automatic regulation system
简明释义
自动调节系统
英英释义
例句
1.The automatic regulation system in the HVAC ensures consistent temperature control throughout the building.
HVAC中的自动调节系统确保整个建筑内温度的持续控制。
2.The automatic regulation system in this lab maintains the required environmental conditions for experiments.
这个实验室中的自动调节系统维持实验所需的环境条件。
3.In modern vehicles, an automatic regulation system helps maintain optimal tire pressure.
在现代车辆中,自动调节系统帮助维持最佳轮胎压力。
4.The new factory has implemented an automatic regulation system to optimize energy consumption.
新工厂实施了一个自动调节系统以优化能源消耗。
5.Our irrigation system uses an automatic regulation system to adjust water flow based on soil moisture levels.
我们的灌溉系统使用自动调节系统根据土壤湿度水平调整水流。
作文
In today's rapidly advancing technological landscape, the concept of an automatic regulation system has gained significant importance across various industries. An automatic regulation system refers to a mechanism that automatically adjusts and controls processes without human intervention. This system is designed to maintain desired output levels by continuously monitoring and adjusting inputs based on predefined criteria. The application of such systems can be seen in numerous fields, including manufacturing, transportation, and environmental control.One of the most prominent examples of an automatic regulation system is found in industrial manufacturing processes. In a typical factory setting, machines are often required to operate under specific conditions to ensure product quality and efficiency. An automatic regulation system can monitor variables such as temperature, pressure, and speed in real-time, making necessary adjustments to keep these parameters within optimal ranges. For instance, if a machine begins to overheat, the automatic regulation system can trigger cooling mechanisms to prevent damage and maintain operational integrity.Another significant application of automatic regulation systems is in the field of transportation. Modern vehicles are increasingly equipped with advanced technologies that utilize automatic regulation systems for enhanced safety and performance. For example, cruise control systems allow drivers to set a desired speed, and the vehicle automatically adjusts throttle input to maintain that speed regardless of changes in terrain or traffic conditions. This not only improves fuel efficiency but also enhances driver comfort by reducing the need for constant speed adjustments.Environmental control is yet another area where automatic regulation systems play a crucial role. In buildings, heating, ventilation, and air conditioning (HVAC) systems often utilize automatic regulation systems to maintain comfortable indoor climates. These systems can adjust temperature settings based on occupancy levels, outdoor weather conditions, and even air quality metrics. By doing so, they contribute to energy savings while ensuring a pleasant environment for occupants.The benefits of implementing automatic regulation systems extend beyond mere operational efficiency. They also enhance safety by minimizing the risk of human error. In high-stakes environments like chemical plants or nuclear facilities, the ability to rely on automatic regulation systems can prevent catastrophic failures that might arise from manual oversight. Furthermore, these systems can provide valuable data analytics, enabling organizations to make informed decisions based on performance metrics and trends.However, it is essential to recognize that the successful implementation of automatic regulation systems requires careful planning and consideration. Organizations must invest in training personnel to understand how these systems work and how to respond in case of malfunctions. Additionally, regular maintenance and updates are necessary to ensure that the automatic regulation systems function optimally over time.In conclusion, the rise of automatic regulation systems marks a significant advancement in how industries operate. By automating the regulation of processes, organizations can achieve higher efficiency, improved safety, and better resource management. As technology continues to evolve, the role of automatic regulation systems will likely expand, further transforming industries and enhancing our daily lives. Embracing this trend will be crucial for businesses aiming to remain competitive in an increasingly automated world.
在当今快速发展的技术环境中,自动调节系统的概念在各个行业中变得越来越重要。自动调节系统指的是一种能够自动调整和控制过程的机制,无需人工干预。该系统旨在通过持续监测并根据预定义标准调整输入来保持所需的输出水平。这种系统的应用可以在许多领域中看到,包括制造、运输和环境控制。在工业制造过程中,自动调节系统的一个显著例子是典型工厂环境中的机器。通常情况下,机器需要在特定条件下运行,以确保产品质量和效率。自动调节系统可以实时监测温度、压力和速度等变量,并进行必要的调整,以保持这些参数在最佳范围内。例如,如果一台机器开始过热,自动调节系统可以触发冷却机制,以防止损坏并保持操作完整性。自动调节系统的另一个重要应用是在运输领域。现代车辆越来越多地配备先进技术,利用自动调节系统来增强安全性和性能。例如,巡航控制系统允许驾驶员设置所需的速度,而车辆会自动调整油门输入以维持该速度,无论地形或交通条件如何变化。这不仅提高了燃油效率,还通过减少对不断调整速度的需求来增强驾驶舒适性。环境控制是另一个自动调节系统发挥关键作用的领域。在建筑物中,供暖、通风和空调(HVAC)系统通常利用自动调节系统来维持舒适的室内气候。这些系统可以根据占用水平、户外天气条件甚至空气质量指标调整温度设置。通过这样做,它们有助于节能,同时确保为居住者提供愉快的环境。实施自动调节系统的好处不仅限于操作效率。它们还通过最小化人为错误的风险来增强安全性。在化工厂或核设施等高风险环境中,依赖自动调节系统的能力可以防止因人工监督失误而导致的灾难性故障。此外,这些系统可以提供有价值的数据分析,使组织能够根据绩效指标和趋势做出明智的决策。然而,成功实施自动调节系统需要仔细规划和考虑。组织必须投资培训人员,以了解这些系统的工作原理以及在发生故障时如何应对。此外,定期维护和更新是确保自动调节系统随时间正常运作的必要条件。总之,自动调节系统的兴起标志着工业运作方式的重大进步。通过自动化过程的调节,组织可以实现更高的效率、改善的安全性和更好的资源管理。随着技术的不断发展,自动调节系统的角色可能会扩展,进一步改变行业并增强我们的日常生活。拥抱这一趋势对于希望在日益自动化的世界中保持竞争力的企业至关重要。
