transmission efficiency
简明释义
传动效率
英英释义
例句
1.The transmission efficiency 传输效率 of wireless networks can greatly affect data transfer rates.
无线网络的transmission efficiency传输效率会极大影响数据传输速度。
2.By optimizing the coding algorithms, we can boost the transmission efficiency 传输效率 of our communication systems.
通过优化编码算法,我们可以提升通信系统的transmission efficiency传输效率。
3.The transmission efficiency 传输效率 of electrical grids is crucial for reducing energy losses.
电网的transmission efficiency传输效率对于减少能源损失至关重要。
4.Researchers are focusing on enhancing the transmission efficiency 传输效率 of solar panels to maximize energy output.
研究人员正在致力于提高太阳能电池板的transmission efficiency传输效率以最大化能量输出。
5.The new fiber optic cables significantly improved the transmission efficiency 传输效率 of our internet service.
新的光纤电缆显著提高了我们互联网服务的transmission efficiency传输效率。
作文
Transmission efficiency is a crucial concept in various fields, particularly in engineering, telecommunications, and energy systems. It refers to the ratio of useful output power to the input power in a system. In simpler terms, it measures how effectively energy or information is transmitted from one point to another. High transmission efficiency (传输效率) is essential for minimizing losses and maximizing performance.In the realm of electrical engineering, transmission efficiency (传输效率) plays a significant role in power distribution systems. When electricity is transmitted over long distances, some energy is inevitably lost as heat due to resistance in the wires. Engineers strive to improve transmission efficiency (传输效率) by using high-voltage transmission lines, which reduce current flow and, consequently, resistive losses. By enhancing transmission efficiency (传输效率), utility companies can deliver more power to consumers while reducing operational costs and environmental impact.Telecommunications also heavily relies on transmission efficiency (传输效率). In data communication, the efficiency with which signals are transmitted can significantly affect the quality and speed of the connection. Factors such as bandwidth, signal strength, and interference play vital roles in determining transmission efficiency (传输效率). For instance, fiber optic cables offer higher transmission efficiency (传输效率) compared to traditional copper wires, allowing for faster internet speeds and more reliable connections. As the demand for high-speed internet continues to grow, improving transmission efficiency (传输效率) becomes increasingly important for service providers.In renewable energy systems, transmission efficiency (传输效率) is equally critical. Solar panels and wind turbines generate electricity that must be transmitted to the grid or stored for later use. The efficiency of this transmission affects the overall effectiveness of renewable energy solutions. For example, in solar power systems, optimizing transmission efficiency (传输效率) can involve advanced inverter technologies that convert direct current (DC) generated by solar panels into alternating current (AC) suitable for the grid. This conversion process must be efficient to ensure minimal energy loss during transmission.Moreover, improving transmission efficiency (传输效率) has broader implications for sustainability. By reducing energy losses, we can decrease the amount of fuel needed for power generation, thereby lowering greenhouse gas emissions. This aligns with global efforts to combat climate change and transition towards more sustainable energy practices.In conclusion, transmission efficiency (传输效率) is a fundamental aspect of various systems that involve the transfer of energy or information. Its significance spans across engineering, telecommunications, and renewable energy sectors. By focusing on improving transmission efficiency (传输效率), we can enhance performance, reduce costs, and contribute to a more sustainable future. Understanding and optimizing transmission efficiency (传输效率) is not just a technical challenge but also a crucial step towards achieving a more efficient and environmentally friendly world.
