pressurizer

简明释义

英[ˈpreʃəraɪzə(r)]美[ˈpreʃəˌraɪzər]

n. 保持压力装置；加压器，[动力] 增压器

英英释义

单词用法

同义词

反义词

例句

1.Based on the structural requirement of the integrated reactor of shipping power plant, a mathematical model about charging progress of new shipping gas pressurizer is constructed and calculated.

基于船用核动力一体化反应堆结构的需要，建立了新型船用气体稳压器启动充气过程的数学模型，并进行了仿真计算。

2.Based on the structural requirement of the integrated reactor of shipping power plant, a mathematical model about charging progress of new shipping gas pressurizer is constructed and calculated.

基于船用核动力一体化反应堆结构的需要，建立了新型船用气体稳压器启动充气过程的数学模型，并进行了仿真计算。

3.By contrast, if you are a "pressurizer," you are firm from beginning to end.

相反，如果你是一个“加压者”，那么从头到尾你都会保持一致。

4.The result showed that this program and model simulated the pressurizer high realistically and can be used for simulator training and safety analysis.

结果表明，本模型较高精度的模拟了压水堆稳压器的特性，适用于模拟机教学及其他瞬态分析。

5.A fuzzy controller of nuclear power plant pressurizer is researched and designed tentatively by defining fuzzy set, membership function and fuzzy control rule properly.

通过合理地确定模糊集、隶属度函数和模糊控制规则等，初步研究和设计了核电站稳压器的模糊控制器。

6.Pressure Tube Rupture, Pressure Tube and Calandria Tube Rupture, Feeder Breaks, Pressurizer Relief/Steam Bleed Valves Fail Open, Liquid Relief Valves Fail Open, etc.

在事件树分析中，考虑了各种类型和位置的破口，如：压力管破损、压力管和排管破损、供水管破损、稳压器卸压阀/蒸汽排放阀故障开启以及液体排放阀故障开启等。

7.The pressurizer water level had been taken as an example for validating the method, and the results have shown the prediction method is chara…

以稳压器水位为例对该方法进行了验证，结果表明该预测方法具有数据量小、计算简单、预测准确的特点。

8.In aerospace engineering, a pressurizer is crucial for keeping the cabin atmosphere stable at high altitudes.

在航空航天工程中，增压器对于在高海拔保持机舱气氛稳定至关重要。

9.The nuclear reactor uses a pressurizer to maintain the necessary pressure in the primary coolant system.

核反应堆使用一个压力容器来维持主冷却系统所需的压力。

10.The pressurizer in the water supply system ensures consistent water pressure throughout the building.

供水系统中的增压器确保整个建筑内水压的一致性。

11.During the test, engineers monitored the performance of the pressurizer to ensure it met safety standards.

在测试期间，工程师监测了压力容器的性能，以确保其符合安全标准。

12.A malfunctioning pressurizer can lead to dangerous situations in a thermal power plant.

故障的增压器可能导致热电厂出现危险情况。

作文

In the world of engineering and technology, the term pressurizer (加压器) holds significant importance, particularly in systems that require the maintenance of pressure for safe and efficient operation. A pressurizer is a device used to control the pressure of fluids within a system, ensuring that it remains at optimal levels for various applications. This is crucial in industries such as nuclear power, chemical processing, and aerospace, where pressure management is vital for safety and functionality.The primary function of a pressurizer is to maintain the pressure of a fluid, typically in a closed-loop system. For instance, in nuclear power plants, a pressurizer is used to maintain the pressure of the primary coolant system, which is essential for preventing the coolant from boiling. By keeping the coolant under high pressure, the pressurizer ensures that it remains in a liquid state, allowing it to effectively transfer heat away from the reactor core. This process is critical for the safe operation of the plant and the prevention of overheating.Moreover, a pressurizer can also be found in various other applications, including hydraulic systems and gas pipelines. In hydraulic systems, for example, a pressurizer helps to maintain the necessary pressure for the operation of hydraulic cylinders and motors. This ensures that machinery operates smoothly and efficiently, reducing the risk of mechanical failure. Similarly, in gas pipelines, a pressurizer is employed to ensure that gas is delivered at a consistent pressure, which is essential for the proper functioning of gas distribution systems.The design and operation of a pressurizer involve careful consideration of several factors, including the type of fluid being pressurized, the desired pressure levels, and the specific application requirements. Engineers must select appropriate materials and components to ensure reliability and safety. Additionally, monitoring systems are often integrated with pressurizers to provide real-time data on pressure levels, allowing for immediate adjustments if necessary.In recent years, advancements in technology have led to the development of more sophisticated pressurizer systems. These modern systems often incorporate automation and control technologies, enabling them to respond quickly to changes in pressure and other operating conditions. This not only enhances safety but also improves the overall efficiency of the systems in which they are used.In conclusion, the role of a pressurizer (加压器) in various industrial applications cannot be overstated. It is a critical component that ensures the safe and efficient operation of systems that rely on precise pressure management. As technology continues to evolve, the design and functionality of pressurizers will likely become even more advanced, further enhancing their importance in engineering and technology. Understanding how a pressurizer works and its applications can provide valuable insights into the complexities of fluid dynamics and pressure control in modern engineering.

在工程和技术领域，术语pressurizer（加压器）具有重要意义，特别是在需要维持压力以确保安全和高效操作的系统中。pressurizer是一种用于控制系统内流体压力的设备，确保其保持在各种应用的最佳水平。这在核能、化工和航空航天等行业至关重要，因为压力管理对安全和功能性至关重要。pressurizer的主要功能是维持流体的压力，通常是在闭环系统中。例如，在核电站中，pressurizer用于维持主冷却系统的压力，这对于防止冷却剂沸腾至关重要。通过将冷却剂保持在高压下，pressurizer确保其保持液态，从而有效地将热量从反应堆核心转移。这一过程对于电厂的安全运行和防止过热至关重要。此外，pressurizer还可以在各种其他应用中找到，包括液压系统和天然气管道。在液压系统中，例如，pressurizer有助于维持液压缸和马达操作所需的压力。这确保了机械设备平稳高效地运行，降低了机械故障的风险。同样，在天然气管道中，pressurizer被用来确保气体以一致的压力输送，这对于气体分配系统的正常运行至关重要。pressurizer的设计和操作涉及对多个因素的仔细考虑，包括被加压流体的类型、所需的压力水平以及具体的应用要求。工程师必须选择适当的材料和组件，以确保可靠性和安全性。此外，监测系统通常与pressurizer集成，以提供关于压力水平的实时数据，从而在必要时进行即时调整。近年来，技术的进步导致了更复杂的pressurizer系统的发展。这些现代系统通常结合了自动化和控制技术，使其能够快速响应压力和其他操作条件的变化。这不仅提高了安全性，还改善了它们所使用系统的整体效率。总之，pressurizer（加压器）在各种工业应用中的作用不可低估。它是确保依赖精确压力管理的系统安全和高效运行的关键组件。随着技术的不断发展，pressurizer的设计和功能可能会变得更加先进，进一步增强其在工程和技术中的重要性。理解pressurizer的工作原理及其应用可以为我们提供有关现代工程中流体动力学和压力控制复杂性的宝贵见解。