Self Paced

Thermal Power Plant Waste to Rare Earth Elements

Transforming Thermal Waste into Rare Treasures: Unveiling the Power of Sustainable Resource Recovery

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Early access to the e-LMS platform is included

  • Mode: Online/ e-LMS
  • Type: Self Paced
  • Level: Moderate
  • Duration: 1 Month

About This Course

The Digital Waste to Metal Oxide Nanoparticles program offers an in-depth exploration into the methods of converting electronic waste into high-value metal oxide nanoparticles. Over the program of one month, participants will engage with cutting-edge technologies and learn from industry experts to understand the chemical processes, equipment used, and safety protocols involved in nanoparticle synthesis from e-waste.

Aim

To empower participants with the knowledge and skills to extract rare earth elements from thermal power plant waste, fostering sustainable practices and innovation in material recovery. The program aims to integrate environmental engineering with materials science to revolutionize waste management and resource reclamation.

Program Objectives

  • Understand the chemistry behind the conversion of digital waste to metal oxide nanoparticles.
  • Develop practical skills in handling and processing e-waste safely.
  • Learn to design and conduct experiments for nanoparticle synthesis.
  • Gain insights into environmental impacts and sustainability measures in waste recycling.
  • Equip participants with the knowledge to innovate and improve existing recycling processes.

Program Structure

  • Thermal Power plant wastes and their environmental effects
  • Process to extract rare earth metals from Coal fly ashes
  • Nanotechnology as a defining moment for high-tech devices
  • Ongoing Research
  • Project Report Submission/ Article Writing

Who Should Enrol?

  • Chemistry: Basic knowledge in chemical processes and safety protocols.
  • Environmental Science: Understanding of recycling technologies and sustainability practices.
  • Engineering: Familiarity with process design and industrial equipment.

Program Outcomes

  • Mastery of nanoparticle synthesis from digital waste.
  • Enhanced understanding of chemical processes and safety.
  • Proficiency in experimental design and analysis.
  • In-depth knowledge of environmental impacts and sustainability.
  • Ability to innovate in the field of recycling technologies.

Fee Structure

Standard: ₹10,998 | $170

Discounted: ₹5499 | $85

We accept 20+ global currencies. View list →

What You’ll Gain

  • Full access to e-LMS
  • Real-world dry lab projects
  • One-on-one project guidance
  • Publication opportunity
  • Self-assessment & final exam
  • e-Certificate & e-Marksheet

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(+91) 120-4781-217

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