extrahigh tension

简明释义

极高压(7

英英释义

例句

1.Safety protocols are crucial around areas with extrahigh tension equipment.

在有超高压设备的区域，安全协议至关重要。

2.The city plans to upgrade its infrastructure to support extrahigh tension electricity distribution.

该市计划升级基础设施，以支持超高压电力分配。

3.The engineers discussed the challenges of maintaining extrahigh tension power lines.

工程师们讨论了维护超高压电力线路的挑战。

4.Workers must wear protective gear when working near extrahigh tension lines.

在靠近超高压线路工作时，工人必须穿戴防护装备。

5.The power station operates on an extrahigh tension system for efficient energy transmission.

该发电站采用超高压系统以提高能源传输效率。

作文

In the field of electrical engineering, the term extrahigh tension refers to voltage levels that exceed standard high voltage thresholds. This classification is crucial for understanding how electricity can be transmitted over long distances with minimal losses. The concept of extrahigh tension is integral to modern power systems, enabling energy distribution from generation sources to consumers efficiently. As cities grow and the demand for electricity increases, the need for extrahigh tension systems becomes even more significant.The primary advantage of using extrahigh tension lines is the reduction of energy loss during transmission. When electricity travels through wires, it encounters resistance, which causes energy to dissipate as heat. By increasing the voltage to extrahigh tension levels, engineers can lower the current flowing through the wires, thereby minimizing this resistive loss. This principle is essential for utility companies that aim to deliver reliable power while keeping operational costs low.Moreover, extrahigh tension systems allow for the interconnection of vast networks of power grids. This interconnectivity is vital in ensuring that electricity can be shared across regions, especially during peak demand periods. For instance, if one area experiences a surge in electricity use, power can be redirected from another region that may have surplus capacity. Such flexibility is only possible with extrahigh tension infrastructure, which supports long-distance transmission without significant losses.However, deploying extrahigh tension technology comes with its challenges. The construction of extrahigh tension lines requires substantial investment and careful planning. These lines must be designed to withstand environmental factors such as wind, ice, and temperature fluctuations. Additionally, safety measures are paramount, as the high voltages involved pose risks not only to workers but also to the surrounding communities.Another important aspect of extrahigh tension systems is their impact on the environment. While they enable efficient energy transmission, the construction of large transmission lines can disrupt local ecosystems and landscapes. Therefore, it is crucial for engineers and planners to conduct thorough environmental assessments before proceeding with such projects.In conclusion, the term extrahigh tension encapsulates a vital component of contemporary electrical engineering. Its role in enhancing the efficiency of power transmission cannot be overstated. As the world moves towards a more interconnected and energy-efficient future, the significance of extrahigh tension systems will undoubtedly continue to grow. Engineers and policymakers must work together to ensure that these systems are developed sustainably, balancing the need for reliable energy with environmental stewardship. Ultimately, understanding extrahigh tension is essential for anyone involved in the energy sector, as it represents both a challenge and an opportunity in the quest for a sustainable energy future.

在电气工程领域，术语超高压指的是超过标准高压阈值的电压水平。这一分类对于理解电力如何以最小损耗远距离传输至关重要。超高压的概念是现代电力系统的核心，使得能源能够高效地从发电源分配到消费者。随着城市的发展和电力需求的增加，对超高压系统的需求变得愈加重要。使用超高压线路的主要优势在于减少传输过程中的能量损失。当电力通过导线传输时，会遇到电阻，导致能量以热的形式散失。通过将电压提高到超高压水平，工程师可以降低流经导线的电流，从而最小化这种电阻损失。这一原理对希望提供可靠电力同时保持运营成本低的公用事业公司至关重要。此外，超高压系统允许大规模电网的互联互通。这种互联性对于确保在高峰需求期间电力能够跨区域共享至关重要。例如，如果某一地区的电力使用激增，可以从另一个可能有盈余容量的地区重新导电。这样的灵活性只有在支持长距离传输而没有显著损失的超高压基础设施中才能实现。然而，部署超高压技术也面临着挑战。建设超高压线路需要大量投资和仔细的规划。这些线路必须设计成能够抵御风、冰和温度波动等环境因素。此外，安全措施至关重要，因为涉及的高电压不仅对工人构成风险，也对周围社区造成威胁。超高压系统的另一个重要方面是它们对环境的影响。虽然它们实现了高效的能源传输，但大型输电线路的建设可能会干扰当地生态系统和景观。因此，工程师和规划者在推进此类项目之前进行全面的环境评估至关重要。总之，术语超高压概括了当代电气工程的重要组成部分。它在提高电力传输效率方面的作用不容小觑。随着世界朝着更互联和节能的未来发展，超高压系统的重要性无疑将继续增长。工程师和政策制定者必须共同努力，确保这些系统的可持续发展，平衡可靠能源需求与环境保护。最终，理解超高压对于任何参与能源行业的人来说都是至关重要的，因为它代表了在追求可持续能源未来过程中面临的挑战和机遇。