auto-capacity coupling

简明释义

1. 自身电容耦合; 2. 分布电容耦合;

英英释义

例句

1.By implementing auto-capacity coupling, the factory increased its production efficiency significantly.

通过实施自动容量耦合，工厂的生产效率显著提高。

2.The auto-capacity coupling feature allows for seamless integration of multiple energy sources.

自动容量耦合功能允许多个能源源的无缝集成。

3.The new energy management system utilizes auto-capacity coupling to optimize power distribution.

新的能源管理系统利用自动容量耦合来优化电力分配。

4.The research team focused on enhancing auto-capacity coupling in renewable energy systems.

研究小组专注于增强可再生能源系统中的自动容量耦合。

5.In smart grids, auto-capacity coupling helps balance supply and demand effectively.

在智能电网中，自动容量耦合有效地帮助平衡供需。

作文

In the realm of engineering and technology, the concept of auto-capacity coupling plays a crucial role in enhancing system efficiency and adaptability. This term refers to the automatic adjustment of capacity in a system to meet varying demands without manual intervention. The significance of auto-capacity coupling lies in its ability to optimize resource utilization, ensuring that systems operate at their most efficient levels while minimizing waste. For instance, consider a manufacturing plant that produces a range of products. During peak production times, the demand for certain items may surge, necessitating an increase in output. With auto-capacity coupling, the machinery and workforce can automatically adjust to ramp up production without the need for extensive recalibration or reconfiguration. This not only saves time but also reduces the risk of human error, which can occur during manual adjustments. Moreover, auto-capacity coupling is particularly beneficial in industries where demand fluctuates significantly. For example, in the energy sector, power plants must be able to respond to changes in electricity demand throughout the day. By employing auto-capacity coupling, these facilities can automatically increase or decrease their output based on real-time data, thus providing a stable supply of energy while avoiding overproduction or shortages. The implementation of auto-capacity coupling also supports sustainability efforts. By optimizing capacity, companies can reduce their carbon footprint and resource consumption. For instance, an automated system that adjusts production levels according to demand can lead to less energy usage and lower emissions, aligning with global efforts to combat climate change. In addition to environmental benefits, auto-capacity coupling can improve economic performance. Businesses that effectively utilize this technology often experience cost savings due to reduced operational inefficiencies. By streamlining processes and minimizing waste, organizations can allocate resources more effectively, leading to increased profitability. However, the successful implementation of auto-capacity coupling requires advanced technology and infrastructure. Companies must invest in smart systems that can analyze data and make real-time decisions. This may involve integrating Internet of Things (IoT) devices, machine learning algorithms, and cloud computing solutions to create a cohesive and responsive operational framework. As industries continue to evolve, the importance of auto-capacity coupling will only grow. Organizations that embrace this concept will likely find themselves better equipped to handle the challenges of modern markets, characterized by rapid changes and unpredictable consumer behavior. In conclusion, auto-capacity coupling is not just a technical term; it represents a shift towards more intelligent, responsive, and sustainable practices across various sectors. By understanding and implementing this concept, businesses can enhance their operational efficiency and contribute positively to the environment and economy.

在工程和技术领域，自动容量耦合的概念在提高系统效率和适应性方面发挥着至关重要的作用。这个术语指的是系统中容量的自动调整，以满足不同的需求，而无需人工干预。自动容量耦合的重要性在于其优化资源利用的能力，确保系统以最有效的水平运行，同时最小化浪费。例如，考虑一家生产多种产品的制造工厂。在高峰生产时期，对某些商品的需求可能激增， necessitating 增加产量。通过使用自动容量耦合，机器和劳动力可以自动调整以提高生产，而无需进行大量的重新校准或重新配置。这不仅节省了时间，还减少了人工调整过程中可能出现的人为错误的风险。此外，自动容量耦合在需求波动显著的行业中特别有益。例如，在能源部门，发电厂必须能够响应全天电力需求的变化。通过采用自动容量耦合，这些设施可以根据实时数据自动增加或减少输出，从而提供稳定的能源供应，同时避免过度生产或短缺。实施自动容量耦合还支持可持续发展努力。通过优化容量，公司可以减少碳足迹和资源消耗。例如，自动化系统根据需求调整生产水平，可以导致更少的能量使用和更低的排放，与全球应对气候变化的努力相一致。除了环境效益，自动容量耦合还可以改善经济表现。有效利用此技术的企业通常会因减少运营效率低下而节省成本。通过简化流程和最小化浪费，组织可以更有效地分配资源，从而提高盈利能力。然而，成功实施自动容量耦合需要先进的技术和基础设施。公司必须投资于能够分析数据并做出实时决策的智能系统。这可能涉及整合物联网（IoT）设备、机器学习算法和云计算解决方案，以创建一个连贯且响应迅速的操作框架。随着行业的不断发展，自动容量耦合的重要性只会增加。那些拥抱这一概念的组织将可能发现自己更好地应对现代市场的挑战，这些市场的特点是快速变化和不可预测的消费者行为。总之，自动容量耦合不仅仅是一个技术术语；它代表了各个行业向更加智能、响应迅速和可持续实践转变的趋势。通过理解和实施这一概念，企业可以提高其运营效率，并对环境和经济作出积极贡献。