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Cloud IconRegistrations Open for Certificate Course on Carbon Capture and Utilization !

Carbon Capture and Utilization




OBJECTIVE OF THE COURSE:

Climate change is real and greenhouse gas emission can lead to a worldwide rise in temperature above 1.5°C. Carbon Capture and Utilization (CCU) technologies aim to reduce carbon emissions by capturing them from industrial emissions and the atmosphere, which can be utilized for the production of chemicals and other useful products. Enhanced climate objectives and cutting-edge technologies drive the CCU to achieve net zero emissions by 2050. The objective of this course is to provide various technical prospectus on CCU technologies and future goals, resulting in the abatement of carbon emissions.

LEARNING OUTCOME:

Upon completion of the course, participants would be able to understand:
  • The fundamentals of carbon capture and utilization.
  • Industrial practical problems and their solutions through case studies in CCU.
  • Advancements of the state-of-the-art CCU technologies in the industries.
  • Application of the software to solve CCU problems.

COURSE COORDINATORS:

*Click on the faculty to see the profiles

ELIGIBILITY CRITERIA:

  • Interested candidates from Science and Engineering background with an interest in CCU technologies can apply.

  • COURSE FEES (INR): For Applicants from South-Asian Countries

  • Students (Bachelors, Masters): 1500/- + 18% GST per person
  • PhD Scholars: 3000/- + 18% GST per person
  • Faculty, Postdoc: 5000/- + 18% GST per person
  • Industry Participants: 20000/- + 18% GST per person
  • A special 10% discount for a group of 3 to 10 participants
  • Special Scheme for Academia (students, faculty, and postdocs): Free registration for 1 participant in a group of 10 participants and a letter of appreciation to the institute/department.

  • COURSE FEES (USD): For Foreign Applicants from other than South-Asian Countries

  • Students (Bachelors, Masters): 50 US$ including taxes per person
  • PhD Scholars: 125 US$ including taxes per person
  • Faculty, Postdoc: 180 US$ including taxes per person
  • Industry Participants: 360 US$ including taxes per person
  • A special 10% discount for a group of 3 to 10 participants
  • Special Scheme for Academia (students, faculty, and postdocs): Free registration for 1 participant in a group of 10 participants and a letter of appreciation to the institute/department.

  • IMPORTANT DATES:

  • Registrations start on: 12-09-2024.
  • Registrations close on: 15-10-2024.
  • Course starting date: 02-11-2024.

  • Enrollment PROCESS:

  • Click Here to Sign-up with your Email
  • Go to the provided link and follow the instructions to register and enroll for the course.

  • HAVE QUESTIONS? CONTACT US
    For any queries on the registration and course-related matters contact:

    Dr. Sridhar Palla
    Mob: 9492462493
    Email: sridharpalla.che@iipe.ac.in

    Dr. M. Ravi Kiran
    Email: ravikiran.che@iipe.ac.in






    Summary


    Course Status : Registrations are Open
    Course Duration : 12 Weeks
    Course Timings : 2 hours-Every Saturday (5.00 P.M.-7.00 P.M.)
    Delivery Mode : Online (Cisco-WebEx Meetings)
    Registration Start Date: 12 Sep 2024
    Registration End Date: 15 Oct 2024
    Classes Start Date : 02 Nov 2024

    Topics Covered


    No. of hours Topic and contents
    2 Carbon cycle, carbon capture and utilization, Physical and Chemical fundamentals, Carbon point sources, Careers/Manpower requirement in CCU.
    2 Carbon capture techniques: Introduction, Pre-combustion capture, Post-combustion capture, Oxyfuel combustion capture, and Chemical/Calcium looping capture
    2 Absorption capture systems: Chemical and physical fundamentals, absorption applications in post-combustion capture and absorption technology R&D status
    2 Tutorial session with Modeling Software.
    2 Adsorption capture systems: Physical and chemical fundamentals, adsorption process applications, Materials, Modeling and simulation tools.
    2 Tutorial session with Modeling Software.
    3 Carbon utilization through heterogeneous catalysis: Dry reforming, methane, methanol and Fischer tropsch processes.
    2 Carbon utilization through homogeneous catalysis and Biological processes.
    3 Recent advances in green technologies for Carbon mitigation and Future challenges: Alkane dehydrogenation, Biomass utilization, photocatalysis etc.
    2 Modeling aspects of Industrial Reactors
    2 Tutorial session with Modeling Software.