Abstract
Based on the bench test of a 1.5 L gasoline engine equipped with a catalytic gasoline engine particulate filter (CGPF), the fuel cut-off regeneration characteristics of the next generation with small pore size GPF and the common GPF under different soot loading and temperatures were studied. The results showed that after the fuel was cutoff during the regeneration process, the center temperature of the sample rose exponentially, and as the regeneration time extended, the temperature gradually became flat. The temperature distribution inside the carrier was such that the inlet temperature was low at the axial position, and the temperature near the outlet was high, the radial position showed a trend of high temperature in the middle and low temperature at the edge, and the temperature difference between the edge and the center of the carrier was large. The maximum temperature inside the GPF increased with the increase in soot loading, and the maximum temperature gradient also increased. When the soot loading reached 6 g/L and the fuel cut-off regeneration was conducted at 650 °C, the maximum and maximum temperature gradient inside the GPF exceeded the tolerance limit of the GPF, and the inside of the carrier was damaged to varying degrees. Therefore, these parameters should be controlled during regeneration.
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A. Mamakos, G. Martini, A. Marotta and U. Manfredi, J. Aerosol Sci., 63, 115 (2013).
C. Gong, X. Si and F. Liu, Fuel, 303, 121262 (2021).
X. Liu, T. Chanko, C. Lambert and M. Maricq, SAE Int. Technical Paper, 2018-01-1259 (2018).
J. Du, W. C. Sun, L. Guo, S. L. Xiao, M. Z. Tan, G. L. Li and L. Y. Fan, Energy Convers. Manage., 100, 300 (2015).
W. J. Zhong, T. M. Xuan, Z. X. He, Q. Wang, D. Li, X. Zhang and Y. Y. Huang, Energy Convers. Manage., 121, 241 (2016).
B. Liang, Y. S. Ge, J. W. Tan, X. K. Han, L. P. Gao, L. J. Hao, W. T. Ye and P. P. Dai, J. Aerosol Sci., 57, 21 (2013).
M. M. Zhang, W. Hong, F. X. Xie, Y. Su, H. T. Liu and S. T. Zhou, Energy Convers. Manage., 164, 344 (2018).
J. Y. Ko, K. J. Kim, W. Y. Chung, C. L. Myung and S. Park, Fuel, 238, 363 (2019).
F. Bonatesta, E. Chiappetta and L. Rocca, Appl. Energy, 124, 366 (2014).
W. J. Zhong, P. Tamilselvan, Q. Wang, Z. X. He, H. Feng and X. Yu, Energy, 153, 349 (2018).
E. Distaso, R. Amirante, P. Tamburrano and D. Reite, Energy Convers. Manage., 184, 24 (2019).
J. J. Wang, F. W. Yan, N. Fang, D. Yan, G. Q. Zhang, Y. Wang and W. L. Yang, Energies, 13, 1 (2020).
F. X. Xie, W. Hong, Y. Su, M. M. Zhang and B. P. Jiang, Energy Convers. Manage., 142, 69 (2017).
S. Choi, K. Oh and C. Lee, Energy, 77, 327 (2014).
P. Piqueras, E. Sanchis, J. Herreros and A. Tsolakis, Chem. Eng. Sci., 234, 116437 (2021).
C. Saito, T. Nakatani, Y. Miyairi, K. Yuuki and C. Vogt, SAE Technical Paper, 2011-01-0814 (2011).
H. Badshah, D. Kittelson and W. Northrop, SAE Int. J. Engines, 9, 1775 (2016).
P. Tandon, A. Heibel, J. Whitmore, N. Kekre and K. Chithapragada, Chem. Eng. Sci., 65, 4715 (2010).
Z. W. Meng, Z. Chen, J. Tan, W. Wang, Z. L. Zhan, J. F. Huang and J. Fang, Chem. Eng. Sci., 248, 117114 (2022).
T. Chan, M. Saffaripour, F. S. Liu, J. Hendren, K. Thomson, J. Kubsh, R. Brezny and G. Rideout, Emission Control Sci. Technol., 2, 75 (2016).
Q. S. Zuo, Y. Y. Tang, W. Chen, J. P. Zhang, L. Shi and Y. Xie, Fuel, 265, 117001 (2020).
V. Bermudez, J. R. Serrano, P. Piqueras and O. Garcia, Appl. Energy, 140, 234 (2015).
G. Landi, V. Sarli and L. Lisi, Topics Catal., 64, 270 (2021).
V. Palma and E. Meloni, Fuel, 181, 421 (2016).
Z. Stępień, L. Ziemiański, G. Żak, M. Wojtasik, L. Jeczmionek and Z. Burnus, Fuel, 161, 278 (2015).
V. D. Sarli and A. D. Benedetto, AIChE J., 64, 1714 (2018).
V. D. Sarli, G. Landi, A. D. Benedetto and L. Lisi, Topics Catal., 64, 256 (2021).
S. Soltani, R. Andersson and B. Andersson, Fuel, 220, 453 (2018).
T. Boger, D. Rose, P. Nicolin, N. Gunasekaran and T. Glasson, Emission Control Sci. Technol., 1, 49 (2015).
X. Feng, H. Liu, W. Li, S. He and Z. Lu, SAE Technical Paper, 2019-01-0968 (2019).
P. Nicolin, D. Rose, F. Kunath and T. Boger, SAE Int. J. Engines, 8, 1253 (2015).
A. G. Konstandopoulos, M. Kostoglou and P. Housiada, SAE Technical Paper, 110, 609 (2001).
C. Kurien, A. K. Srivastava, N. Gandigudi and K. Anand, J. Energy Inst., 93, 463 (2020).
I. Belot, D. Vidal, R. Greiner, M. Votsmeier, R. E. Hayes and F. Bertrand, Chem. Eng. J., 406, 127040 (2021).
J. Benajes, A. García, J. Monsalve-Serrano, I. Balloul and G. Pradel, Energy Convers. Manage., 123, 381 (2016).
Z. W. Meng, C. Chen, J. S. Li, J. Fang, J. Tan, Y. Qin, Y. Jiang, Z. H. Qin, W. L. Bai and K. Liang, Fuel, 262, 116589 (2020).
J. Gong, M. L. Stewart, A. Zelenyuk, A. Strzelec, S. Viswanathan, D. A. Rothamer, D. E. Foster and C. J. Rutland, Chem. Eng. J., 338, 15 (2018).
H. Nakayama, Y. Banno, H. Mochizuki, H. Hara, A. Takayama, M. Nagata, Y. Sasaki and S. Yoneyama, Topics Catal., 62, 419 (2019).
Funding
This work was supported by Natural Science Foundation of Hebei Province (Grant numbers E2019203527).
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All authors contributed to the study conception and design. Material preparation, data collection and analysis were performed by Qiushi Zhang, Haitao Liu, Lun Hua and Caihong Zhang. The first draft of the manuscript was written by Nan Li and Zheng Nan and all authors commented on previous versions of the manuscript. All authors read and approved the final manuscript.
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Li, N., Nan, Z., Zhang, Q. et al. Study on temperature characteristics of gasoline engine particulate filters during fuel cut-off. Korean J. Chem. Eng. 39, 3434–3441 (2022). https://doi.org/10.1007/s11814-022-1237-6
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DOI: https://doi.org/10.1007/s11814-022-1237-6