提出了立式低温液体储罐耳座的设计方法,并进行了实例计算。
A method to design and calculate the lug for vertical low-temperature liquid storage tank was presented and a practical example was offered.
一种固定式灭火装置,灭火剂储罐为真空绝热低温液体储罐,内部充装灭火剂;
The utility model provides a fixed fire extinguisher. An extinguishing agent tank is a vacuum heat insulative low temperature liquid tank which is internally filled with extinguishing agent;
浮动包含一个单刀双掷开关,它可以用来给调节控制以上的液体储罐,坑槽和水坝的水平。
The float contains a single pole double throw switch, which can be used to give adjustable control over the level of liquid in tanks, pits and dams.
可行时,液体物料应该用经过正确校验的立管来检测储罐或用孔板流量计、转子流量计或容积式流量计来测量;
Wherever practical the measurement of liquid streams shall be by standing gauges of properly calibrated tanks or by orifice meters, rotameters or displacement meters.
大型立式圆柱形钢储罐由底板、圆柱壳、固定或浮动顶盖组成,广泛用于固体和液体的储存。
Large vertical cylindrical steel tanks widely used for bulk and fluid storage generally consist of a thin bottom plate, a cylindrical shell, and a fixed or floating roof.
采用数值差分法可以求解出绝热层内部温度变化规律,从而推出储罐内液体的温度和压力的变化规律。
The equation was solved with the finite difference method and the variation of the temperature in the insulation layer was concluded.
该系统特别适合储存非均质的、两种不同性质液体的圆柱形储罐。
That system is especially suitable for the cylinder storage tank that can store inhomogeneous fluid and two liquids with different properties.
分析了低温液体容器无损存储时的传热规律,并建立了传热模型,得出了反映储罐绝热层温度变化的微分方程序。
By analyzing the heat transfer law of lossless storage in cryogenic vessel, a heat transfer model was established and the differential equation was derived.
计算结果表明,罐顶质量对储罐中液体的液动压力分布和大小都影响不大。
The results show that the mass of tank roof gives less effect on the distribution and magnitude of dynamic liquid pressure.
大型储罐大多储存易燃、易爆液体,一旦大型储罐遭受破坏,储液外泄将会对生产和国民经济带来严重损失。
However, most tanks are filled with inflammable and explosive liquid. Once the tanks are destroyed, the leakage will negatively effect the country's economic well being.
例如,游泳机器人就能被用来测试储存危险液体的储罐的底板和罐壁。
Swimming robots, for example, could be used to test the floors and walls of tanks storing hazardous liquids.
例如,游泳机器人就能被用来测试储存危险液体的储罐的底板和罐壁。
Swimming robots, for example, could be used to test the floors and walls of tanks storing hazardous liquids.
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