1) crust soil
结壳土壤
2) incrusted soil
结壳土壤
3) ridge
结壳
1.
The k-ε two-equation and SIMPLE calculation methods were adopted to calculate the flow field of 190kA prebaked anode aluminum reduction cells under ideal condition, anode change (AC), different metal height, bottom ridge and anode spikes.
采用k-ε二方程法和SIMPLE算法对190 kA大型预焙阳极铝电解槽分别在槽况较为理想、更换阳极、炉底存在结壳、不同铝水平以及阳极长包情况下的铝液流速场进行了三维计算。
4) incrustation
结壳
5) crustization
结壳
6) scull
结壳
7) skull
结壳
8) encrust
结壳
9) Cobalt-rich crusts
富钴结壳
1.
Optimization control of cut depth in the mining of ocean cobalt-rich crusts based on GA;
基于遗传算法的大洋富钴结壳开采的切削深度优化控制
2.
Study on multilevel model of optimized cut depth in real-time mining of ocean cobalt-rich crusts;
大洋富钴结壳实时开采切削深度优化分级模型研究
3.
Astudy on the physical properties of Cobalt-Rich crusts on the seafloor;
海底富钴结壳物理特性的试验研究
10) cobalt crust
钴结壳
1.
A Method of Design and Realization about a Test System of Deep-sea Cobalt Crust Cutting Head;
一种深海钴结壳采矿头力学测试系统的设计
2.
Sea floor cobalt crust is rich in such metals as Mn, Co and Ni, and has been one of recently exploited and investigeted mineral resources.
海底钴结壳富含锰、钴和镍等金属 ,是人类近期勘探和开采研究的热点之一。
3.
Based on the experience on mining deep sea manganese nodule and the new research achievements of rich cobalt crust, the authors developed a mining scenario for deep sea rich cobalt crust with drum type collecting head.
从国内外深海开采锰结核的经验出发 ,通过分析比较钴结壳最新研究成果 ,提出了深海开采富钴结壳采掘机器人滚筒式采矿头的方案 ;通过对其切削破碎钴结壳载荷波动性的分析 ,建立了其载荷波动的数学模型 ,编制了模拟计算采集头载荷及其波动性指标的计算机程序 ,并对设计的深海钴结壳采集头理论模型的载荷特性进行了模拟和分析 ,为设计和优化深海钴结壳采掘机器人滚筒式采集头提供了设计依
补充资料:壳壳
1.亦作"殻殻"。 2.诚笃貌。 3.中空貌。 4.象声词。
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