Add to ORKGThis paper evaluates the railway catenary's wind deflection under crosswind based on wind tunnel experiments and a nonlinear finite element model. A catenary model is constructed based on the absolute nodal coordinate formulation to describe the geometrical nonlinearity of the system. The aerodynamic forces acting on the catenary are derived according to the quasi-steady theory, and the aerodynamic coefficients are obtained by wind tunnel experiments. A procedure to generate the three-dimensional fluctuating wind field along the catenary is presented. The extreme value of the wind deflection is estimated based on a Poisson approximation of the extreme value distribution. The numerical accuracy is validated by wind tunnel experimental result...
High-speed railway lines are widely distributed worldwide. The surrounding wind environment of such ...
This paper mainly aims at revealing the nature of the galloping oscillation of iced catenary system ...
The running safety for high speed trains involves the evaluation of the overturning risk associated ...
Abstract The interaction between the catenary and pantograph is one of the most crucial factors that...
The wind deflection of overhead contact lines (OCLs) challenges the stable and safe operation of ele...
A measurement investigation, at ADIF's test site at the O Eixo viaduct which is on the Spanish Santi...
Most of the high-speed trains in operation today have the electrical power supply delivered through ...
An experimental analysis of the aerodynamic characteristics of catenary contact wires is presented. ...
The objective of this master thesis was to determine the static aerodynamic forces on a contact wire...
Most of the high-speed trains in operation today have the electrical power supply delivered through ...
Crosswind stability is one of the most studied topics in the field of train aerodynamics. The intera...
Extensive wind tunnel tests have been carried out on train scale models. The experimental tests have...
The train overturning risk associated to strong crosswinds can be reduced by putting wind break fenc...
High-speed railway lines are widely distributed worldwide. The surrounding wind environment of such ...
This paper mainly aims at revealing the nature of the galloping oscillation of iced catenary system ...
The running safety for high speed trains involves the evaluation of the overturning risk associated ...
Abstract The interaction between the catenary and pantograph is one of the most crucial factors that...
The wind deflection of overhead contact lines (OCLs) challenges the stable and safe operation of ele...
A measurement investigation, at ADIF's test site at the O Eixo viaduct which is on the Spanish Santi...
Most of the high-speed trains in operation today have the electrical power supply delivered through ...
An experimental analysis of the aerodynamic characteristics of catenary contact wires is presented. ...
The objective of this master thesis was to determine the static aerodynamic forces on a contact wire...
Most of the high-speed trains in operation today have the electrical power supply delivered through ...
Crosswind stability is one of the most studied topics in the field of train aerodynamics. The intera...
Extensive wind tunnel tests have been carried out on train scale models. The experimental tests have...
The train overturning risk associated to strong crosswinds can be reduced by putting wind break fenc...
High-speed railway lines are widely distributed worldwide. The surrounding wind environment of such ...
This paper mainly aims at revealing the nature of the galloping oscillation of iced catenary system ...
The running safety for high speed trains involves the evaluation of the overturning risk associated ...