Waste to Energy Conversion Course | IIT Roorkee | Prof. Prasenjit Mondal
Course Details
| Exam Registration | 1374 |
|---|---|
| Course Status | Ongoing |
| Course Type | Elective |
| Language | English |
| Duration | 8 weeks |
| Categories | Chemical Engineering, Energy, Climate and Sustainability, Energy and Environment, Energy Systems |
| Credit Points | 2 |
| Level | Undergraduate |
| Start Date | 19 Jan 2026 |
| End Date | 13 Mar 2026 |
| Enrollment Ends | 02 Feb 2026 |
| Exam Registration Ends | 16 Feb 2026 |
| Exam Date | 28 Mar 2026 IST |
| NCrF Level | 4.5 — 8.0 |
Unlocking Sustainable Power: A Deep Dive into Waste to Energy Conversion
In a world grappling with mounting waste and escalating energy demands, the concept of Waste to Energy (WtE) conversion emerges as a beacon of sustainable innovation. This field represents a critical intersection of environmental stewardship and energy security, transforming what we discard into valuable power. For students and professionals eager to master this transformative technology, the Indian Institute of Technology Roorkee (IIT Roorkee) offers a comprehensive 8-week course, expertly guided by Prof. (Dr.) Prasenjit Mondal.
Meet Your Instructor: A Leader in Energy and Environmental Engineering
The course is led by Prof. Prasenjit Mondal, an Associate Professor in the Department of Chemical Engineering at IIT Roorkee. With a rich blend of industrial experience as a Process Engineer and research expertise as a scientist at the Centre for Scientific and Industrial Research (CSIR), Prof. Mondal brings unparalleled practical and academic insight. His research portfolio is extensive, focusing on:
- Advanced water and wastewater treatment technologies.
- Energy generation from coal, biomass, and various wastes.
- Innovative systems like microbial fuel cells and algal biofuel production.
- Life Cycle Assessment (LCA) for sustainable processes.
A prolific author and recipient of prestigious scholarships, Prof. Mondal is actively involved in international collaborative projects, ensuring the course content is at the forefront of global research and development in sustainable energy.
Course Overview: From Waste to Watts
This elective course is designed for postgraduate and advanced undergraduate students in Chemical, Mechanical, Environmental Engineering, and Biotechnology. It provides a structured exploration of the three primary routes for energy recovery from waste:
- Thermal Processes: Incineration, Gasification, and Pyrolysis.
- Biological Processes: Anaerobic Digestion and Fermentation.
- Chemical Processes: Transesterification for biofuels.
The curriculum is meticulously crafted to update young scientific professionals with current technologies and future advancements in the field.
Weekly Course Layout: Your 8-Week Learning Journey
| Week | Core Topics Covered |
|---|---|
| Week 1 | Introduction to WtE, Fundamentals and Characterization of Wastes. |
| Week 2 | Energy via Incineration; Introduction to Gasification. |
| Week 3 | Pyrolysis & Advanced Gasification; Syngas Utilization. |
| Week 4 | Solid Fuel Densification; Power Plant Efficiency; Energy from Plastics. |
| Week 5 | Advanced Plastic-to-Energy Routes; Gas Cleanup Technologies. |
| Week 6 | Anaerobic Digestion of Organic Waste; Introduction to Microbial Fuel Cells. |
| Week 7 | Fermentation for Biofuels; Transesterification Process. |
| Week 8 | Cultivating Algal Biomass from Wastewater; Energy Production from Algae. |
Essential Learning Resources
The course is supported by a robust reading list, including key textbooks and references such as:
- "Waste-to-Energy: Technologies and Project Implementation" by Rogoff & Screve.
- "Municipal Solid Waste to Energy Conversion Processes" by Young.
- "Sustainable Utilization of Natural Resources" edited by Prof. Mondal and A.K. Dalai.
- Foundational texts on Fuel & Energy, Biogas Technology, and Biomass.
Why Enroll in This Waste to Energy Course?
This course is more than an academic module; it's a gateway to a career in the future of energy. Participants will gain:
- Holistic Understanding: From waste characterization to advanced conversion technologies and syngas cleanup.
- Practical Knowledge: Insights into efficiency improvement and real-world project implementation.
- Exposure to Cutting-Edge Research: Including microbial fuel cells and algal biorefineries.
- Industry-Relevant Skills: Directly applicable in sectors focused on sustainability, renewable energy, and waste management.
Under the guidance of an accomplished expert like Prof. Prasenjit Mondal, this course offers a unique opportunity to delve into the engineering principles that turn environmental challenges into sustainable energy solutions. It is an essential step for anyone committed to driving innovation in the Energy, Climate, and Sustainability landscape.
Enroll Now →