power per blade
简明释义
每桨叶功率
英英释义
Power per blade refers to the amount of energy or power produced or utilized by each individual blade in a system, such as a turbine or fan. | 每个叶片的功率是指在一个系统中,如涡轮或风扇,每个单独叶片产生或利用的能量或功率的数量。 |
例句
1.The power per blade metric is crucial for determining the feasibility of new wind farm projects.
对于确定新风电场项目的可行性,每片叶片的功率指标至关重要。
2.The turbine's efficiency is measured by its power per blade, which indicates how much energy each blade generates.
涡轮的效率通过其每片叶片的功率来衡量,这表明每片叶片产生多少能量。
3.Engineers often analyze the power per blade to improve the design of aircraft propellers.
工程师通常分析每片叶片的功率以改进飞机螺旋桨的设计。
4.A higher power per blade means that the blades are more efficient at converting wind energy into usable power.
更高的每片叶片的功率意味着叶片在将风能转化为可用电力方面更高效。
5.In wind energy applications, optimizing the power per blade can significantly enhance overall performance.
在风能应用中,优化每片叶片的功率可以显著提高整体性能。
作文
In the world of engineering and design, especially in fields related to aerodynamics and fluid dynamics, the term power per blade is crucial for understanding the efficiency and performance of various machines. This concept refers to the amount of power generated or consumed by each blade of a rotor or turbine. It is a key factor in determining how effectively these devices can convert energy from one form to another, typically from mechanical to kinetic energy or vice versa. Understanding power per blade helps engineers optimize designs to achieve maximum efficiency while minimizing energy losses.For instance, in wind turbines, the blades are designed to capture wind energy. The power per blade indicates how much energy each individual blade contributes to the overall power output of the turbine. If the power per blade is too low, it may indicate that the blades are not efficiently capturing wind energy, leading to a less effective turbine. Engineers can analyze the power per blade to make adjustments in the blade design, such as altering their shape or material, to enhance performance.Similarly, in aviation, the concept of power per blade is essential when designing propellers and rotors for aircraft. Each blade's ability to generate thrust is directly related to its power per blade. If the blades are too small or poorly designed, they may not produce sufficient thrust, which could hinder the aircraft's performance. Engineers use simulations and tests to measure the power per blade to ensure that the aircraft can achieve the necessary speed and altitude.The importance of power per blade extends beyond just wind turbines and aircraft. In hydroelectric plants, for example, turbines are used to convert the energy of flowing water into electricity. Here, the power per blade plays a significant role in determining how much electrical power can be generated. By optimizing the power per blade, engineers can improve the overall efficiency of the plant, leading to more sustainable energy production.Moreover, the concept of power per blade is also applicable in other industries, such as manufacturing and robotics. In robotic arms, for instance, each joint can be thought of as having a 'blade' that contributes to the overall power output of the system. Understanding the power per blade allows engineers to design more efficient robotic systems that can perform tasks with greater precision and speed.In conclusion, the term power per blade encapsulates a fundamental aspect of engineering that influences the design and efficiency of various machines. Whether in wind turbines, aircraft, hydroelectric plants, or robotics, understanding and optimizing power per blade is essential for achieving superior performance and energy efficiency. As technology continues to advance, the significance of this concept will only grow, driving innovation and improvements across multiple fields. Engineers must continue to explore and refine the principles behind power per blade to meet the demands of an increasingly energy-conscious world.
在工程和设计的世界中,特别是在与空气动力学和流体动力学相关的领域,术语每个叶片的功率对于理解各种机器的效率和性能至关重要。这个概念是指每个转子或涡轮叶片所产生或消耗的功率。它是确定这些设备如何有效地将能量从一种形式转换为另一种形式(通常是从机械能到动能或反之)的关键因素。理解每个叶片的功率有助于工程师优化设计,以实现最大效率,同时最小化能量损失。例如,在风力涡轮机中,叶片被设计用来捕获风能。每个叶片的功率表示每个单独叶片对涡轮整体功率输出的贡献。如果每个叶片的功率过低,这可能表明叶片未能有效捕获风能,从而导致涡轮效率降低。工程师可以分析每个叶片的功率,以对叶片设计进行调整,例如改变其形状或材料,以提高性能。同样,在航空领域,每个叶片的功率的概念在设计飞机的螺旋桨和转子时至关重要。每个叶片产生推力的能力与其每个叶片的功率直接相关。如果叶片太小或设计不良,可能无法产生足够的推力,从而影响飞机的性能。工程师使用模拟和测试来测量每个叶片的功率,以确保飞机能够达到必要的速度和高度。每个叶片的功率的重要性不仅限于风力涡轮机和飞机。在水电站中,例如,涡轮机用于将流动水的能量转换为电力。在这里,每个叶片的功率在确定可以生成多少电功率方面发挥着重要作用。通过优化每个叶片的功率,工程师可以提高整个电厂的效率,从而实现更可持续的能源生产。此外,每个叶片的功率的概念也适用于其他行业,例如制造业和机器人技术。在机器人手臂中,例如,每个关节可以被视为具有“叶片”的部件,贡献系统的整体功率输出。理解每个叶片的功率使工程师能够设计出更高效的机器人系统,以更高的精度和速度执行任务。总之,术语每个叶片的功率概括了影响各种机器设计和效率的一个基本方面。无论是在风力涡轮机、飞机、水电站还是机器人领域,理解和优化每个叶片的功率对于实现卓越的性能和能量效率至关重要。随着技术的不断进步,这一概念的重要性只会增加,推动多个领域的创新和改进。工程师必须继续探索和完善每个叶片的功率背后的原理,以满足一个日益关注能源的世界的需求。
相关单词
