Optimum Hopper Capacity Selection for TSHD Based on the Cost Calculation;
基于疏浚成本选择耙吸式挖泥船的最优仓容
To find the rule about the change of the mass center positions of a TSHD s draghead with time when working in different soil hardness of seabed under the function of swell compensator, a simulation model of TSHD is built based on a mathematical model, by using the software of ADAMS (Automated Dynamic Analysis of Mechanical Systems).
为研究耙吸式挖泥船(TSHD)在波浪补偿器作用下耙头质心位置在海床土壤硬度不同时随时间的变化规律,本文在建立波浪补偿器数学模型基础上,借助多体动力学仿真软件ADAMS,以某单耙TSHD为例,建立其疏浚过程动力学仿真模型。
Design study on large car-type system of cutter suction dredger;
大型绞吸式挖泥船台车系统的设计研究
Dynamic behavior and simulation system design of a cutter suction dredger;
绞吸式挖泥船疏浚动态特性与仿真系统设计
350 m~3/h (split type) cutter suction dredger;
350m~3/h(分体)绞吸式挖泥船
A trailing suction hopper dredger is one of the most popular dredging tools for regulati.
耙吸式挖泥船是最常用的清理河道港口的疏浚工具之一,它是水力式挖泥船中大型自航、自载式挖泥船,适用于水域开阔的海湾、河口,具有广泛的适用性和经济性,为世界上各个国家在较大的疏浚工程中广泛采用。