本文目录
- RC是什么意思
- transient structural动量怎么求
- workbench18.1 瞬态动力学分析求解时出错说求解目录不能位于网络UNC路径
- static structural与transient stuctural区别
- 一篇关于110kV变电站设计的英文资料的翻译
- 哪位高手能帮翻译下这些土木工程专业英语句子
RC是什么意思
按照你说说明,这里面RC的意思是人才,全句的意思就是说现在是人才的天下。
人才,是指具有一定的专业知识或专门技能,能够进行创造性劳动,并且可以对社会或集体作出突出贡献的人,是人力资源中能力和素质较高的劳动者,因为人才二字的字母分别是R和C,因此人才也可以简称为RC。
扩展资料:
企业的人才总量包括经营人才、管理人才、技术人才和技能人才。
经营人才指企业的单位负责人和部门负责人;
管理人才、技术人才是具有中级及以上专业技术资格或本科及以上学历的人员;
技能人才是在生产技能岗位工作,具有高级工及以上技能等级或具有专业技术资格的人员。
参考资料:人才_百度百科
transient structural动量怎么求
transient structural动量解法如下:
进入DesignModeler模块创建几何模型。进行网格划分,并进行分析设置。首先设置5个载荷步,然后对每个载荷步进行设置。第一个载荷步:关闭自动时间步长,定义3个载荷子步。
workbench18.1 瞬态动力学分析求解时出错说求解目录不能位于网络UNC路径
应该需要把你的模型建立在你本地计算机的存储硬盘上,而不能存储在任何远程硬盘里。检查文件存储路径,检查计算文件缓存路径是否出错。
The solver will only use local storage while it is running because network storage is too slow. By default, the solver will use the same storage where the model is saved.
If your model is stored on a local drive such as C: (or D: or E: where there is a second local drive), then the solver will not give an error. The simplest way to avoid this error is to create a folder on the C: drive such as C:\ansysdata and save your model to that folder for editing and solving.
If you are using a Lab computer, after the solve is complete, you can create an archive then copy the .wbpz file to your network storage. The next time you need to use that model, copy the .wbpz back to C:\ansysdata and restore the archive to that folder.
static structural与transient stuctural区别
totaltemperature英[_t_ut_l_temp_rit__]美[_totl_t_mp_r__t__r]词典总温,滞止温度statictemeperature静态温度
static修饰属性,这个属性就可以用类名.属性名来访问,也就是使这个属性成为本类的类变量,为本类对象所共有。这个属性就是全类公有。类加载的过程,类本身保存在文件中(字节码文件保存着类的信息)的,java会通过I/O流把类的文件(字节码文件)读入JVM(java虚拟机),这个过程称为类的加载过程。
一篇关于110kV变电站设计的英文资料的翻译
Comprehensive approach of power system contingency analysis
J. Deuse, Member, IEEE, K. Karoui, Member, IEEE, A. Bihain, J. Dubois
Abstract—Security of supply in power system supposes that the robustness of the system can be guaranteed in case of credible contingencies. This robustness relies on structural redundancy and on security margins. Traditionally, the “N-1” contingency analysis has been used for such check. This methodology leads to the definition of “sizing incidents”, or credible contingencies. The system is said “N-1” secure if it remains within its operating domain for these “sizing incidents”. Today some trends exist for relaxing the application of this criterion. This means that some emergency control actions must be implemented in the system for guaranteeing its security. This asks for their representation in the methodological approach used for evaluating the security of supply. This is not possible with traditional tools.
Index Terms—Interconnected power system, industrial power system, load flow analysis, power generation control, reactive power control, voltage control, power system dynamic stability, power system transient stability, static VAR compensator.
I. INTRODUCTION
T HE continuity of service in developed system is certainly the main concern of system operators. For reaching high level performances, electric sector had, until recently, all necessary means at disposal: rigorous planning of the development of the system, integrated management of generation and transmission, investment capacities in concordance with technical objectives agreed between the different components of the society. This favorable situation permitted to maintain power system operation at sufficient distances from its physical limits, with few concerns about what could happen if such limits were overtaken. Very deep incidents, quite rare, revealed often some risks attached to particular deterioration mechanisms, which were previously completely ignored by operators.
Power system unbundling is progressively modifying the conditions for such controlled management of power system security. Indeed, the free access to the interconnected system, bilateral contracts settled between generating companies and consumers make conditions of operation more and more unforeseeable. The quest for the maximum economical efficacy leads to the use of interconnection capacities far above levels expected when they were built.
All these changes lead to the operation of the system nearer to their physical or to their stability limits; this increases the risk of transgression of these limits in case of emergencies.
哪位高手能帮翻译下这些土木工程专业英语句子
2,这种力量施加纵向预应力称为一,即一压力量prestresses沿跨度的结构元素的章节之前的横向重力死和活的应用负载或暂态横向活载。
3,当风强阵风,高达六十五公里一个小时,在风暴袭击的桥梁,他们成立了沿桥波,也是一个横向议案,导致巷道下降。
4,从前面的讨论,很明显,在预应力构件永久强调充分面前死亡,活载应用,以消除或大大减少净拉应力引起的,这些载荷创建。
5,另外,无论系统中使用预应力行动本身在增加的成本结果:模板更复杂,因为通常法兰部分组成,部分预应力薄新人几何。
6,一旦钢筋混凝土梁跨度超过70到90英尺(21.327.4米),梁的自重过大,造成了沉重的成员,因此,更大的长期挠度和裂缝。
8,展示了他们的预应力概念及其全方位应用的多功能性。发展中的成功和所有这些结构建筑是由于在不小的措施,在材料技术的进步,特别是预应力钢丝,以及估计短期和长期在预应力长期损失积累的知识。
9,这是一个结构性的工程项目最高度的技术和数学阶段,但它cannot,而且绝对不能,如果没有得到充分的规划和项目建设阶段的协调进行。
10,对最常见的如桥梁和建筑物,在过去的一贯做法土木结构一直是设计一个与负载的服务条件和其他设计生产的容许应力强度比较的基础。
11,服务条件的选择和容许应力强度提供了一种对失败的安全保证金。
12,在这种方法的钢筋conerete设计,结构元素的理论容量是一个能力下降的因素减少,为物质力量,工艺小不利的变化,和尺寸。
13,最近几十年来,出现了许多杰出的工程师日益关注,不仅是长期的“安全系数”不正当的和不现实的,但更糟的是一个结构性的设计理念就基于这个概念在大多数情况下会导致一个过于保守因此,不经济的设计,并在一些情况下,偏不设计过高故障的可能性。
