| 1 |
Experimental and numerical investigation of catalytic PM combustion in a fluidized bed type PM removal device for low-temperature continuous regeneration
Yokoo K, Wakizaka A, Kishida M, Yamamoto T
Advanced Powder Technology, 32(1), 151, 2021 |
| 2 |
Kinetic modeling of PM combustion with relative velocity at low-temperature and numerical simulation of continuous regenerating type PM removal device that uses a fluidized bed
Yokoo K, Matsune H, Kishida M, Tatebayashi J, Yamamoto T
Advanced Powder Technology, 31(2), 718, 2020 |
| 3 |
Low temperature, medium temperature and high temperature performance of the continuous regenerative diesel particulate filter assisted by electric regeneration
Zhong C, Gong JK, Liu WN, Liu GL
Chemical Engineering Science, 207, 980, 2019 |
| 4 |
Promoting effect of water vapor on particle matter combustion in a low-temperature continuous regeneration type PM removal device using a fluidized bed
Yokoo K, Matsune H, Kishida M, Tatebayashi J, Yamamoto T
Powder Technology, 355, 657, 2019 |
| 5 |
백금담지 알루미나 촉매와 오존 산화제 동시 적용에 의한 탄소 입자상 물질의 저온 산화반응
이진수, 이대원
Korean Chemical Engineering Research, 56(5), 752, 2018 |
| 6 |
Highly efficient particulate matter removal by a fluidized-bed-type device operated in continuous regeneration mode
Yamamoto T, Yokoo K, Kusu A, Tatebayashi J
Powder Technology, 323, 86, 2018 |
| 7 |
Ceria-Coated Diesel Particulate Filters for Continuous Regeneration
Di Sarli V, Landi G, Lisi L, Di Benedetto A
AIChE Journal, 63(8), 3442, 2017 |
