electric load
简明释义
电负载
英英释义
例句
1.Understanding the electric load 电负荷 requirements is crucial for designing an efficient power distribution system.
理解电负荷 electric load的需求对于设计高效的电力分配系统至关重要。
2.To prevent outages, the utility company monitors the electric load 电负荷 in real-time.
为了防止停电,公用事业公司实时监控电负荷 electric load。
3.The engineer calculated the total electric load 电负荷 for the new building to ensure the electrical system could handle it.
工程师计算了新建筑的总电负荷 electric load,以确保电气系统能够承受。
4.A sudden increase in electric load 电负荷 can cause circuit breakers to trip.
突然增加的电负荷 electric load可能导致断路器跳闸。
5.During peak hours, the electric load 电负荷 on the grid increases significantly.
在高峰时段,电网上的电负荷 electric load显著增加。
作文
In today's world, the demand for electricity is ever-increasing due to the rapid advancement of technology and the growing number of electrical devices in our daily lives. Understanding the concept of electric load (电负荷) is crucial for both consumers and engineers alike. An electric load refers to the amount of electrical power consumed by a device or system at a given time. This can include anything from household appliances like refrigerators and air conditioners to industrial machinery and lighting systems.When we talk about electric load (电负荷), it is essential to recognize that it can be categorized into two main types: resistive loads and reactive loads. Resistive loads are those that convert electrical energy directly into heat, such as heaters and incandescent light bulbs. On the other hand, reactive loads involve components like inductors and capacitors, which store energy temporarily and release it later. Examples of reactive loads include motors and transformers.The significance of understanding electric load (电负荷) extends beyond just knowing how much power a device consumes. It plays a critical role in the design and operation of electrical systems. For instance, when planning an electrical installation, engineers must calculate the total electric load (电负荷) to ensure that the electrical supply can meet the demand without causing overloads or failures. This calculation involves summing up the power ratings of all connected devices and considering factors like peak usage times and safety margins.Moreover, the concept of electric load (电负荷) is also vital for utility companies. They need to monitor and manage the electric load (电负荷) on their grids to maintain stability and prevent blackouts. By analyzing patterns in electricity consumption, utilities can forecast demand and make informed decisions about energy production and distribution.In recent years, the rise of smart technologies has further emphasized the importance of understanding electric load (电负荷). Smart meters and home automation systems allow consumers to monitor their energy usage in real-time, enabling them to make more informed choices about their electricity consumption. By optimizing the electric load (电负荷) during off-peak hours, users can save money and reduce strain on the electrical grid.Additionally, with the global push towards sustainability, understanding electric load (电负荷) is crucial for integrating renewable energy sources into our power systems. Solar panels and wind turbines generate electricity based on environmental conditions, and the electric load (电负荷) must be balanced with the energy produced to ensure a reliable supply. This balance requires sophisticated forecasting and management techniques to align renewable energy generation with consumption patterns.In conclusion, the concept of electric load (电负荷) is fundamental to modern electrical engineering, energy management, and consumer awareness. As our reliance on electricity continues to grow, so does the need for a comprehensive understanding of how electric load (电负荷) impacts our lives and the environment. Whether you are an engineer designing a new system or a homeowner looking to reduce your energy bills, grasping the implications of electric load (电负荷) is essential for making informed decisions and contributing to a more sustainable future.
在当今世界,由于技术的快速发展和日常生活中电器数量的不断增加,电力需求日益增长。理解电负荷(electric load)的概念对消费者和工程师都至关重要。电负荷指的是某一设备或系统在特定时间内消耗的电功率。这可以包括从冰箱和空调等家用电器到工业机械和照明系统的所有设备。当我们谈论电负荷时,必须认识到它可以分为两种主要类型:阻性负载和感性负载。阻性负载是将电能直接转化为热能的负载,例如加热器和白炽灯泡。另一方面,感性负载涉及电感器和电容器等组件,这些组件暂时存储能量并稍后释放。感性负载的例子包括电动机和变压器。理解电负荷的重要性不仅仅在于知道设备消耗多少电力。它在电气系统的设计和操作中起着关键作用。例如,在规划电气安装时,工程师必须计算总的电负荷以确保电力供应能够满足需求,而不会导致过载或故障。这个计算涉及到将所有连接设备的功率额定值相加,并考虑使用高峰时段和安全余量等因素。此外,电负荷的概念对于公用事业公司也至关重要。他们需要监测和管理电网上的电负荷以维持稳定,防止停电。通过分析电力消费模式,公用事业公司可以预测需求,并就能源生产和分配做出明智的决策。近年来,智能技术的兴起进一步强调了理解电负荷的重要性。智能电表和家居自动化系统使消费者能够实时监控他们的能量使用,从而使他们能够更明智地选择电力消费。通过在非高峰时段优化电负荷,用户可以节省开支并减少电网的压力。此外,随着全球对可持续发展的推动,理解电负荷对于将可再生能源源整合到我们的电力系统中至关重要。太阳能电池板和风力涡轮机根据环境条件发电,而电负荷必须与所产生的能量保持平衡,以确保可靠的供应。这种平衡需要复杂的预测和管理技术,以使可再生能源发电与消费模式保持一致。总之,电负荷的概念是现代电气工程、能源管理和消费者意识的基础。随着我们对电力的依赖不断增加,对电负荷影响我们生活和环境的全面理解也愈发重要。无论你是设计新系统的工程师,还是希望降低电费的房主,掌握电负荷的含义对于做出明智的决策和为更可持续的未来做出贡献都是至关重要的。
