Song, Kuntong Li, Yi Huo, Feng Liu, Junhong Hou, Wenxia Wang, Nan Zhou, Qing Xu, Junli Lu, Xingmei
In the conventional polyethylene terephthalate (PET) pyrolysis process, the formation of char by excessive pyrolysis is mainly due to the dehydration mechanism, so water is considered an auxiliary agent that can effectively inhibit excessive pyrolysis. The preparation of terephthalic acid (TPA) by steam-assisted pyrolysis of PET is an effective met...
Song, Kuntong Li, Yi Huo, Feng Liu, Junhong Hou, Wenxia Wang, Nan Zhou, Qing Xu, Junli Lu, Xingmei
In the conventional polyethylene terephthalate (PET) pyrolysis process, the formation of char by excessive pyrolysis is mainly due to the dehydration mechanism, so water is considered an auxiliary agent that can effectively inhibit excessive pyrolysis. The preparation of terephthalic acid (TPA) by steam-assisted pyrolysis of PET is an effective met...
Li, Dandan Zhao, Bidan Wang, Junwu
Spatiotemporal coherent structures are critical in quantifying the hydrodynamics of dense gas-solid flows. In this study, two data-driven methods, proper orthogonal decomposition (POD) and dynamic mode decomposition (DMD), are applied to identify and characterize the dominant spatiotemporal coherent structures in a bubbling fluidized bed. It is fou...
Li, Dandan Zhao, Bidan Wang, Junwu
Spatiotemporal coherent structures are critical in quantifying the hydrodynamics of dense gas-solid flows. In this study, two data-driven methods, proper orthogonal decomposition (POD) and dynamic mode decomposition (DMD), are applied to identify and characterize the dominant spatiotemporal coherent structures in a bubbling fluidized bed. It is fou...
Li, Qingzhan Zhu, Renshuai Wang, Wei Chen, Yanpei Li, Fei Furuhata, Tomohiko
Particle-laden jet flow is important to both jet-related industry applications and transmission of the virus through violent expiratory events, such as coughing and sneezing. To help understand its dynamics from the particle level, we develop a time-resolved, three-dimensional (3D), particle tracking velocimetry method, coupled with particle image ...
Li, Qingzhan Zhu, Renshuai Wang, Wei Chen, Yanpei Li, Fei Furuhata, Tomohiko
Particle-laden jet flow is important to both jet-related industry applications and transmission of the virus through violent expiratory events, such as coughing and sneezing. To help understand its dynamics from the particle level, we develop a time-resolved, three-dimensional (3D), particle tracking velocimetry method, coupled with particle image ...
Bi, Rongshan Zhang, Yan Jiang, Xiao Yang, Haixing Yan, Kejia Han, Min Li, Wenhua Zhong, Hua Tan, Xinshun Xia, Li
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Waste tires are more and more produced with the fast development of the auto industry and transportation and the traditional disposal method of landfill and dumping has been forbidden by many countries. It is important to choose effective disposal methods for a circular economy and sustainable development strategy. In this paper, we reviewed the di...
Bi, Rongshan Zhang, Yan Jiang, Xiao Yang, Haixing Yan, Kejia Han, Min Li, Wenhua Zhong, Hua Tan, Xinshun Xia, Li
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Waste tires are more and more produced with the fast development of the auto industry and transportation and the traditional disposal method of landfill and dumping has been forbidden by many countries. It is important to choose effective disposal methods for a circular economy and sustainable development strategy. In this paper, we reviewed the di...
Lu, Jijun Zhang, Yaoyao Gong, Xuzhong Li, Leyang Pang, Sheng Qian, Guoyu Wang, Zhi Liu, Junhao
Ultra-thin two-dimensional (2D) silicon nanosheets (SiNSs) have potential applications in electronic, energy storage, and energy conversion devices owing to their unique properties. However, high-yield and large-scale manufacturing of high-quality ultra-thin 2D SiNSs remains a great challenge. This report describes a simple, high-yield (> 98%), and...
Lu, Jijun Zhang, Yaoyao Gong, Xuzhong Li, Leyang Pang, Sheng Qian, Guoyu Wang, Zhi Liu, Junhao
Ultra-thin two-dimensional (2D) silicon nanosheets (SiNSs) have potential applications in electronic, energy storage, and energy conversion devices owing to their unique properties. However, high-yield and large-scale manufacturing of high-quality ultra-thin 2D SiNSs remains a great challenge. This report describes a simple, high-yield (> 98%), and...