regulating loop

简明释义

调节回路

英英释义

例句

1.In feedback control systems, a regulating loop is essential for stability.

在反馈控制系统中，调节回路对稳定性至关重要。

2.A well-designed regulating loop can reduce energy consumption in industrial processes.

设计良好的调节回路可以减少工业过程中的能耗。

3.The thermostat uses a regulating loop to maintain the desired temperature in the room.

恒温器使用一个调节回路来维持房间内所需的温度。

4.Engine performance can be improved by optimizing the regulating loop of the fuel injection system.

通过优化燃油喷射系统的调节回路可以提高发动机性能。

5.The regulating loop in the chemical reactor ensures the reaction occurs at optimal conditions.

化学反应器中的调节回路确保反应在最佳条件下进行。

作文

In the world of systems and feedback mechanisms, the concept of a regulating loop is fundamental to understanding how various processes maintain stability and achieve desired outcomes. A regulating loop refers to a control system that monitors a process and makes adjustments based on feedback to ensure that the system operates within predetermined parameters. This idea is prevalent in numerous fields, including engineering, biology, economics, and environmental science.For instance, consider the human body as an intricate system that relies on regulating loops to maintain homeostasis. The body constantly monitors variables such as temperature, pH levels, and glucose concentration. When any of these variables deviate from their optimal range, the body activates specific mechanisms to restore balance. For example, if blood sugar levels rise after eating, the pancreas secretes insulin, which helps cells absorb glucose and lowers blood sugar levels back to normal. This biological regulating loop exemplifies how feedback systems work to keep our bodies functioning correctly.In the realm of engineering, regulating loops are critical in automated systems. Take, for example, a thermostat used in heating systems. The thermostat continuously measures the room temperature and compares it to the set temperature. If the room temperature drops below the desired level, the thermostat sends a signal to the heating system to turn on, thus creating a regulating loop. Once the room reaches the desired temperature, the thermostat detects this change and signals the heating system to turn off, maintaining the temperature within a comfortable range. This feedback mechanism ensures energy efficiency and comfort in our living spaces.Economically, regulating loops can be observed in market dynamics. Supply and demand create a natural regulating loop that influences prices. When demand for a product increases, prices tend to rise. Higher prices can then lead to increased production, which eventually satisfies the demand and stabilizes prices. Conversely, if there is an oversupply, prices may drop, prompting producers to cut back on production. This cyclical nature of supply and demand illustrates how regulating loops function in economic systems to promote equilibrium.Environmental science also employs the concept of regulating loops to understand ecological balance. Ecosystems often exhibit feedback mechanisms where the population of one species affects another. For example, in predator-prey relationships, an increase in prey population can lead to a rise in predator numbers. As predator populations grow, they consume more prey, leading to a decrease in the prey population. This decline, in turn, can result in fewer predators due to a lack of food, demonstrating a natural regulating loop that maintains ecological balance.In conclusion, the concept of a regulating loop is vital across various domains, serving as a mechanism for maintaining stability and balance. Whether in biological systems, engineering applications, economic markets, or ecological interactions, regulating loops illustrate the importance of feedback and control in achieving desired outcomes. Understanding these loops enables us to better comprehend the complexities of the world around us and devise strategies for improvement in multiple fields. By harnessing the power of regulating loops, we can create systems that are not only efficient but also resilient to changes and disruptions.

在系统和反馈机制的世界中，调节回路这一概念对于理解各种过程如何维持稳定和实现预期结果至关重要。调节回路指的是一种控制系统，它监测一个过程并根据反馈进行调整，以确保系统在预定参数内运行。这个理念在工程、生物学、经济学和环境科学等多个领域都很普遍。例如，考虑人体作为一个复杂的系统，依赖于调节回路来维持内稳态。身体不断监测温度、pH值和葡萄糖浓度等变量。当这些变量偏离其最佳范围时，身体会激活特定机制以恢复平衡。例如，当进食后血糖水平上升时，胰腺分泌胰岛素，帮助细胞吸收葡萄糖，从而将血糖水平降低到正常。这种生物学上的调节回路展示了反馈系统如何使我们的身体正常运作。在工程领域，调节回路在自动化系统中至关重要。以加热系统中的温控器为例。温控器持续测量室内温度并与设定温度进行比较。如果室内温度低于期望水平，温控器会向加热系统发送信号以开启，从而形成一个调节回路。一旦房间达到所需温度，温控器检测到这一变化并向加热系统发出关闭信号，从而保持温度在舒适范围内。这个反馈机制确保了我们居住空间的能源效率和舒适性。在经济领域，调节回路可以在市场动态中观察到。供需关系创造了自然的调节回路，影响价格。当某种产品的需求增加时，价格往往会上涨。较高的价格可能导致生产增加，最终满足需求并稳定价格。相反，如果供应过剩，价格可能会下降，这促使生产者减少生产。这种供需的循环性质展示了调节回路在经济系统中如何发挥作用，以促进均衡。环境科学也利用调节回路的概念来理解生态平衡。生态系统通常表现出反馈机制，其中一个物种的人口影响另一个物种。例如，在捕食者与猎物的关系中，猎物数量的增加可能导致捕食者数量的上升。随着捕食者数量的增长，它们消耗更多的猎物，导致猎物数量减少。这一下降反过来又可能导致捕食者数量因缺乏食物而减少，展示了一种自然的调节回路，维持生态平衡。总之，调节回路的概念在各个领域都是至关重要的，作为维持稳定和平衡的机制。无论是在生物系统、工程应用、经济市场还是生态互动中，调节回路都展示了反馈和控制在实现预期结果中的重要性。理解这些回路使我们能够更好地理解周围世界的复杂性，并制定多领域的改进策略。通过利用调节回路的力量，我们可以创建不仅高效而且对变化和干扰具有弹性的系统。