close loop system
简明释义
闭环系统
英英释义
例句
1.A close loop system in agriculture can optimize water usage by adjusting irrigation based on soil moisture levels.
农业中的闭环系统可以通过根据土壤湿度水平调整灌溉来优化水的使用。
2.The smart thermostat operates on a close loop system, learning your preferences and automatically adjusting the temperature.
智能温控器基于闭环系统运作,学习你的偏好并自动调整温度。
3.The environmental monitoring project uses a close loop system to track pollution levels and adjust responses in real-time.
该环境监测项目使用闭环系统实时跟踪污染水平并调整响应。
4.The factory implemented a close loop system to improve efficiency by continuously monitoring and adjusting the production process.
工厂实施了一个闭环系统,通过持续监测和调整生产过程来提高效率。
5.In robotics, a close loop system allows for precise control of movements based on feedback from sensors.
在机器人技术中,闭环系统允许根据传感器的反馈精确控制运动。
作文
In today's rapidly evolving technological landscape, the concept of a close loop system has gained significant attention across various fields, including engineering, environmental science, and even economics. A close loop system is defined as a system that uses feedback to self-regulate its processes, ensuring that outputs are continually monitored and adjusted based on desired outcomes. This approach not only enhances efficiency but also minimizes waste, making it a crucial element in sustainable development.One of the most prominent examples of a close loop system can be found in modern manufacturing practices. In traditional manufacturing, resources are often wasted due to inefficiencies in production processes. However, with the implementation of a close loop system, manufacturers can track their resource usage in real-time and make necessary adjustments to optimize production. For instance, if a factory notices that a particular machine is consuming more energy than expected, the close loop system can trigger an alert for maintenance or recalibration, thereby reducing energy consumption and costs.Moreover, the application of a close loop system extends beyond just manufacturing. In the realm of environmental science, researchers are using this concept to create sustainable ecosystems. For example, in aquaponics systems, fish waste provides nutrients for plants, while the plants help to purify the water for the fish. This close loop system not only conserves water but also creates a symbiotic relationship between different organisms, promoting a healthier environment.Economically, the principles of a close loop system can also be applied to business models. Companies that adopt circular economy practices aim to keep products and materials in use for as long as possible. By designing products that can be easily repaired, reused, or recycled, businesses can create a close loop system that reduces waste and maximizes resource efficiency. This not only benefits the environment but also enhances the company’s profitability in the long run.Furthermore, the importance of a close loop system is evident in the context of climate change and resource depletion. As global populations continue to rise, the demand for resources increases, leading to unsustainable practices. Implementing close loop systems can help mitigate these issues by promoting responsible consumption and production patterns. For instance, industries that utilize renewable energy sources can create a close loop system where energy is generated, consumed, and regenerated sustainably, thus reducing their carbon footprint.In conclusion, the concept of a close loop system is vital in addressing some of the most pressing challenges of our time. Whether in manufacturing, environmental science, or economics, the ability to monitor and adjust processes through feedback mechanisms allows for greater efficiency and sustainability. As we move towards a future that prioritizes ecological balance and resource conservation, understanding and implementing close loop systems will be essential for fostering innovation and resilience in our societies. The ongoing evolution of technology and awareness around sustainability will undoubtedly lead to more widespread adoption of close loop systems, paving the way for a more sustainable and prosperous future.
在当今迅速发展的技术环境中,“close loop system”的概念在工程、环境科学甚至经济学等各个领域引起了广泛关注。close loop system被定义为一种利用反馈自我调节其过程的系统,确保输出不断被监控,并根据期望结果进行调整。这种方法不仅提高了效率,还最小化了浪费,使其成为可持续发展的关键要素。一个最显著的例子是现代制造实践中的close loop system。在传统制造中,由于生产过程中的低效率,资源往往会被浪费。然而,通过实施close loop system,制造商可以实时跟踪其资源使用情况,并进行必要的调整以优化生产。例如,如果一家工厂发现某台机器的能耗超出预期,close loop system可以触发维护或重新校准的警报,从而降低能耗和成本。此外,close loop system的应用不仅限于制造。在环境科学领域,研究人员正在利用这一概念创建可持续生态系统。例如,在水产养殖系统中,鱼类排泄物为植物提供营养,而植物有助于净化鱼类的水。这种close loop system不仅节约了水资源,还促进了不同生物之间的共生关系,促进了更健康的环境。在经济方面,close loop system的原则也可以应用于商业模式。采用循环经济实践的公司旨在尽可能长时间地保持产品和材料的使用。通过设计易于修复、重复使用或回收的产品,企业可以创建一个减少浪费并最大化资源效率的close loop system。这不仅有利于环境,而且从长远来看还增强了公司的盈利能力。此外,close loop system的重要性在气候变化和资源枯竭的背景下尤为明显。随着全球人口的不断增长,对资源的需求增加,导致不可持续的做法。实施close loop systems可以通过促进负责任的消费和生产模式来帮助缓解这些问题。例如,利用可再生能源的行业可以创建一个可持续生成、消费和再生能源的close loop system,从而减少其碳足迹。总之,close loop system的概念在应对我们时代的一些最紧迫挑战中至关重要。无论是在制造、环境科学还是经济学中,通过反馈机制监控和调整过程的能力都能实现更高的效率和可持续性。随着我们朝着优先考虑生态平衡和资源保护的未来发展,理解和实施close loop systems将对促进我们社会的创新和韧性至关重要。技术的不断发展和对可持续性的认识无疑将导致close loop systems的更广泛应用,为实现更可持续和繁荣的未来铺平道路。
