load governor
简明释义
载荷调节器
英英释义
例句
1.In the event of an overload, the load governor automatically adjusts the generator's output.
在过载情况下,负载调节器会自动调整发电机的输出。
2.The new model of the turbine features an advanced load governor for better performance.
新型涡轮机配备了先进的负载调节器以提升性能。
3.The power plant uses a load governor to maintain stable output during peak demand.
发电厂使用负载调节器在高峰需求期间保持稳定输出。
4.The engineer explained how the load governor helps in regulating the speed of the engine.
工程师解释了负载调节器如何帮助调节发动机的速度。
5.A malfunctioning load governor can lead to inefficient energy use.
故障的负载调节器可能导致能源使用效率低下。
作文
In the world of engineering and machinery, the term load governor refers to a crucial device that regulates the power output of engines or generators based on the load demand. The primary function of a load governor is to ensure that the engine operates at an optimal efficiency level by adjusting the fuel supply according to the load requirements. This mechanism is vital in various applications, from industrial machines to power generation systems, as it enhances performance and prevents overloading.Understanding how a load governor works can be likened to managing the flow of water through a pipe. Just as a valve controls the amount of water flowing through, a load governor adjusts the fuel or energy input to match the workload. For instance, when a machine experiences a sudden increase in demand, the load governor responds promptly by increasing fuel supply to maintain the necessary power output. Conversely, if the load decreases, the load governor reduces the fuel supply, preventing waste and inefficiency.The significance of a load governor can be observed in various sectors. In the power generation industry, for example, power plants utilize load governors to balance supply and demand effectively. During peak hours, when electricity consumption rises, the load governor ensures that additional power is generated to meet the needs of consumers. This balancing act is essential to prevent blackouts and maintain stability in the electrical grid.Moreover, in automotive engineering, the load governor plays a pivotal role in enhancing vehicle performance. Modern vehicles are equipped with sophisticated load governors that optimize engine output based on driving conditions. When accelerating, the load governor allows more fuel to enter the combustion chamber, providing the necessary power. However, during cruising or deceleration, it reduces fuel supply, improving fuel efficiency and reducing emissions.Furthermore, the implementation of electronic load governors has revolutionized the way engines operate. These advanced systems use sensors and computer algorithms to monitor engine performance in real-time. By analyzing data such as engine speed, load conditions, and environmental factors, electronic load governors can make precise adjustments, enhancing overall efficiency and performance.In conclusion, the load governor is an indispensable component in various mechanical systems, playing a vital role in regulating power output and ensuring optimal performance. Its ability to respond dynamically to changing load conditions makes it essential in industries ranging from power generation to automotive engineering. As technology continues to advance, the evolution of load governors will likely lead to even greater efficiencies and innovations in the field of engineering. Understanding the function and importance of a load governor is crucial for anyone involved in these industries, as it directly impacts the effectiveness and sustainability of modern machinery and power systems.
在工程和机械的世界中,术语负载调节器指的是一种关键装置,它根据负载需求调节发动机或发电机的功率输出。负载调节器的主要功能是通过根据负载要求调整燃料供应,确保发动机在最佳效率水平下运行。这一机制在从工业机器到发电系统等各种应用中至关重要,因为它提高了性能并防止过载。理解负载调节器的工作原理可以比作管理水流通过管道。就像阀门控制水流量一样,负载调节器调整燃料或能量输入以匹配工作负载。例如,当机器遇到突然增加的需求时,负载调节器迅速响应,通过增加燃料供应来保持必要的功率输出。相反,如果负载减少,负载调节器会减少燃料供应,防止浪费和低效。负载调节器的重要性可以在各个行业中观察到。例如,在发电行业,发电厂利用负载调节器有效平衡供需。在高峰时段,当电力消费上升时,负载调节器确保产生额外的电力以满足消费者的需求。这种平衡行为对于防止停电和维持电网的稳定性至关重要。此外,在汽车工程中,负载调节器在提高车辆性能方面发挥着关键作用。现代汽车配备了复杂的负载调节器,根据驾驶条件优化发动机输出。当加速时,负载调节器允许更多燃料进入燃烧室,从而提供所需的动力。然而,在巡航或减速时,它减少燃料供应,提高燃油效率并减少排放。此外,电子负载调节器的实施彻底改变了发动机的运作方式。这些先进系统使用传感器和计算机算法实时监测发动机性能。通过分析发动机速度、负载条件和环境因素等数据,电子负载调节器能够进行精确调整,从而提高整体效率和性能。总之,负载调节器是各种机械系统中不可或缺的组成部分,在调节功率输出和确保最佳性能方面发挥着重要作用。它动态响应变化的负载条件的能力使其在从发电到汽车工程等行业中必不可少。随着技术的不断进步,负载调节器的演变可能会导致工程领域更大的效率和创新。理解负载调节器的功能和重要性对任何参与这些行业的人来说都是至关重要的,因为它直接影响现代机械和电力系统的有效性和可持续性。
