因此实际调节脉冲爆震爆震发动机应尽量采用组合的调节方式。
Therefore, combined control method should be used for controlling pulse detonation engines.
所以对于脉冲爆震爆震发动机应采用调节爆震频率和燃气填充相结合的控制策略。
Therefore, a cooperation method of the frequency and fuel flow should be used for pulse detonation engine control.
强化精神分流增加,这个新天赋使你的心灵震爆与暗言术:灭有50/100%的几率获得50%的额外精神与25%的施法回蓝,持续8秒。
Improved Spirit Tap added, this new talent gives your Mind Blast and Shadow Word: Death spells a 50/100% chance to give 50% extra spirit and 25% mana regeneration while casting for 8 seconds.
他查出了引起发动机发出爆震声故障的原因。
目前铅和甲基叔丁基醚(MTBE)等添加剂被叫停,取而代之的是在汽油中添加少量酒精,这样提升辛烷水平能防止负载中引擎产生爆震。
With lead and MTBE additives now phased out, spiking petrol with a small amount of ethanol raises its octane level enough to prevent the engine from "knocking" under load.
爆震控制和预防失火软件将提供作为升级。
Knock control and misfire prevention software will be offered as upgrades.
这导致侦测敲击或声音,剥夺了权力的发动机,同时,不加制止,造成严重的发动机损坏。爆震可能与相应的辛烷值淘汰。
It causes a knocking or pinging sound, robs the engine of power and, left unchecked, causes serious engine damage. Knock may be eliminated with the appropriate octane number.
两种基准参考燃料正庚烷和异辛烷分别被定义成辛烷值为0和辛烷值为100,将它们混合产生与实验样本相等敲缸强度的爆震。
Two primary standard reference fuels, normal heptane and iso-octane arbitrarily assigned 0 and 100 octane number, respectively, are then blended to produce the same knock intensity as the test sample.
显然,为要抵抗爆震,结构材料的延性是一个重要的条件。
It is evident that ductility is a desirable property of structural materials required to resist blast.
汽油机爆震的难点是爆震边缘点检测,爆震边缘点是汽油机点火闭环控制的前提。
The knock threshold detection is the key of gasoline engine knock detection, and it is the key of the closed loop ignition control of gasoline engines.
目的:研究肺爆震伤的病理变化。
Objective: To study the pathological changes of the blast lung.
直链烷烃使机器的“爆震”问题更加严重。
The straight - chain alkanes exacerbate the problem of engine " knock ".
采用汽油和空气作为燃料和氧化剂,进行了脉冲爆震燃烧室(PDC)与涡轮相互作用的原理性模型试验装置的试验。
Experimental investigations of a principle model of interaction of pulse detonation combustor (PDC) with turbine were made by using gasoline and air as fuel and oxidizer.
在涡扇发动机基础上,以脉冲爆震燃烧室代替普通加力燃烧室构成涡扇-脉冲爆震组合发动机。
Based on a turbofan engine, the afterburner is replaced with pulse detonation combustor to form a turbofan-pulse detonation hybrid engine.
根据发动机爆震原理,介绍了一种发动机爆震检测的方法,并给出了硬件设计框图。
With a view to the theory of engine knock, this paper introduces a method of knock detection in detain.
进行了用冷态实验模拟爆震室中雾化性能的研究。
The atomization performance of Pulse Detonation Chamber is investigated using cold test.
爆震可能使结构物的钢架变形,屋顶倒塌墙壁内陷,墙板破碎,窗户玻璃破碎等。
The blast may deflect structural steel frames, collapse roofs, dish - in walls, shatter panels, and break windows.
通过对两则典型的汽车爆震故障诊断排除案例,总结归纳出预防和排除两类常见爆震故障的方法和步骤。
By studying two typical cases of automotive knock fault, the paper summarizes the methods and steps of preventing and eliminating two types of common knocks.
结论科学有效的护理组织与管理,是争取抢救时间、提高突发爆震伤救治成功率的重要保证。
Conclusion Scientific and effective nursing organization and administration was the guarantee of saving rescuing time and raising successful rate for patients with blast injury.
阐述了脉冲爆震发动机工作原理,对脉冲爆震发动机热效率、循环过程及性能进行了初步分析。
This paper describes the principles of pulsed detonation engines (PDE) a preliminary analysis on thermal efficiency, cycle process and Performance of pulsed detonation engines has been made.
建立了脉冲爆震发动机工作过程、热力参数及其性能分析方法。
A method for analyzing working process, thermal parameters and Performances of PDE have been developed.
水下冲击对船舶所造成的各种类型的损害与空气爆震所造成的损害相似。
The various types of damage to ships from underwater shock are defined in the same manner as for air blast.
分析了两相多循环脉冲爆震发动机工作过程中爆震室内、外壁换热特性,建立了爆震室壁温分布计算模型。
The heat transfer characteristics of the detonation chambers outer and inner wall were analyzed when the pulse detonation engine model was operated in the multi-cycle mode.
对脉冲爆震发动机的热力循环过程应用特征线法作了一维流场的数值模拟。
Numerical simulation in one-dimensional unsteady flow of thermal dynamic cycle process in PDE is presented by the characteristic method.
这是一次完全剔除爆震因素的急性声创伤实验研究。
This is an experimental research into acute acoustic trauma free entirely from any explosive factor.
这是一次完全剔除爆震因素的急性声创伤实验研究。
This is an experimental research into acute acoustic trauma free entirely from any explosive factor.
应用推荐