#Japan #Tokyo #CO₂ Reduction #Renewable Hydrogen #Industrial Catalysis

Seminar on Effective Industrial Catalysis for CO2 Reduction

Overview

On March 12, 2026, a significant online seminar titled "Effective Industrial Catalysis Technology for CO2 Reduction: Production of Fuel, Chemicals, and Polymers from Renewable Hydrogen and CO2" will be hosted by C.M.C. Research. This event promises an engaging session designed for researchers and professionals interested in carbon capture and utilization technologies.

Key Details

• - Date & Time: March 12, 2026, from 1:30 PM to 4:30 PM (JST)
• - Platform: Zoom (includes a recorded session for later viewing)
• - Presenter: Takahiro Muroi from IC Lab
• - Participation Fees:

- General: ¥44,000 (Tax included)
- Newsletter Subscribers: ¥39,600 (Tax included)
- Academic: ¥26,400 (Tax included)

Seminar Theme

The seminar will dive into the development and implementation of industrial catalytic processes that can effectively convert CO2 and renewable hydrogen into valuable fuels and chemicals. Participants will explore the latest trends in e-fuels, synthetic aviation fuels (SAF), methanol synthesis, and compact Fischer-Tropsch processes. Insights into the design of highly active and durable catalysts will be shared, along with the challenges associated with real-world applications.

Learning Objectives

Participants will gain comprehensive knowledge regarding:

• - Conversion Technologies: Methods to synthesize fuels and chemicals from CO2 and hydrogen.
• - Global Trends: The current landscape of CO2 utilization technologies around the world.
• - Catalyst Design: Key points related to developing catalysts that are both efficient and sustainable for industrial applications.

Benefits of Attendance

Notable highlights of this seminar include:

• - Live Q&A Session: Engaging opportunities to ask questions to the expert speaker, Takahiro Muroi, and share experiences related to CO2 reduction.
• - Post-Seminar Access: In case participants are unable to attend the live event, they will have access to recorded content for a limited period, ensuring they do not miss valuable insights.

Target Audience

This seminar is intended for researchers and professionals pursuing advances in:

• - CO2 reduction techniques
• - The production of renewable fuels, chemicals, and polymers using CO2 as a feedstock.

Schedule Overview

The seminar will include discussions structured around:
1. Production of Syngas
- Dry Reforming Methodologies
- Reverse Water Gas Shift Reaction
- Hydrogen Production Techniques
2. Fuel Synthesis Pathways
- Methane Production
- LPG and Gasoline Synthesis
- Fischer-Tropsch (FT) Synthesis
- SAF Production
3. Chemical Production Mechanisms
- Olefins and Aromatics
- Methanol and Ethanol Synthesis
- Functional Chemicals
4. Polymer Development
- Polycarbonate and Polyurethane Applications

Instructor Background

Takahiro Muroi has extensive professional experience, including:

• - Extensive work in catalytic processes for industrial applications, particularly in developing catalysts for fuel cells and fine chemicals.
• - Leadership roles in high-profile projects and research, focusing on carbon-reduction technologies.
• - Contributions to various academic and industry forums, fostering innovations in catalysis and chemical processes.

Registration

To participate in this pioneering seminar, visit the C.M.C. Research website for registration. Upon successful enrollment, participants will receive a URL link for access.

Additional Resources

Beyond this seminar, C.M.C. Research offers a range of upcoming webinars focused on advancing technology in chemical applications, including:

• - The societal impact of methanol solutions for carbon neutrality
• - Innovations in AI Data Center cooling technologies

Stay ahead of industry trends by participating in these informative sessions!

For further inquiries and registration details, please visit the following link: C.M.C. Research

Conclusion

With the pressing need for sustainable practices, this seminar represents a critical opportunity for knowledge sharing and professional growth in the realm of CO2 reduction technologies. Join us to contribute to a greener future!