A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Dynamics of Super-Scale Modularized Floating Airport
Abstract This paper reviews a study on the nonlinear dynamics of a super-scale floating airport that consists of multiple floating modules with a flexible connection system. A novel network structure dynamics method is proposed for the dynamics prediction of the floating structure. A network modeling method is developed for the super-scale floating airport with arbitrary topological configuration and connection and the experimental validation is conducted in a wave basin. Nonlinear dynamics and network synergetic effect of the floating airport are elaborated, especially for the physical phenomenon of “amplitude death” that plays a key role in the system stability. The mechanism for the occurrence of amplitude death (AD) in non-autonomous systems is revealed and further the mathematical criterion is derived. The stability analysis based on amplitude death mechanism is carried out. Some applications of the network structure dynamics method in ocean engineering is illustrated. Finally, the prospective of the methodology is addressed, potentially extendable to many engineering problems with network structure alike.
Dynamics of Super-Scale Modularized Floating Airport
Abstract This paper reviews a study on the nonlinear dynamics of a super-scale floating airport that consists of multiple floating modules with a flexible connection system. A novel network structure dynamics method is proposed for the dynamics prediction of the floating structure. A network modeling method is developed for the super-scale floating airport with arbitrary topological configuration and connection and the experimental validation is conducted in a wave basin. Nonlinear dynamics and network synergetic effect of the floating airport are elaborated, especially for the physical phenomenon of “amplitude death” that plays a key role in the system stability. The mechanism for the occurrence of amplitude death (AD) in non-autonomous systems is revealed and further the mathematical criterion is derived. The stability analysis based on amplitude death mechanism is carried out. Some applications of the network structure dynamics method in ocean engineering is illustrated. Finally, the prospective of the methodology is addressed, potentially extendable to many engineering problems with network structure alike.
Dynamics of Super-Scale Modularized Floating Airport
Zhang, Haicheng (author) / Xu, Daolin (author) / Xia, Shuyan (author) / Shi, Qijia (author) / Yang, Guangyu (author) / Ding, Rui (author)
2019-07-18
22 pages
Article/Chapter (Book)
Electronic Resource
English
Dynamics of Super-Scale Modularized Floating Airport
| TIBKAT | 2020
Offshore Floating Airport Concept
| British Library Conference Proceedings | 1994
Modularized wave power generation floating breakwater unit and breakwater
| European Patent Office | 2024
Modularized rapidly-assembled steel structure floating bridge and implementation method
| European Patent Office | 2024