full power trial
简明释义
全功率试车全速试航
英英释义
例句
1.Safety protocols were strictly followed during the full power trial to prevent accidents.
在全功率试验期间,严格遵循安全协议以防止事故。
2.The engineers conducted a full power trial to test the new engine's performance.
工程师们进行了一个全功率试验来测试新发动机的性能。
3.After several adjustments, the team is ready for the full power trial next week.
经过几次调整,团队准备在下周进行全功率试验。
4.The results from the full power trial will determine the project's future.
来自全功率试验的结果将决定项目的未来。
5.During the full power trial, we monitored the temperature and pressure closely.
在全功率试验期间,我们密切监测温度和压力。
作文
In the world of engineering and technology, the term full power trial refers to a comprehensive test where a system or machine is operated at its maximum capacity to evaluate its performance and reliability. This phase is crucial in the development and validation of new products, particularly in industries such as aerospace, automotive, and energy. During a full power trial (全功率试验), engineers aim to push the limits of a prototype to ensure that it can handle the demands of real-world applications. One of the primary objectives of conducting a full power trial is to identify any potential weaknesses or failures in the system. For instance, when testing a new aircraft engine, engineers will monitor various parameters such as temperature, pressure, and vibration levels while operating the engine at full throttle. This allows them to gather valuable data on how the engine performs under extreme conditions. If any issues arise during the trial, engineers can make necessary adjustments before the product goes into mass production. Moreover, a full power trial also serves as a demonstration of the product's capabilities. Stakeholders, including investors and regulatory bodies, often require evidence of a product’s performance at full capacity before approving it for market release. A successful full power trial can instill confidence in the product’s reliability and safety, which is essential for gaining consumer trust. The preparation for a full power trial is meticulous and requires extensive planning. Teams must ensure that all safety protocols are in place, as running a system at full power can pose significant risks. Additionally, the environment must be controlled to minimize external factors that could affect the results. For example, if a new wind turbine is undergoing a full power trial, it should be tested in a location where wind conditions are stable and predictable. After the trial, the analysis of the collected data is critical. Engineers will review the performance metrics to determine if the product met the expected standards. They will also compare the results against simulations and previous tests to validate their findings. Any discrepancies must be investigated thoroughly to understand the underlying causes. This process not only helps in refining the current product but also provides insights for future innovations. In conclusion, a full power trial (全功率试验) is an essential step in the engineering process that ensures a product is ready for the market. It involves rigorous testing at maximum capacity to assess performance, identify weaknesses, and demonstrate reliability. The insights gained from these trials contribute to the overall improvement of technology and help build safer, more efficient products for consumers. As industries continue to evolve, the importance of thorough testing like the full power trial will remain paramount in achieving engineering excellence.
在工程和技术领域,“全功率试验”这一术语指的是一种全面测试,其中系统或机器以其最大能力运行,以评估其性能和可靠性。这一阶段在新产品的开发和验证中至关重要,尤其是在航空航天、汽车和能源等行业。在进行全功率试验(全功率试验)期间,工程师们旨在将原型推向极限,以确保它能够应对现实应用的需求。进行全功率试验的主要目标之一是识别系统中的潜在弱点或故障。例如,在测试新的飞机发动机时,工程师将监测各种参数,如温度、压力和振动水平,同时以全油门操作发动机。这使他们能够收集有关发动机在极端条件下表现的宝贵数据。如果在试验过程中出现任何问题,工程师可以在产品进入大规模生产之前进行必要的调整。此外,全功率试验还作为产品能力的展示。利益相关者,包括投资者和监管机构,通常需要证据来证明产品在满负荷下的性能,才能批准其上市。成功的全功率试验可以增强人们对产品可靠性和安全性的信心,这对于赢得消费者信任至关重要。进行全功率试验的准备工作非常细致,需要广泛的计划。团队必须确保所有安全协议到位,因为以全功率运行系统可能会带来重大风险。此外,环境必须受到控制,以最小化可能影响结果的外部因素。例如,如果一台新的风力涡轮机正在进行全功率试验,则应在风况稳定且可预测的地方进行测试。试验结束后,所收集数据的分析至关重要。工程师将审查性能指标,以确定产品是否符合预期标准。他们还将把结果与模拟和先前的测试进行比较,以验证其发现。任何差异都必须彻底调查,以了解潜在原因。这一过程不仅有助于完善当前产品,还为未来的创新提供了见解。总之,全功率试验(全功率试验)是工程过程中的一个重要步骤,确保产品准备好进入市场。它涉及在最大能力下进行严格测试,以评估性能、识别弱点并展示可靠性。从这些试验中获得的见解有助于技术的整体改进,并帮助为消费者打造更安全、更高效的产品。随着各行业的不断发展,像全功率试验这样的全面测试的重要性仍将是实现工程卓越的关键。
