fully-factored load

简明释义

最大荷载

英英释义

例句

1.Understanding the fully-factored load is essential for accurate structural analysis.

理解完全考虑的荷载对于准确的结构分析至关重要。

2.The contractor submitted a report detailing the fully-factored load on the beams.

承包商提交了一份报告，详细说明了梁上的完全考虑的荷载。

3.In the design phase, it's crucial to consider the fully-factored load for safety margins.

在设计阶段，考虑完全考虑的荷载以确保安全裕度是至关重要的。

4.The calculations for the fully-factored load included both live and dead loads.

对于完全考虑的荷载的计算包括活荷载和死荷载。

5.The engineer calculated the fully-factored load to ensure the structure could support the maximum expected weight.

工程师计算了完全考虑的荷载以确保结构能够支撑最大预期重量。

作文

In the field of electrical engineering, understanding the concept of a fully-factored load is essential for designing efficient and reliable systems. A fully-factored load refers to the maximum load that can be safely handled by a system, taking into account various factors such as safety margins, environmental conditions, and operational limits. This concept plays a crucial role in ensuring that electrical systems operate within their designed parameters, thereby preventing failures and enhancing safety.When engineers design electrical systems, they must consider the potential variations in load that the system may experience over time. For instance, a residential building may have fluctuating power demands based on the number of appliances being used at any given moment. By calculating the fully-factored load, engineers can determine the appropriate size of transformers, circuit breakers, and wiring needed to accommodate these fluctuations without risking overload or damage.Moreover, the fully-factored load takes into account not only the average expected load but also the peak loads that may occur during specific times. For example, during summer months, air conditioning units may cause a spike in electrical demand. If the system is not designed to handle this peak load, it could lead to outages or equipment failure. Therefore, incorporating a fully-factored load into the design process helps mitigate these risks.Another important aspect of the fully-factored load is its relation to the overall efficiency of the electrical system. Systems that are consistently operating near their maximum capacity can suffer from increased wear and tear, leading to shorter lifespans for components and higher maintenance costs. By ensuring that systems are designed with a fully-factored load in mind, engineers can promote longevity and reliability, which ultimately benefits both the provider and the consumer.Furthermore, regulatory standards often dictate the need for a fully-factored load in electrical designs. Compliance with these standards ensures that systems are safe for public use and meet the necessary codes and regulations. Failure to adhere to these guidelines can result in legal repercussions and jeopardize public safety. Thus, understanding and applying the concept of a fully-factored load is not just a technical requirement, but also a legal obligation.In conclusion, the concept of a fully-factored load is vital for anyone involved in the design and implementation of electrical systems. It encompasses a comprehensive understanding of potential load variations, safety considerations, system efficiency, and regulatory compliance. By prioritizing the fully-factored load in their designs, engineers can ensure that electrical systems are not only functional but also safe and sustainable for long-term use. As technology continues to advance and energy demands evolve, the importance of accurately determining and applying the fully-factored load will only increase, making it a fundamental principle in the field of electrical engineering.

在电气工程领域，理解“完全分解负载”的概念对于设计高效可靠的系统至关重要。“完全分解负载”是指系统可以安全处理的最大负载，考虑到各种因素，如安全余量、环境条件和操作限制。这个概念在确保电气系统在其设计参数内运行方面发挥着关键作用，从而防止故障并增强安全性。当工程师设计电气系统时，他们必须考虑系统在一段时间内可能经历的负载变化。例如，住宅建筑的电力需求可能会根据在任何给定时刻使用的电器数量而波动。通过计算“完全分解负载”，工程师可以确定所需变压器、断路器和电线的适当大小，以适应这些波动，而不会冒着过载或损坏的风险。此外，“完全分解负载”不仅考虑预期负载的平均值，还考虑在特定时间可能发生的峰值负载。例如，在夏季，空调可能会导致电力需求激增。如果系统未设计为处理此峰值负载，则可能导致停电或设备故障。因此，在设计过程中纳入“完全分解负载”有助于减轻这些风险。“完全分解负载”的另一个重要方面是它与电气系统整体效率的关系。始终接近最大容量运行的系统可能会遭受磨损加剧，从而导致组件寿命缩短和维护成本增加。通过确保系统在设计时考虑“完全分解负载”，工程师可以促进系统的耐久性和可靠性，这最终使供方和消费者都受益。此外，法规标准通常要求在电气设计中考虑“完全分解负载”。遵守这些标准确保系统对公众使用是安全的，并符合必要的规范和规定。未能遵循这些指导方针可能会导致法律后果，并危及公共安全。因此，理解和应用“完全分解负载”的概念不仅是技术要求，也是法律义务。总之，“完全分解负载”的概念对于参与电气系统设计和实施的任何人都是至关重要的。它包含了对潜在负载变化、安全考虑、系统效率和法规合规性的全面理解。通过优先考虑“完全分解负载”在他们的设计中，工程师可以确保电气系统不仅功能正常，而且安全可持续地长期使用。随着技术的不断进步和能源需求的演变，准确确定和应用“完全分解负载”的重要性只会增加，使其成为电气工程领域的基本原则。