1) integrated loss
整合的损失
2) mixture loss
混合损失
1.
According to the continuity equation,the momentum equation and energy equation of gas and liquid phase,the mixture loss model of the gas and liquid phase under the condition of having no mass exchanging between gas and liquid,isothermal and steady flow was gotten.
对水平井的孔眼入流处的微元段进行了流动分析,根据气、液两相的连续性方程、动量方程和能量方程,在相间不存在传质和等温稳态流动等条件下,得到了气、液两相的混合损失计算模型。
2.
It is found by analysis that the flow resistance in the horizontal wellbore is made of three parts: wall friction loss, acceleration loss and mixture loss, and the mixture loss is mainly influenced by main flow velocity and perforation flow velocity.
对水平井井筒单孔眼段流动阻力损失分析可知 ,流动阻力由三部分组成 :管壁摩擦阻力、加速损失和混合损失 。
3) synthetic loss
综合损失
4) coupling loss
耦合损失
1.
The theory of calculating the coupling losses in a coaxial waveguide laser resonator is introduced.
计算了同轴圆筒波导谐振腔的耦合损失, 结果表明存在三种低耦合损失谐振腔结构; 最后分析了谐振腔的模式特征及其设计方
2.
The coupling losses in planar waveguide resonators have been calculated and some results of the coupling losses for the EH 11 mode of different planar waveguide are given as a function of mirror curvature and position.
计算了平板波导谐振腔的耦合损失,给出了平板波导中EH11模的耦合损失与球镜的曲率及位置的关系。
3.
The calculation is made for three low coupling loss cases ofsquare or circular waveguide-laser resonator with plane- parallel, half-concentric andsemiconfocal geometries.
相应于方波导或圆波导的三种低耦合损失的谐振腔结构,即平行平面、半共心、半共焦结构,计算了不同纵横比的平板波导内各种模式的耦合损失,讨论了平板波导激光器谐振腔的设计和模式特征。
5) The fitting of Loss
损失拟合
6) polymerization losses
聚合损失
补充资料:不整合
| 不整合 unconformity 上下两套不同时代地层之间出现过沉积间断或地层缺失的地层接触关系。地层不连续,古生物演化顺序也是不连续的,由此确定岩层的时代也是不连续的。地层剖面中的岩层是现存的地层部分,而不整合则是缺失的地层部分。不整合一般分为角度不整合和假整合(又称平行不整合)等类型。前者是两套地层呈一定角度接触,中间为一侵蚀面(即不整合面),说明在前一套地层沉积后,有一次大的构造运动和海陆变化,然后地壳再次下沉又沉积了后一套地层。后者是两套地层大体呈平行接触,中间为一侵蚀面(即不整合面),说明在前一套地层沉积过程中有一次较大的地壳上升或海退运动以后地壳再次拗陷,沉积了后一套地层。识别和鉴定不整合的证据:①地层自然记录缺失的间隔证据,包括古生物自然记录的间断和地层自然记录的间断。②侵蚀的证据,包括构造不一致和地形不规则。③古陆表面的证据,包括风化面、古土壤、底砾岩等。不整合研究具有广泛意义,它是造山幕建立或构造旋回划分、岩石地层单位划分的重要依据。 |
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参考词条