transmission network

简明释义

输电网

英英释义

例句

1.A well-designed transmission network can enhance the efficiency of renewable energy distribution.

良好设计的传输网络可以提高可再生能源分配的效率。

2.Our city plans to invest in a new transmission network to improve internet connectivity.

我们城市计划投资建设新的传输网络以改善互联网连接。

3.The reliability of the transmission network is crucial for maintaining power supply during peak hours.

在高峰时段，传输网络的可靠性对于维持电力供应至关重要。

4.The transmission network for data communication must be secure to protect sensitive information.

数据通信的传输网络必须安全，以保护敏感信息。

5.Upgrading the transmission network can significantly reduce energy losses.

升级传输网络可以显著减少能源损失。

作文

In today's modern world, the importance of a reliable and efficient transmission network (传输网络) cannot be overstated. This system is essential for the distribution of electricity, telecommunications, and data across vast distances, ensuring that individuals and businesses can communicate and operate effectively. A well-designed transmission network (传输网络) not only facilitates the flow of energy and information but also supports economic growth and technological advancement.The concept of a transmission network (传输网络) encompasses various components, including power lines, substations, and communication towers. These elements work together to form a cohesive system that delivers resources from their source to the end-user. For instance, in the case of electricity, power plants generate energy, which is then transmitted through high-voltage lines to substations, where it is stepped down to a lower voltage suitable for distribution to homes and businesses.Similarly, in telecommunications, a transmission network (传输网络) consists of fiber-optic cables, satellite links, and cellular towers that transmit data signals. This infrastructure allows for seamless communication, enabling people to connect with each other globally. The efficiency of a transmission network (传输网络) directly impacts the quality of service experienced by users, making it crucial for network operators to invest in upgrading and maintaining their systems.Moreover, the reliability of a transmission network (传输网络) is vital during emergencies and natural disasters. A robust network can withstand adverse conditions and ensure that critical services remain operational. For example, during hurricanes or earthquakes, communication networks must function effectively to keep residents informed and connected. Similarly, power transmission networks must be resilient to avoid blackouts that could disrupt essential services such as hospitals and emergency response teams.As technology continues to evolve, the role of transmission networks (传输网络) is becoming increasingly significant. The rise of renewable energy sources, such as solar and wind, has led to the need for more sophisticated transmission systems that can integrate these variable energy sources into the grid. Smart grids are an excellent example of how modern technology is being utilized to enhance the efficiency and reliability of transmission networks (传输网络). These grids use advanced sensors and automation to monitor and manage the flow of electricity, allowing for real-time adjustments to meet demand and improve energy distribution.Additionally, the advent of the Internet of Things (IoT) is transforming the landscape of transmission networks (传输网络). With more devices connected to the internet, the need for high-speed data transmission has never been greater. This trend is pushing network operators to expand their infrastructure and adopt new technologies to ensure that they can handle the increasing volume of data traffic.In conclusion, the significance of a well-functioning transmission network (传输网络) is undeniable. It plays a crucial role in facilitating communication, supporting economic growth, and enhancing the resilience of critical services. As we move towards a more interconnected and technologically advanced future, investing in the development and maintenance of transmission networks (传输网络) will be essential to meet the demands of society and ensure a sustainable and efficient infrastructure for generations to come.

在当今现代世界中，可靠和高效的传输网络（transmission network）的重要性不容低估。这个系统对于电力、电信和数据在广阔距离上的分配至关重要，确保个人和企业能够有效地沟通和运作。一个设计良好的传输网络（transmission network）不仅促进了能源和信息的流动，还支持经济增长和技术进步。传输网络（transmission network）的概念包括各种组件，如电力线、变电站和通信塔。这些元素共同工作，形成一个统一的系统，将资源从源头传递到最终用户。例如，在电力的情况下，发电厂产生能量，然后通过高压线将其传输到变电站，在那里它被降压到适合家庭和企业分配的较低电压。同样，在电信中，传输网络（transmission network）由光纤电缆、卫星链接和蜂窝塔组成，传输数据信号。这一基础设施允许无缝的通信，使人们能够在全球范围内相互联系。传输网络（transmission network）的效率直接影响用户体验的服务质量，因此网络运营商必须投资于升级和维护其系统。此外，传输网络（transmission network）的可靠性在紧急情况和自然灾害期间至关重要。一个强大的网络可以承受不利条件，确保关键服务保持运转。例如，在飓风或地震期间，通信网络必须有效运作，以保持居民的信息畅通和联系。同样，电力传输网络必须具备韧性，以避免可能中断医院和紧急响应团队等基本服务的停电。随着技术的不断发展，传输网络（transmission network）的角色变得越来越重要。可再生能源的兴起，例如太阳能和风能，导致需要更复杂的传输系统，以便将这些可变能源源整合到电网中。智能电网是现代技术如何被用于增强传输网络（transmission network）效率和可靠性的一个很好的例子。这些电网使用先进的传感器和自动化来监控和管理电力的流动，允许实时调整以满足需求并改善能源分配。此外，物联网（IoT）的出现正在改变传输网络（transmission network）的格局。随着越来越多的设备连接到互联网，对高速数据传输的需求从未如此之大。这一趋势推动网络运营商扩展其基础设施并采用新技术，以确保他们能够处理日益增加的数据流量。总之，功能良好的传输网络（transmission network）的重要性不容忽视。它在促进通信、支持经济增长和增强关键服务的弹性方面发挥着至关重要的作用。随着我们走向一个更加互联和技术先进的未来，投资于传输网络（transmission network）的开发和维护对于满足社会需求、确保可持续和高效的基础设施至关重要，以造福未来几代人。