全球每四个城市中就有一个有用水压力。
文中采用水压力补偿技术,建立了基于圆筒式测力结构的水下灵巧手末端指节的结构模型。
To accomplish this, a finger-tip force sensor model of an underwater dexterous hand was built based on a cylindrical elastic body employing a water pressure compensation technique.
采用水压力补偿技术,设计了基于圆筒式测力结构的水下灵巧手指端力传感器,分析了其工作原理。
This paper described the development of fingertip force sensor based on cylindrical elastic body employing the water pressure compensation technique, and analysed the principle.
的统计数据显示,目前有14个非洲国家正在经历水荒或用水压力,到2025年,这一数字将会上升至25个。
Environment Programme (UNEP) says 14 African countries currently experience water scarcity or stress, a number that will rise to 25 by 2025.
该方法将缝闸墩在闸门支座处对顶,利用水压力产生的对顶力,减小和调整地震期缝闸墩内力,达到加固缝闸墩的目的。
To opposite vertex in gate support and use its vertex force, the method adjusts and reduces the inter force of joint pier to consolidate it.
Environment Programme:UNEP)的统计数据显示,目前有14个非洲国家正在经历水荒或用水压力,到2025年,这一数字将会上升至25个。
Environment Programme (UNEP) says 14 African countries currently experience water scarcity or stress, a number that will rise to 25 by 2025.
联合国环境规划署(The U.N. Environment Programme:UNEP)的统计数据显示,目前有14个非洲国家正在经历水荒或用水压力,到2025年,这一数字将会上升至25个。
The U.N. Environment Programme (UNEP) says 14 African countries currently experience water scarcity or stress, a number that will rise to 25 by 2025.
普通水塔储蓄一整天的用水,由此,即便在停电的情况下,重力作用仍能保持供水系统的静水压力。
And since a typical tower contains a full day's worth of water, the force of gravity can maintain the hydrostatic pressure of the water system even when the power goes out.
它不但能根据用水用户的实际要求进行远程控制,满足用户的实际要求,为用户提供高质量的供水服务,解决了当前存在的许多地方供水压力达不到要求的矛盾;
It can not only control according to the fact of consumer in the distance to solve the contravention of water supply pressure not enough , but also found fault of it in time.
同时使用水流传感器检测用户用水信号实现对用水循环泵的控制以提供合适的供水压力;
At the same time, a water flow sensor was used to achieve the control of water supply pump which can provide suitable water pressure.
运用水力压裂理论推导出沉桩产生的超孔隙水压力在沉桩后瞬时沿桩身径向和竖向的分布。
Using the theory of hydraulic fracture, radial and vertical distributions of excess pore water pressure are subsequently studied along the pile surface during and after pile driving.
运用水力压裂理论推导出沉桩产生的超孔隙水压力在沉桩后瞬时沿桩身径向和竖向的分布。
Using the theory of hydraulic fracture, radial and vertical distributions of excess pore water pressure are subsequently studied along the pile surface during and after pile driving.
应用推荐