海洋采矿

海洋采矿装置升沉补偿系统模糊控制的探讨

Discussion on Fuzzy Control System of Ocean Mining Compensatory Equipment

海洋采矿和海洋利用合作专家会议

Meeting of Experts for Cooperation on Ocean Mining and Uses of the Sea

基于OpenGL的海洋采矿升沉补偿可视化系统

Visualization of Heave Compensation System for Heavy Lifting Mine Pipeline Based on OpenGL

该方法可以有效地预测和考察采矿系统在实际海洋采矿过程中的动力学行为，为1000m海洋采矿试验提供理论参考和安全评价。

The computer simulation method can forecast and investigate the kinematics and dynamics performance of the mining system in the real sea trial , and provide theoretic reference and security evaluation for the 1000m sea trial .

海洋采矿与我国的对策

Sea mining and the counter measure taken by our country

21世纪的新兴产业&海洋采矿

A newly-risen industry for 21st century & seabed mining

海洋采矿破碎机的振动分析

Vibration Analysis of The Crusher for Submarine Mining

海洋采矿起伏补偿电液控制信号采集的研究

Research on Sampling of a Ship 's Heaving Compensation of Electro-hydraulic Servo in Deep-sea Mining

研制和开发稳定、可靠的数据采集、通信和监控系统是当前海洋采矿技术的首要任务。

It is , currently , an important task to develop a steady supervisory system on data-acquisition , remote communication and control .

浆体管道输送工程中，大部分是水平管道输送，但是倾斜和垂直管道输送也同样有着重要的应用，像海洋采矿中就基本属于垂直与倾斜管道联合问题。

In slurry pipeline transport project , horizontal pipeline take the great part , but slope and vertical pipeline are also play the great important part in project , the problem that oceanic mining belong to the vertical pipeline or to the slope pipeline .

初步设计海洋采矿装置升沉补偿系统的模糊控制系统。与传统方法相比，此系统能对海浪产生的随机干扰进行控制并通过仿真试验，获得良好的动态控制效果

This paper designed the fuzzy control system for ocean mining compensatory equipement Compared with the traditional control methods , the random disturb of ocean wave can be controlled by this system Meanwhile the emulation experiment is adopted in this research and the result of dynamic control is very good

介绍了中国大洋多金属结核1000m海洋试验采矿系统的组成，及其运动学与动力学特性计算机模拟研究方法。

The deep ocean polymetallic nodule mining system of 1000m sea trial and its computer simulation methods of kinematics and dynamics were introduced .

按照化学家的说法，如果有人有兴趣在海洋中采矿的话，那么他们可以开采出1000万吨黄金，价值超过500万亿美元。

If anyone was interested in sifting the oceans , they could recover 10 million tons of gold , worth over $ 500 trillion , according to chemists .

根据1000m海试采矿系统布放回收作业的海洋环境分析采矿船的运动，计算了扬矿软管、硬管、中间仓、集矿车在水下所受海洋环境载荷。

Ship motion were analyzed , forces that flexible hose , rigid pipe , collector and buffer station suffered from water were computed according to their shape characters .

随着海洋工程、深海采矿等技术的发展，人类对海洋的探索已逐渐由浅海转向深海。

As the development of ocean engineering and deep-sea mining , the exploration of ocean has turned from the shallow sea to the deep sea .

21世纪深海多金属结核采矿已成为海洋高科技产业发展的重要领域，数据采集、通信和监控手段是海洋多金属结核采矿技术的关键组成部分之一。

Deep-sea mining of minerals like manganese nodules has been one of the challenging tasks facing ocean engineering in the 21 ~ ( th ) century , and one of significant domains of the high science and technology development in maritime industry .