propulsion trial

简明释义

推进试验

英英释义

例句

1.The engineers conducted a propulsion trial to test the new rocket engine's efficiency.

工程师们进行了一个推进试验以测试新火箭发动机的效率。

2.The results of the propulsion trial will determine the next steps in the project.

推进试验的结果将决定项目的下一步。

3.During the propulsion trial, they measured the thrust produced by the spacecraft.

在推进试验期间，他们测量了航天器产生的推力。

4.A successful propulsion trial is crucial for the mission's success.

成功的推进试验对任务的成功至关重要。

5.Engineers reviewed the data collected during the propulsion trial to identify any issues.

工程师们审查了在推进试验中收集的数据，以识别任何问题。

作文

In the field of aerospace engineering, the term propulsion trial refers to a series of tests conducted to evaluate the performance and efficiency of propulsion systems. These trials are crucial for the development of new aircraft and spacecraft, as they help engineers understand how different factors affect thrust, fuel consumption, and overall vehicle performance. During a propulsion trial, various parameters such as engine power, speed, and environmental conditions are meticulously measured to ensure that the propulsion system meets the required specifications. The importance of propulsion trials cannot be overstated. They serve as a fundamental step in the design and testing process of any new propulsion technology. For instance, when developing a new rocket engine, engineers will conduct a series of propulsion trials to test its capabilities under simulated flight conditions. These trials allow for adjustments and improvements to be made before the engine is used in an actual mission. Moreover, propulsion trials can also identify potential failures or weaknesses in the propulsion system. By simulating various scenarios, engineers can observe how the engine performs under stress and make necessary modifications to enhance reliability. This proactive approach not only improves safety but also ensures that the propulsion system operates at optimal efficiency. In recent years, advancements in technology have significantly improved the way propulsion trials are conducted. The use of computer simulations and high-tech instrumentation allows for more precise measurements and analyses. Engineers can now model complex interactions within the propulsion system, leading to better predictions of performance outcomes. This integration of technology into the testing process has revolutionized the aerospace industry, enabling faster development cycles and more innovative designs. Furthermore, propulsion trials are not limited to traditional aerospace applications. They are increasingly being utilized in the development of electric and hybrid propulsion systems, which are becoming more prevalent due to the growing demand for sustainable aviation solutions. As the industry shifts towards greener technologies, propulsion trials will play a vital role in ensuring that these new systems meet stringent performance and environmental standards. In conclusion, propulsion trials are an essential component of the aerospace engineering process. They provide critical insights into the performance and reliability of propulsion systems, allowing for continuous improvement and innovation. As technology advances, the methods used in propulsion trials will continue to evolve, further enhancing our ability to explore the skies and beyond with safe and efficient vehicles.

在航空航天工程领域，术语propulsion trial指的是一系列测试，用于评估推进系统的性能和效率。这些试验对于新型飞机和航天器的发展至关重要，因为它们帮助工程师理解不同因素如何影响推力、燃料消耗和整体飞行器性能。在propulsion trial中，各种参数，如发动机功率、速度和环境条件，都被仔细测量，以确保推进系统符合所需的规格。propulsion trials的重要性不容小觑。它们是任何新推进技术设计和测试过程中的基本步骤。例如，在开发新型火箭发动机时，工程师会进行一系列propulsion trials，以测试其在模拟飞行条件下的能力。这些试验允许在发动机用于实际任务之前进行调整和改进。此外，propulsion trials还可以识别推进系统中的潜在故障或弱点。通过模拟各种场景，工程师可以观察发动机在压力下的表现，并进行必要的修改以提高可靠性。这种主动的方法不仅提高了安全性，还确保推进系统以最佳效率运行。近年来，技术的进步显著改善了propulsion trials的实施方式。计算机模拟和高科技仪器的使用使得测量和分析更加精确。工程师现在可以对推进系统内复杂的相互作用进行建模，从而更好地预测性能结果。这种将技术融入测试过程的做法彻底改变了航空航天行业，使得开发周期更快，设计更具创新性。此外，propulsion trials不仅限于传统航空航天应用。它们在电动和混合推进系统的开发中也越来越多地被利用，这些系统由于对可持续航空解决方案的日益需求而变得越来越普遍。随着行业向更环保的技术转型，propulsion trials将在确保这些新系统满足严格的性能和环境标准方面发挥重要作用。总之，propulsion trials是航空航天工程过程中必不可少的组成部分。它们提供了对推进系统性能和可靠性的关键见解，允许持续改进和创新。随着技术的进步，propulsion trials中使用的方法将继续演变，进一步增强我们以安全高效的飞行器探索天空及更远领域的能力。