coefficient of utilization

简明释义

利用系数

英英释义

例句

1.A higher coefficient of utilization means that more of the available space is being used effectively.

更高的利用系数意味着可用空间被更有效地使用。

2.The engineer calculated the coefficient of utilization to determine the efficiency of the lighting system in the office.

工程师计算了利用系数以确定办公室照明系统的效率。

3.In our analysis, we found that the coefficient of utilization for the warehouse was only 60%.

在我们的分析中，我们发现仓库的利用系数仅为60%。

4.The coefficient of utilization in transportation logistics can greatly affect delivery times.

运输物流中的利用系数会大大影响交货时间。

5.To improve the coefficient of utilization, we need to optimize the layout of the production floor.

为了提高利用系数，我们需要优化生产车间的布局。

作文

The concept of the coefficient of utilization is crucial in various fields, particularly in engineering, architecture, and resource management. It refers to the ratio of the actual output of a system or resource to its maximum potential output. Understanding this coefficient allows professionals to evaluate the efficiency of systems and optimize their performance. For instance, in building design, the coefficient of utilization can indicate how effectively space is used. A high coefficient suggests that the space is being used efficiently, while a low coefficient may point to wasted potential or underutilization.In the context of energy consumption, the coefficient of utilization plays a significant role in assessing how effectively energy resources are employed. For example, in a power plant, this coefficient helps determine how much of the generated energy is actually used for productive purposes versus how much is lost due to inefficiencies. By analyzing this ratio, engineers can implement strategies to enhance energy efficiency, thereby reducing costs and environmental impact.Moreover, the coefficient of utilization is also relevant in manufacturing processes. Companies strive to maximize their production capabilities while minimizing waste. By calculating the coefficient of utilization, manufacturers can identify bottlenecks in their processes and make informed decisions about where to invest in improvements. This not only boosts productivity but also contributes to sustainability efforts by reducing excess material use and lowering carbon footprints.In the realm of transportation, the coefficient of utilization can be applied to analyze the efficiency of vehicle usage. For instance, ride-sharing services often calculate this coefficient to determine how many passengers are being transported per trip. A higher coefficient indicates a more efficient use of vehicles, which can lead to decreased traffic congestion and lower emissions. Transportation planners can leverage this data to develop better public transit systems that maximize passenger capacity and minimize environmental impact.In conclusion, the coefficient of utilization is an essential metric across various disciplines. It provides valuable insights into the effectiveness of resource use and highlights areas for improvement. By focusing on enhancing this coefficient, professionals can drive innovation, improve efficiency, and contribute to sustainable practices. Whether in architecture, energy management, manufacturing, or transportation, understanding and optimizing the coefficient of utilization can lead to significant benefits for both organizations and society as a whole.

“利用系数”这一概念在多个领域中至关重要，尤其是在工程、建筑和资源管理方面。它指的是一个系统或资源的实际输出与其最大潜在输出之间的比率。理解这个系数使专业人士能够评估系统的效率并优化其性能。例如，在建筑设计中，“利用系数”可以指示空间使用的有效性。较高的系数表明空间使用效率高，而较低的系数可能指向潜在的浪费或未充分利用。在能源消费的背景下，“利用系数”在评估能源资源的有效使用方面发挥着重要作用。例如，在发电厂中，这个系数有助于确定实际用于生产目的的能源量与由于低效率而损失的能源量。通过分析这一比率，工程师可以实施策略以提高能源效率，从而降低成本和环境影响。此外，“利用系数”在制造过程中也相关。公司努力最大化其生产能力，同时最小化浪费。通过计算“利用系数”，制造商可以识别其流程中的瓶颈，并就在哪里投资改进做出明智的决策。这不仅提高了生产力，还通过减少多余材料使用和降低碳足迹来促进可持续发展。在交通运输领域，“利用系数”可以用于分析车辆使用的效率。例如，拼车服务通常计算这一系数，以确定每次行程运输的乘客数量。较高的系数表明车辆使用更为高效，这可以减少交通拥堵和排放。交通规划者可以利用这些数据开发更好的公共交通系统，以最大化乘客容量并最小化环境影响。总之，“利用系数”是各个学科中的一个重要指标。它提供了有关资源使用有效性的宝贵见解，并突出了改进的领域。通过关注提高这一系数，专业人士可以推动创新，提高效率，并促进可持续实践。无论是在建筑、能源管理、制造还是交通运输中，理解和优化“利用系数”都能为组织和整个社会带来显著的好处。