Green Plasma Technology I
2:00 pm – 4:15 pm,
Tuesday October 14 Session FT3 COEX, Room E4
Plasma-Based CO₂ Capture and Conversion: Engineering a Low-Carbon Future
3:30 pm – 3:45 pmPresenter: Pankaj Attri (Kyushu University)
Authors: Sukuma Fitriani (Kyushu University), Hibiki Otobe (Kyushu University), Naoya Hidaka (Kyushu University), Takamasa Okumura (Kyushu University), Masaharu Shiratani (Kyushu University), Kazunori Koga (Kyushu University)
Collaboration: P. Attri; S. W. Fitriani; H. Otobe; N. Hidakaoror; T. Okumura; M. Shiratani; K. Koga
Energy consumption is expected to increase by 28% between 2015 and 2040, which is likely to result in a 16% rise in energy-related CO₂ emissions during the same period [1]. This trend highlights the urgent need for governments and industries worldwide to take decisive action to curb greenhouse gas emissions [2]. While carbon capture from point sources and direct air capture offers promising solutions, they continue to face significant hurdles such as high costs and reduced absorption efficiency [3]. In contrast, plasma technology presents an innovative approach; by generating energetic electrons, plasma can activate CO₂ molecules and foster the creation of new compounds without necessitating the heating of the entire gas mixture [5]. Our research has notably advanced this field by harnessing streamer plasma to convert CO₂ into useful products [6, 7]. In related work, we have also demonstrated how incorporating humidity can enhance the efficiency of CO₂ conversion processes [7].
Nevertheless, another study demonstrated the capture and conversion of CO2 into CO using a plasma-ionic liquid combination [8,9]. We capture the CO2 from the Air and convert it into CO with good conversion efficiency. Furthermore, we also performed a COMSOL Multiphysics simulation to identify the short radical species generated in the plasma.
Funding acknowledgement
This work was supported by PARKS-2024_14 and JSPS-KAKENHI grant no. 23K22483.
PRESENTATIONS (9)
- 2:00 pm – 2:15 pmExploring the Synergy Between Flow Dynamics and VOC Conversion in Surface Dielectric Barrier Discharges
Alexander Böddecker (presenter), Maximilian Passmann, Angie Natalia Torres Segura, Arisa Bodnar, Felix Awakowicz, Timothy Oppotsch, Martin Muhler, Peter Awakowicz, Andrew R. Gibson, Ihor Korolov, Thomas Mussenbrock
- 2:15 pm – 2:30 pmUncovering performance-enhancing strategy in plasma-based NH₃ cracking via chemical kinetics modeling
Seunghwan Bang (presenter), Stein Maerivoet, Annemie Bogaerts
- 2:30 pm – 2:45 pmAmmonia synthesis using nitrogen/water vapor inductively coupled plasma
Kyohei Kita (presenter), Yoshinobu Inagaki, Koichi Sasaki
- 2:45 pm – 3:00 pmPure hydrogen and hydrogen-carbon dioxide for plasma iron oxide smelting reduction
Jordan Nunes Figueiredo (presenter), Bassam Dally, Deanna A. Lacoste
- 3:00 pm – 3:15 pmStudy of Gaseous and Solid Carbon-based Byproducts during the Plasmolysis of Hydrocarbons in a Gliding Arc Discharge Reactor
Assan Abdirakhmanov (presenter), Pierre Mathieu, Yuan Tian, Carla Bittencourt, Rony Snyders
- 3:15 pm – 3:30 pmIntegrated Plasma-Solid Oxide Electrolyte Cell Technology for CO2 Utilization
Xingyu Chen (presenter), Aleksandr Pikalev, Vasco Guerra, Guanjun Zhang, Richard van de Sanden
- 3:30 pm – 3:45 pmPlasma-Based CO₂ Capture and Conversion: Engineering a Low-Carbon Future
Pankaj Attri (presenter), Sukuma W Fitriani, Hibiki Otobe, Naoya Hidaka, Takamasa Okumura, Masaharu Shiratani, Kazunori Koga
- 3:45 pm – 4:00 pmUnraveling Synergistic Mechanisms for Advanced Space Habitat Life Support Systems (Part I): Pressure-Driven Optimization of O₂ Yield in Plasma CO₂ Conversion
Dingchen Li (presenter)
- 4:00 pm – 4:15 pmA Claim-Centric Dataset for evaluating the contribution of Low-Temperature Plasma Science in Green Plasma Technologies
Bhaskar Chaudhury (presenter), Kalp K Pandya, Nirmal D Shah, Sahil Sadarangani, Agam Shah