uprating

简明释义

英[ˈʌpreɪtɪŋ]美[ˈʌpreɪtɪŋ]

v. 提高……的等级或价值；改进性能；升级（uprate 的现在分词）

英英释义

单词用法

同义词

反义词

例句

1.The uprating will as usual be based on inflation in the year to the preceding September.

同以往一样，增长仍然基于九月之前的通胀数据。

2.This effect will not be universal, since many schemes specify the RPI as the index to use when uprating pensions.

这个影响会是普遍的，因为许多方案把零售物价指数(RPI)指定为提高养老金的参考指数。

3.Shafting abnormal vibration fault usually arises after the uprating on turbo-generator unit.

机组增容改造后易发生轴系异常振动。

4.Nuclear operators, meanwhile, squeezed new life out of old reactors through so-called "uprating" — running plants longer and at higher power outputs than originally intended.

与此同时，核能运营商通过所谓的“提高额定值”方式，即提高原定的发电量，延长核设施原定的运行时间，不断压榨旧反应堆的剩余价值。

5.Nuclear operators, meanwhile, squeezed new life out of old reactors through so-called "uprating" — running plants longer and at higher power outputs than originally intended.

与此同时，核能运营商通过所谓的“提高额定值”方式，即提高原定的发电量，延长核设施原定的运行时间，不断压榨旧反应堆的剩余价值。

6.Through analysis and solves the vibration problems of two uprating units, the process of multi plane field dynamic balancing are studied.

对两台改造机组的异常振动故障进行了分析和现场处理，探讨了运用多平面综合平衡法解决该类振动问题的途径。

7.The uprating of the software allowed for faster processing speeds.

软件的升级使得处理速度更快。

8.Due to increased demand, the factory underwent an uprating of its machinery.

由于需求增加，工厂对其机械设备进行了升级。

9.The engineers proposed an uprating of the power supply to improve system performance.

工程师们提议对电源进行升级以改善系统性能。

10.They are considering an uprating of the building's electrical systems to meet safety standards.

他们正在考虑对建筑物的电气系统进行升级以符合安全标准。

11.The uprating of the aircraft engines will enhance fuel efficiency.

飞机发动机的升级将提高燃油效率。

作文

In today's rapidly evolving technological landscape, the concept of uprating (提升) has become increasingly significant across various industries. Uprating refers to the process of increasing the capacity or performance of a system, component, or equipment beyond its original specifications. This practice is particularly prevalent in sectors such as aerospace, automotive, and energy, where efficiency and reliability are paramount. As companies strive to enhance their products and services, understanding the implications and benefits of uprating becomes essential. One of the primary motivations behind uprating is the need for improved performance. For instance, in the automotive industry, manufacturers often uprate engines to produce more horsepower or torque without significantly altering the overall design. This allows vehicles to meet stricter emissions standards while still delivering the power that consumers expect. By uprating existing engines, manufacturers can save costs associated with developing entirely new models, thereby maintaining competitiveness in a crowded market. In the aerospace sector, uprating plays a crucial role in extending the life of aircraft engines. Airlines constantly seek ways to maximize the efficiency of their fleets, and uprating engine components can lead to significant fuel savings and reduced maintenance costs. For example, by enhancing the materials used in turbine blades, engineers can allow engines to operate at higher temperatures and pressures, resulting in improved thrust and reduced fuel consumption. This not only benefits the airlines financially but also contributes to lower carbon emissions, aligning with global sustainability goals. The energy sector also sees considerable application of uprating. Power plants may uprate turbines or generators to increase output without the need for extensive renovations or new installations. For instance, nuclear power plants often undergo uprating to boost their electricity generation capabilities, which helps meet growing energy demands. This approach is particularly appealing as it minimizes disruption and capital expenditure while maximizing existing infrastructure. However, uprating is not without its challenges. The process requires thorough testing and validation to ensure that the enhanced components can withstand the increased loads and stresses. Regulatory compliance is also a critical consideration, as any modifications must adhere to safety standards to prevent potential failures. Therefore, effective project management and collaboration among engineers, designers, and regulatory bodies are essential for successful uprating initiatives. In conclusion, the practice of uprating offers significant advantages across various industries by enhancing performance, extending the lifespan of equipment, and reducing costs. As technology continues to advance, the importance of uprating will likely grow, driving innovation and efficiency. Companies that embrace this strategy will be better positioned to adapt to changing market demands and achieve long-term success. Understanding the nuances of uprating is vital for professionals in engineering and management, as it represents a key opportunity for improvement and sustainability in an increasingly competitive world.

在当今快速发展的技术环境中，uprating（提升）的概念在各个行业变得越来越重要。Uprating 指的是将系统、组件或设备的容量或性能提高到超出其原始规格的过程。这种做法在航空航天、汽车和能源等行业尤为普遍，因为效率和可靠性至关重要。随着公司努力提升其产品和服务，理解uprating的含义和好处变得至关重要。推动uprating的主要动机之一是提高性能的需求。例如，在汽车行业，制造商经常对发动机进行uprate，以在不显著改变整体设计的情况下产生更多马力或扭矩。这使得车辆能够满足更严格的排放标准，同时仍能提供消费者所期望的动力。通过对现有发动机进行uprating，制造商可以节省开发全新车型所需的成本，从而在竞争激烈的市场中保持竞争力。在航空航天领域，uprating在延长飞机发动机寿命方面发挥着关键作用。航空公司不断寻求最大化其机队效率的方法，而对发动机组件进行uprating可以带来显著的燃料节省和降低维护成本。例如，通过增强涡轮叶片中使用的材料，工程师可以使发动机在更高的温度和压力下运行，从而提高推力并减少燃料消耗。这不仅使航空公司在财务上受益，还促进了更低的碳排放，与全球可持续发展目标相一致。能源行业也看到了uprating的重大应用。发电厂可以对涡轮机或发电机进行uprating，以在不需要广泛翻新或新安装的情况下增加输出。例如，核电厂经常进行uprating，以提高其电力生产能力，这有助于满足日益增长的能源需求。这种方法特别吸引人，因为它最小化了干扰和资本支出，同时最大化了现有基础设施。然而，uprating并非没有挑战。该过程需要彻底的测试和验证，以确保增强的组件能够承受增加的负载和压力。合规性也是一个关键考虑因素，因为任何修改必须遵循安全标准，以防止潜在的故障。因此，有效的项目管理以及工程师、设计师和监管机构之间的协作对于成功的uprating计划至关重要。总之，uprating的做法在各个行业中提供了显著的优势，通过提高性能、延长设备的使用寿命和降低成本。随着技术的不断进步，uprating的重要性可能会增加，推动创新和效率。采用这一策略的公司将更好地适应市场需求的变化，实现长期成功。理解uprating的细微差别对于工程和管理专业人士至关重要，因为它代表了在竞争日益激烈的世界中改进和可持续发展的关键机会。