TY  - GEN
N2  - These proceedings highlight the fundamental researches and up-to-data developments on energy conversion and high-voltage application by means of low temperature and atmospheric pressure plasma. In recent years, plasma-assisted energy conversion gains increasing attention as an alternative to thermal-catalysis or electro-catalysis. These proceedings discuss and exchange cutting-edge scientific innovations and technological advances in fields like plasma-enabled synthesis of chemicals and fuels, plasma-enabled the environmental clean-up, plasma-enabled catalysis treatment, in-situ probing of plasma-catalyst interactions and its high-voltage applications, which show great potentials in industrial demands like CO2 hydrogenation, CH4 reforming and nitrogen fixation, plasma deposition, chemical synthesis, VOC abatement and high-voltage insulation. This collection of papers presents the main applications of plasma-induced energy conversion and high-voltage discharge in the form of separate chapters, including cutting-edge studies on conversion technology, complex mechanism simulation, in-situ detection and converged applications by artificial intelligence. These proceedings are suitable for researchers engaged in fields like plasma-catalysis, discharge diagnosis and modelling, chemical modelling and high-voltage applications. The major topics covered in the conference proceedings are: 1) Advanced plasma-catalysis conversion technology; 2) Advanced in-situ discharge diagnosis technology; 3) Advanced in-situ plasma-catalysis characterization; 4) Multi-scale or innovative modelling technology; 5) High-voltage discharge and application.
DO  - 10.1007/978-981-99-1576-7
DO  - doi
AB  - These proceedings highlight the fundamental researches and up-to-data developments on energy conversion and high-voltage application by means of low temperature and atmospheric pressure plasma. In recent years, plasma-assisted energy conversion gains increasing attention as an alternative to thermal-catalysis or electro-catalysis. These proceedings discuss and exchange cutting-edge scientific innovations and technological advances in fields like plasma-enabled synthesis of chemicals and fuels, plasma-enabled the environmental clean-up, plasma-enabled catalysis treatment, in-situ probing of plasma-catalyst interactions and its high-voltage applications, which show great potentials in industrial demands like CO2 hydrogenation, CH4 reforming and nitrogen fixation, plasma deposition, chemical synthesis, VOC abatement and high-voltage insulation. This collection of papers presents the main applications of plasma-induced energy conversion and high-voltage discharge in the form of separate chapters, including cutting-edge studies on conversion technology, complex mechanism simulation, in-situ detection and converged applications by artificial intelligence. These proceedings are suitable for researchers engaged in fields like plasma-catalysis, discharge diagnosis and modelling, chemical modelling and high-voltage applications. The major topics covered in the conference proceedings are: 1) Advanced plasma-catalysis conversion technology; 2) Advanced in-situ discharge diagnosis technology; 3) Advanced in-situ plasma-catalysis characterization; 4) Multi-scale or innovative modelling technology; 5) High-voltage discharge and application.
T1  - Proceedings of the 4th International Symposium on Plasma and Energy Conversion :ISPEC 2022, 14-16 Oct, Foshan, China /
AU  - Dai, Dong,
AU  - Zhang, Cheng,
AU  - Fang, Zhi,
AU  - Lu, XinPei,
VL  - 391
CN  - TK2896
N1  - Includes author index.
ID  - 1463437
KW  - Energy conversion
KW  - Plasma (Ionized gases)
SN  - 9789819915767
SN  - 9819915767
TI  - Proceedings of the 4th International Symposium on Plasma and Energy Conversion :ISPEC 2022, 14-16 Oct, Foshan, China /
LK  - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-99-1576-7
UR  - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-99-1576-7
ER  -