1) method of static pressure water tower
静压水塔法
1.
In order to control the cost,ensure teaching effect and improve reliability and durability,the method of static pressure water tower was used to generate the standard flow source,CMF or other flowmeters were used to measure the flow,and the mass integrating method was used to provide quantity standard.
为控制成本、保证教学效果、改善可靠性和耐用性,采用静压水塔法产生标准流量源,以CMF或其他流量计测量流量,以累积质量法提供定量标准。
2) static water head
静水水压
3) calm-pressing water
静压水
4) high hydrostatic pressure
高静水压
1.
Mutagenesis of rhodotorula glutinis by high hydrostatic pressure and medium optimization for β-carotene fermentation;
黏红酵母高静水压诱变及其β-胡萝卜素发酵培养基的优化
2.
Study on high hydrostatic pressure treatment of G. lucidum Kars and its laccase fermentation;
灵芝高静水压诱变及其漆酶发酵的研究
3.
The design and high hydrostatic pressure analysis of flexural head tonpilz transducer;
纵弯耦合宽带换能器设计及高静水压实验分析
5) Hydrostatic Pressure
静水压
1.
Their relative permittivity was measured in detail under hydrostatic pressure from 0.
选用分子量为 5 0 0万的聚氧化乙烯和无水溴化铜 ,通过混溶蒸发法制备出一系列高聚物P(EO) n CuBr2 (n =4 ,8,12 ,16,2 4 )薄膜 ,并在 0 1~ 2 4 4 3MPa范围不同的静水压下详细测量了它们的相对介电常数。
2.
In this paper,utilizing the model of variational microstructures of the crystal and variational electric dipole moments of the ligands,we study the hydrostatic pressure dependence of EPR parameter a of6 State for CaCO3:Mn2+ crystals.
本文采用晶体微观结构、电偶极矩均随静水压力变化的模型,满意地解释了掺杂晶体CaCO3:Mn~(2+)中~6S态离子零场分裂立方分量a及其随静水压变化的关系。
3.
The result indicates that the main reason for the leaky fracture formation is not the stress caused by the hydrostatic pressure of greatly high storaged water,but the going up of pore pressure to a limit value in rock and soil body under certainly high storaged water.
从岩土力学的角度对水库蓄水后坝基和坝体形成渗漏裂缝的机理进行了理论计算和对比,结果表明,大高度蓄水静水压产生的附加应力并不是形成渗漏裂缝的主要因素,而一定高度蓄水引起岩土体内孔隙压升高到极限值才是产生破坏性裂缝、形成渗漏的主要原因。
6) hydrostatic pressure
静水压力
1.
Bending of thick rectangular plates with adjacent simply supported andtwo-fixed edges under hydrostatic pressure;
复杂边界厚矩形板在静水压力作用下的弯曲
2.
Bending of thick rectangular plates with adjacent simply supported,one fixed and one free edges under hydrostatic pressure
静水压力作用下复合边界条件厚矩形板的弯曲
3.
In this paper, reciprocal theorem method (RTM) is generalized to solve the problem of bending of thick rectangular plates under hydrostatic pressure based on Reissner's theory.
应用功的互等法(RTM)求解基于Reissner理论的厚矩形板的弯曲问题,给出了三边简支一边固定厚矩形板在静水压力作用下弯曲的封闭解析解,并给出了该种情况下的曲线图。
补充资料:垂水塔花
学名 Large-cupped narcissus
科别 凤梨科水塔花属
别名 比尔见亚、红藻凤梨、狭叶水塔花、凤梨兰
原产地 巴西
形态特征
是一种热带森林中的多年生附生草本。茎甚短。叶宽条形,革质,鲜绿色,表面有较厚的角质层和吸收鳞片,基部呈莲座状互相紧密抱合,使中心部分形成杯状,可贮水而不漏,故名“水塔花”或“水槽凤梨”。花期冬季至早春,从叶筒中心、抽生花苞。花草高约30厘米,自基部向上有数枚苞片,上部长片呈玫瑰色。花序穗状,往往成下垂形,顶牛6-12朵小花,花瓣3枚,淡茧绿色,边缘蓝色,开放后向外翻卷。此花盛放时串串蓝绿色的花朵在红色苞片的映衬下,显得分外艳丽夺目。
繁栽要点
垂水塔花不耐寒,喜温暖湿润的环境,冬季需放置温室或室内有阳光处养护,多晒阳光,以利开花生长。栽培用土以排水良好、富含腐殖质的疏松土壤为好,可用腐叶土、园土、砻糠灰和细砂配制而成。生长季节,每隔10天左右施一次淡肥。花前增施磷肥,能使花繁色艳。进入花期,如保持盆土的适当干燥,可延长花期。花后须将花梗剪除,以减少养分消耗。在春季翻盆时,可适当剪去一部分老株,以促使植株的更新。花后进入体眠期,要减少浇水量,并停止施肥。盛夏季节应将植株移置至荫棚下养护。
繁植常用分割蘖枝的方法,一般在春季结合换盆时进行。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条