overpressure
简明释义
英[ˌəʊvəˈpreʃə]美[ˌoʊvərˈpreʃər]
n. 超压;过度的重压
vt. 压力上升
英英释义
A condition in which the pressure in a system exceeds the normal or expected level, potentially leading to damage or failure. | 一种状态,其中系统内的压力超过正常或预期水平,可能导致损坏或故障。 |
单词用法
n. 超压防护;超压保护 | |
峰值超压,最大超压 |
同义词
反义词
低压 | The system operates efficiently under pressure, but it can malfunction underpressure. | 该系统在压力下高效运行,但在低压下可能会出现故障。 | |
减压 | During decompression, the gas expands and the pressure decreases. | 在减压过程中,气体膨胀,压力降低。 |
例句
1.As the overpressure protection device.
作为超压保护装置。
2.The overpressure wave is actually the more dangerous of the two.
实际上,这两类伤害中超压冲击波尤甚。
3.Rare minor damage may occur with 2 to 5 pounds overpressure.
在超压为2到5磅的时候可能会出现极少的轻微损坏。
4.Overpressure is harmful to the fire water system of high rise building.
超压问题在高层建筑消防给水中客观存在,给消防给水系统带来损害。
5.Then carry out the test at the rated water overpressure.
然后在额外超水压中停止测试。
6.The overpressure in the cloud zone was much higher than that in shock wave zone.
分析得到:云雾区超压远远大于冲击波作用区的超压。
7.Potential for overpressure and line rupture if valve is blocked.
如果阀门被封住,有可能超压引起管道破裂?
8.The overpressure in the cloud zone was much higher than that in shock wave zone.
分析得到:云雾区超压远远大于冲击波作用区的超压。
9.Test of operation at a gas overpressure.
测试在气体超压的条件下进行。
10.The technician noted that the overpressure 超压 alarm had been triggered during the operation.
技术员注意到在操作过程中
11.During the test, we monitored for any signs of overpressure 超压 in the reactor.
在测试过程中,我们监测反应堆是否有任何
12.The engineer explained that the system could fail if there was an overpressure 超压 in the pipeline.
工程师解释说,如果管道内出现
13.The safety valve is designed to release steam in case of overpressure 超压 conditions.
安全阀设计用于在出现
14.Manufacturers must ensure their products can withstand overpressure 超压 without failing.
制造商必须确保他们的产品能够承受
作文
In recent years, the term overpressure has gained significant attention in various fields, particularly in engineering and environmental science. Overpressure refers to a pressure that exceeds the normal atmospheric pressure, which can lead to various consequences depending on the context in which it occurs. For instance, in the field of construction, overpressure can occur during the use of explosives for demolition or excavation. If not properly controlled, this excess pressure can cause structural damage to nearby buildings and pose serious safety risks to workers and bystanders.Moreover, overpressure is also a critical factor in the study of natural disasters such as earthquakes and volcanic eruptions. When tectonic plates shift, they can create sudden bursts of energy that result in an increase in pressure within the Earth's crust. This phenomenon can lead to catastrophic events if the overpressure is not released in a controlled manner. For example, during a volcanic eruption, the build-up of overpressure can cause explosive eruptions that launch ash and debris into the atmosphere, affecting air travel and local ecosystems.In the realm of environmental science, overpressure plays a role in the management of gas and oil reserves. As companies extract these resources, they must carefully monitor the pressures within the reservoirs to avoid situations where overpressure could lead to blowouts, which are uncontrolled releases of oil or gas. Such incidents not only endanger the workers involved but can also have devastating impacts on the surrounding environment, leading to oil spills and contamination of water sources.Furthermore, overpressure is a concept that extends beyond physical sciences; it can also be applied metaphorically in psychology and social contexts. For example, individuals may experience overpressure in their daily lives due to excessive stress from work, family responsibilities, or societal expectations. This type of overpressure can lead to mental health issues such as anxiety and depression. It is crucial for individuals to recognize the signs of overpressure in their lives and seek appropriate support to manage their stress levels effectively.In conclusion, the concept of overpressure is multifaceted, impacting various domains from engineering to environmental science and even personal well-being. Understanding the implications of overpressure is essential for developing strategies to mitigate its effects, whether through engineering controls, disaster preparedness, or mental health awareness. As we continue to face challenges related to pressure in our environments and lives, recognizing and addressing overpressure will be key to ensuring safety, sustainability, and overall health in our communities.
近年来,术语过压在各个领域,特别是在工程和环境科学中引起了显著关注。过压指的是超出正常大气压力的压力,这可能会根据发生的上下文导致各种后果。例如,在建筑领域,使用炸药进行拆除或挖掘时可能会发生过压。如果不加以控制,这种过量压力可能会对附近建筑物造成结构损害,并对工人和旁观者构成严重安全风险。此外,过压也是研究自然灾害(如地震和火山喷发)中的一个关键因素。当构造板块移动时,可能会产生能量的突然释放,从而导致地壳内部压力的增加。如果过压没有以受控的方式释放,就可能导致灾难性事件。例如,在火山喷发期间,过压的积聚可能导致爆炸性喷发,将灰烬和碎片抛入大气中,影响航空旅行和当地生态系统。在环境科学领域,过压在天然气和石油储量管理中发挥着重要作用。当公司提取这些资源时,必须仔细监测储层内的压力,以避免出现过压可能导致的井喷,即石油或天然气的失控释放。这类事件不仅危及相关工人的安全,还可能对周围环境造成毁灭性影响,导致石油泄漏和水源污染。此外,过压是一个超越物理科学的概念;它也可以在心理学和社会背景中应用。例如,个人可能由于工作、家庭责任或社会期望的过度压力而在日常生活中经历过压。这种类型的过压可能导致焦虑和抑郁等心理健康问题。个人识别生活中过压的迹象并寻求适当支持以有效管理压力水平至关重要。总之,过压的概念是多方面的,影响从工程到环境科学乃至个人福祉的多个领域。理解过压的影响对于制定减轻其影响的策略至关重要,无论是通过工程控制、灾难准备还是心理健康意识。随着我们继续面临与我们环境和生活中的压力相关的挑战,识别和应对过压将是确保我们社区安全、可持续性和整体健康的关键。