicable to real-world scenarios.
### Tags
1. Sustainable Energy
2. Fuel Characterization
3. Ash Chemistry
4. Energy Production
5. Environmental Impact
6. Biomass Utilization
7. Corrosion Management
8. Online Learning
9. Coursera Review
10. Industry Research
### Topic
Energy Utilization Challenges
Enroll Course: https://www.coursera.org/learn/sustainability-fuels-ash-chemistry-deposits-corrosion-additives