Automatic Tank Gauging System is one of the most significant equipments in gas station, oil product pier and petrol chemical industry.
罐储自动计量系统,是加油站、油品码头,以及石油化工等企业的重要设备。
Short pier RC shear wall structure system with concealed bracings was put forward.
提出了钢筋混凝土带暗支撑短肢剪力墙结构体系。
Argus is the system Dr. Holman developed in research he began about 20 years ago at the Army Corps of Engineers research pier on the coast at Duck, n.c..
安格斯是郝曼博士二十年前在陆军工程兵团实验室做研究时开发的。
Automatic Tank Gauging System is one of the most significant equipments in gas station, oil product pier and petrochemical industry.
罐储自动计量系统,是加油站、油品码头,以及石油化工等企业的重要设备。
Used as the auxiliary supporting system for erection of the spans, the pier-side brackets to be arranged at the main piers of the bridge were indispensible.
南京大胜关长江大桥主桥钢桁拱采用架梁吊机双悬臂架设方案,主墩墩旁托架作为架梁的辅助支承体系必不可少。
A finite element model of the seamless turnout on simple supported beam bridge was established by regarding the turnout, beam and pier as one system.
将道岔、梁和墩台视为一个系统,建立简支梁桥上无缝道岔的有限元模型。
This system can travel along the rail connecting the barge and pier. Its travel speed and direction can be controlled.
该系统能在驳船和码头之间架设的钢梁轨道上连续平稳地运行,其前进方向和速度大小可严格控制;
Design and Construction of the anchor system for the large steel cofferdam of bridge pier of Wuhan Junshan Yangtze River Highway bridge are introduced.
介绍武汉军山长江公路大桥桥墩的巨型钢围堰在水上施工时,所采取的锚碇系统的设计。
The short pier RC shear wall structure emerging recent years is one new structure system for high-rise residence.
短肢剪力墙结构体系,是近年兴起的一种新型高层住宅结构体系。
The paper introduces the arrangement of anchor sheaf in gate pier, the design of tension, the selection of anchorage system and the result of space finite element calculation.
本文对预应力闸墩的锚束布置、张拉力设计、锚固体系选择以及空间有限元计算成果作了简要介绍。
Use the system to calculate the pier concrete thermal stress on SanCha River in Nanjing, and have reasonable results, which prove this system can increase working efficiency extremely.
对本文研究的水工建筑物温度应力仿真系统,结合南京三汊河水闸工程进行了试运行,得到了较为合理的计算结果,证明采用本系统可以较大缩短温控研究周期。
Use the system to calculate the pier concrete thermal stress on SanCha River in Nanjing, and have reasonable results, which prove this system can increase working efficiency extremely.
对本文研究的水工建筑物温度应力仿真系统,结合南京三汊河水闸工程进行了试运行,得到了较为合理的计算结果,证明采用本系统可以较大缩短温控研究周期。
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