automatic regulator

简明释义

自动调节器;

英英释义

例句

1.An automatic regulator ensures that the pressure in the gas line remains stable.

一个自动调节器确保气体管线中的压力保持稳定。

2.The heating system uses an automatic regulator to maintain a consistent temperature in the house.

供暖系统使用自动调节器来维持房屋内的恒定温度。

3.The air conditioning unit has an automatic regulator to adjust airflow based on room occupancy.

空调设备有一个自动调节器，根据房间的占用情况调整气流。

4.In modern vehicles, an automatic regulator adjusts the fuel injection for optimal performance.

在现代汽车中，自动调节器调整燃油喷射以获得最佳性能。

5.The aquarium is equipped with an automatic regulator to control water temperature and pH levels.

水族箱配备了一个自动调节器来控制水温和pH值。

作文

In today's rapidly advancing technological landscape, the importance of efficiency and precision cannot be overstated. One of the key components that contribute to these qualities in various systems is the automatic regulator. An automatic regulator is a device or system that automatically controls the parameters of a process to maintain desired conditions without the need for manual intervention. This concept is integral in fields such as engineering, manufacturing, and even environmental management.To illustrate the significance of an automatic regulator, consider its application in industrial processes. In a manufacturing plant, maintaining consistent temperature and pressure levels is crucial for product quality. An automatic regulator continuously monitors these parameters and adjusts them as necessary, ensuring that the production process runs smoothly and efficiently. This not only enhances product quality but also reduces waste and energy consumption, leading to cost savings and a smaller environmental footprint.Moreover, automatic regulators are essential in the field of HVAC (Heating, Ventilation, and Air Conditioning) systems. These systems rely on automatic regulators to maintain comfortable indoor temperatures by adjusting heating or cooling output based on real-time temperature readings. This automatic adjustment not only improves comfort for occupants but also optimizes energy usage, which is increasingly important in the context of rising energy costs and environmental concerns.In addition to industrial and HVAC applications, automatic regulators play a vital role in the automotive industry. Modern vehicles are equipped with various automatic regulators that control engine performance, fuel injection, and emissions. For instance, an automatic regulator can adjust the air-fuel mixture in response to changing driving conditions, ensuring optimal engine performance and compliance with environmental regulations. This adaptability is crucial for enhancing vehicle efficiency and reducing harmful emissions.Furthermore, the use of automatic regulators extends to renewable energy systems. In solar power installations, automatic regulators manage the flow of electricity generated by solar panels to ensure that it meets the demand of the grid or storage systems. By automatically adjusting output levels, these regulators help stabilize energy supply and improve the reliability of renewable energy sources.The benefits of automatic regulators are evident, but it is also important to recognize the challenges associated with their implementation. Designing effective automatic regulators requires a deep understanding of the processes they control, as well as the ability to predict how changes in one parameter may affect others. Additionally, ensuring the reliability and accuracy of these devices is paramount, as any malfunction could lead to significant disruptions in operations.In conclusion, the role of the automatic regulator in modern technology is indispensable. From manufacturing to automotive applications and renewable energy systems, these devices enhance efficiency, optimize performance, and contribute to sustainability. As technology continues to evolve, the development and refinement of automatic regulators will undoubtedly play a critical role in shaping the future of various industries. Understanding and mastering the concept of automatic regulators is essential for anyone looking to innovate and excel in today’s fast-paced technological environment.

在当今快速发展的技术环境中，效率和精确度的重要性不容低估。促进这些品质的关键组成部分之一就是自动调节器。自动调节器是一种设备或系统，能够自动控制过程的参数，以维持所需条件，而无需人工干预。这个概念在工程、制造甚至环境管理等领域是不可或缺的。为了说明自动调节器的重要性，可以考虑它在工业过程中的应用。在一个制造工厂中，保持一致的温度和压力水平对于产品质量至关重要。自动调节器持续监测这些参数，并根据需要进行调整，确保生产过程顺利高效。这不仅提高了产品质量，还减少了浪费和能源消耗，从而实现成本节约和更小的环境足迹。此外，自动调节器在HVAC（供暖、通风和空调）系统中也至关重要。这些系统依靠自动调节器通过根据实时温度读数调整加热或冷却输出，来维持舒适的室内温度。这种自动调整不仅改善了居住者的舒适度，还优化了能源使用，这在能源成本上升和环境问题日益严重的背景下显得尤为重要。除了工业和HVAC应用外，自动调节器在汽车工业中也发挥着重要作用。现代车辆配备了各种自动调节器，用于控制发动机性能、燃油喷射和排放。例如，自动调节器可以根据驾驶条件的变化调整空气-燃料混合比，确保发动机性能最佳并符合环境法规。这种适应性对于提高车辆效率和减少有害排放至关重要。此外，自动调节器的使用还扩展到可再生能源系统。在太阳能发电装置中，自动调节器管理由太阳能电池板产生的电力流，以确保其满足电网或储能系统的需求。通过自动调整输出水平，这些调节器有助于稳定能源供应，提高可再生能源的可靠性。自动调节器的好处显而易见，但也必须认识到其实施所面临的挑战。设计有效的自动调节器需要深入理解它们所控制的过程，以及预测一个参数的变化可能如何影响其他参数的能力。此外，确保这些设备的可靠性和准确性至关重要，因为任何故障都可能导致操作的重大中断。总之，自动调节器在现代技术中的作用是不可或缺的。从制造业到汽车应用，再到可再生能源系统，这些设备提升了效率，优化了性能，并促进了可持续发展。随着技术的不断发展，自动调节器的开发和完善无疑将在塑造各行业的未来中发挥关键作用。理解和掌握自动调节器的概念对于任何希望在当今快节奏的技术环境中创新和卓越的人来说都是必不可少的。