full-load condition
简明释义
满载状态
英英释义
例句
1.We need to monitor the temperature rise during full-load condition operations.
我们需要监测在满载条件操作期间的温度上升。
2.During the simulation, we observed the system's performance at full-load condition.
在模拟过程中,我们观察了系统在满载条件下的性能。
3.The generator was tested under full-load condition to ensure it could handle maximum demand.
发电机在满载条件下进行了测试,以确保能够承受最大需求。
4.The engineers adjusted the cooling system for optimal efficiency at full-load condition.
工程师们调整了冷却系统,以在满载条件下实现最佳效率。
5.It's crucial to evaluate the equipment's durability in a full-load condition test.
在满载条件测试中评估设备的耐用性至关重要。
作文
In the field of engineering, particularly in mechanical and electrical systems, the term full-load condition is frequently used to describe a scenario where a machine or system operates at its maximum capacity. Understanding this concept is crucial for engineers and designers, as it directly impacts performance, efficiency, and safety. When a machine operates under full-load condition (满载条件), it is subjected to the highest levels of stress and demand, which can reveal potential weaknesses or design flaws that may not be apparent during less rigorous testing phases.For instance, consider a generator that powers a factory. The generator must be capable of handling the total electrical load required by all the machinery within the facility. During regular operations, the generator may not always operate at full capacity; however, it is essential to test its performance under full-load condition (满载条件) to ensure it can handle peak demands. This testing helps identify how well the generator performs, including its fuel efficiency, heat generation, and overall reliability.Moreover, operating under full-load condition (满载条件) allows engineers to gather valuable data regarding the system's thermal characteristics. High temperatures can lead to overheating, which may cause components to fail prematurely. Therefore, understanding how a system behaves under maximum load is vital for designing cooling systems and selecting appropriate materials that can withstand such conditions without degrading.In addition to performance assessments, the full-load condition (满载条件) is also important for safety considerations. Systems that are not adequately tested for their maximum load capabilities may pose significant risks. For example, if a bridge is not designed to support the maximum weight of vehicles during peak traffic hours, it could lead to catastrophic failures. Engineers must conduct load tests to ensure that structures can safely accommodate expected loads and to prevent accidents.Furthermore, the implications of full-load condition (满载条件) extend beyond mechanical systems to include financial aspects as well. Companies need to consider the costs associated with operating machinery at full capacity. While it may seem beneficial to run equipment at maximum output to meet production goals, doing so without proper planning can lead to increased wear and tear, higher maintenance costs, and potential downtime due to equipment failure. Therefore, balancing the operational load is essential for maintaining both efficiency and cost-effectiveness.In conclusion, the concept of full-load condition (满载条件) is integral to the fields of engineering and design. It encompasses a wide range of factors, including performance, safety, and financial implications. By thoroughly understanding and testing systems under full-load condition (满载条件), engineers can ensure that their designs are robust, efficient, and safe. This knowledge not only enhances the reliability of machines and structures but also contributes to the overall success of engineering projects, ensuring that they meet the demands of their intended applications while minimizing risks and costs.
在工程领域,尤其是在机械和电气系统中,术语满载条件通常用于描述机器或系统以其最大容量运行的场景。理解这个概念对于工程师和设计师至关重要,因为它直接影响性能、效率和安全性。当机器在满载条件(full-load condition)下运行时,它会受到最高水平的压力和需求,这可能揭示潜在的弱点或设计缺陷,这些在较不严格的测试阶段可能并不明显。例如,考虑一个为工厂供电的发电机。发电机必须能够处理工厂内所有机器所需的总电负荷。在正常操作过程中,发电机可能并不总是以满负荷运行;然而,至关重要的是在满载条件(full-load condition)下测试其性能,以确保它能够应对峰值需求。此测试有助于识别发电机的运行表现,包括燃油效率、热量产生和总体可靠性。此外,在满载条件(full-load condition)下运行使工程师能够收集有关系统热特性的宝贵数据。高温可能导致过热,从而可能导致组件提前失效。因此,了解系统在最大负荷下的表现对于设计冷却系统和选择能够承受这些条件而不降解的适当材料至关重要。除了性能评估外,满载条件(full-load condition)对于安全考虑也很重要。未充分测试其最大负荷能力的系统可能会带来重大风险。例如,如果一座桥梁没有设计成能够支持高峰交通时车辆的最大重量,可能会导致灾难性的故障。工程师必须进行负荷测试,以确保结构能够安全地容纳预期负荷,并防止事故发生。此外,满载条件(full-load condition)的影响不仅限于机械系统,还包括财务方面。公司需要考虑在满负荷下操作机器所涉及的成本。虽然在最大产出下运行设备以满足生产目标似乎是有利的,但如果没有适当的计划,这样做可能会导致磨损加剧、维护成本增加以及由于设备故障而导致的潜在停机。因此,平衡操作负荷对于保持效率和成本效益至关重要。总之,满载条件(full-load condition)的概念在工程和设计领域中是不可或缺的。它涵盖了广泛的因素,包括性能、安全性和财务影响。通过在满载条件(full-load condition)下彻底理解和测试系统,工程师可以确保他们的设计是稳健、高效且安全的。这一知识不仅增强了机器和结构的可靠性,还有助于工程项目的整体成功,确保它们满足其预期应用的需求,同时最小化风险和成本。
