Extracting Rare Earth Elements from Thermal Power Plant Waste
INR ₹2,499.00 INR ₹24,999.00Price range: INR ₹2,499.00 through INR ₹24,999.00
The Extracting Rare Earth Elements from Thermal Power Plant Waste course is a comprehensive program designed for professionals, researchers, and students interested in sustainable resource recovery and nanotechnology applications. This course explores practical methods to recover valuable rare earth metals such as neodymium, dysprosium, and lanthanum from industrial thermal power plant waste, including fly ash and slag.
About the Course
This program focuses on recovering rare earth elements (REEs) from thermal power plant waste, emphasizing sustainable, high-value applications. Participants study extraction techniques, purification methods, and characterization protocols for elements such as neodymium, dysprosium, and lanthanum.
The course links laboratory methods to industrial feasibility, teaching learners to design, optimize, and evaluate REE extraction processes while addressing environmental and industrial significance.
Why This Topic Matters
- Mining impact: Traditional REE extraction damages the environment.
- Supply chain constraints: Global demand exceeds accessible sources.
- Sustainability opportunity: Recycling power plant waste reduces hazards and supplies REEs domestically.
- Industrial relevance: Recovered REEs are vital for batteries, magnets, catalysts, and electronics.
What Participants Will Learn
• Fundamentals of REEs and their industrial importance
• Types of thermal power plant waste suitable for REE recovery
• Extraction techniques: hydrometallurgical, solvent, and pyrometallurgical
• Purification and characterization using SEM, XRD, and ICP-OES
• Applications in electronics, magnets, batteries, and catalysts
• Environmental and economic benefits of waste-to-resource processes
Course Structure / Table of Contents
Module 1 — Introduction to Rare Earth Elements and Thermal Power Plant Waste
- Overview of REEs and their technological role
- Thermal power plant by-products: fly ash, slag, residues
- Potential for REE recovery from industrial waste
- Environmental and economic context
Module 2 — Extraction Techniques for Rare Earth Elements
- Hydrometallurgical extraction: acids, solvents, precipitation
- Solvent extraction and selective separation
- Pyrometallurgical methods and thermal processing
- Challenges in REE separation from complex matrices
Module 3 — Characterization and Applications
- Analytical techniques: SEM, XRD, ICP-OES
- Evaluating industrial suitability for electronics, magnets, and energy devices
- Case studies: recovered REEs applied in batteries and renewable energy
- Sustainability assessment and environmental impact
Module 4 — Scaling and Future Prospects
- Industrial-scale process design and optimization
- Economic feasibility of REE recovery
- Integration into waste-to-resource industries
- Emerging trends and innovations in REE recycling
Tools, Techniques, or Platforms Covered
Hydrometallurgical extraction
Solvent extraction
Pyrometallurgy
SEM/XRD/ICP-OES characterization
Process optimization
Environmental assessment tools
Solvent extraction
Pyrometallurgy
SEM/XRD/ICP-OES characterization
Process optimization
Environmental assessment tools
Who Should Attend
- Nanotechnology and materials science researchers
- Environmental engineers and sustainability professionals
- Chemical engineers in waste management or process industries
- Professionals in mining, recycling, or energy production
- Students seeking applied knowledge in sustainable resource recovery
Frequently Asked Questions
What is the primary focus of the course?
Extracting rare earth elements from thermal power plant waste for industrial and high-tech applications.
Who is the course designed for?
Nanotechnology researchers, environmental engineers, chemical engineers, materials scientists, and students in related fields.
Are prior lab skills required?
Basic chemistry knowledge is recommended; hands-on extraction and characterization methods are taught during the program.
Which rare earth elements are studied?
Neodymium, dysprosium, lanthanum, and other REEs commonly found in thermal power plant waste.
Will participants gain hands-on experience?
Yes. Learners practice extraction, purification, and analytical characterization applicable to industrial processes.
| MODE | Online/ e-LMS |
|---|---|
| TYPE | Self Paced |
| LEVEL | Moderate |
| DURATION | 1 Month |
| CATEGORY | E – LMS, E – LMS + Video, E – LMS + Video + Live |
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What You’ll Gain
- Full access to e-LMS
- Publication opportunity
- Self-assessment & final exam
- e-Certificate
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