utility factor

简明释义

设备使用率

英英释义

例句

1.The utility factor 效用系数 of a power plant is crucial for understanding its operational efficiency.

发电厂的效用系数 效用系数对理解其运营效率至关重要。

2.To maximize efficiency, we need to calculate the utility factor 效用系数 of our heating system.

为了最大化效率，我们需要计算我们的供暖系统的效用系数 效用系数。

3.A higher utility factor 效用系数 means that the equipment is being used more effectively.

更高的效用系数 效用系数意味着设备使用得更有效。

4.In our analysis, we found that the utility factor 效用系数 of the new machinery is significantly higher than the old one.

在我们的分析中，我们发现新机器的效用系数 效用系数明显高于旧机器。

5.The solar panel's performance can be evaluated by its utility factor 效用系数, which indicates how much energy it produces relative to its capacity.

太阳能电池板的性能可以通过其效用系数 效用系数来评估，该系数表示它相对于其容量产生的能量。

作文

The concept of the utility factor plays a crucial role in various fields, particularly in economics and engineering. In simple terms, the utility factor refers to the measure of how effectively a resource or service is utilized compared to its maximum potential. For instance, in the context of energy consumption, the utility factor can indicate how much electricity is actually used by an appliance versus how much it could use if it operated at full capacity. This metric helps in assessing both efficiency and sustainability, which are increasingly important in our modern world.In economic terms, the utility factor can be used to evaluate consumer satisfaction with a product or service. When consumers derive high satisfaction from a product relative to its cost, we can say that the utility factor is high. This means that consumers feel they are getting good value for their money. Conversely, if a product is expensive but does not meet expectations, its utility factor would be low, indicating poor value.Moreover, the utility factor is essential in urban planning and infrastructure development. Cities often face challenges related to resource allocation, and understanding the utility factor of public services such as transportation, water supply, and waste management can lead to better decision-making. By analyzing the utility factor, city planners can identify which services are over or under-utilized, allowing them to allocate resources more efficiently and improve overall quality of life for residents.In engineering, the utility factor is critical when designing systems and processes. Engineers strive to maximize the utility factor of machines and systems to ensure that they operate at optimal levels. For example, in manufacturing, a machine with a high utility factor produces a significant amount of output relative to its capacity, minimizing waste and maximizing productivity. This is particularly important in industries where margins are tight, and efficiency can make or break a company's success.Additionally, understanding the utility factor can help individuals make better choices in their daily lives. For example, when purchasing appliances, consumers can compare the utility factor of different models to determine which one will provide the best performance for their needs while being mindful of energy consumption. This not only saves money but also contributes to environmental sustainability.In conclusion, the utility factor is a multifaceted concept that transcends various domains, including economics, urban planning, and engineering. It serves as a valuable tool for assessing efficiency, satisfaction, and resource allocation. By improving our understanding of the utility factor, we can make informed decisions that enhance our lives and promote sustainable practices. As we continue to face global challenges such as climate change and resource scarcity, the significance of maximizing the utility factor will only grow, making it a vital consideration for individuals, businesses, and governments alike.

“效用因子”这一概念在多个领域中发挥着重要作用，尤其是在经济学和工程学中。简单来说，“效用因子”指的是资源或服务的实际利用效果与其最大潜力的比较。例如，在能源消费的背景下，“效用因子”可以表示一个电器实际使用的电量与其在满负荷运行时可能使用的电量之间的比率。这个指标有助于评估效率和可持续性，这在现代社会中愈发重要。在经济学中，“效用因子”可用于评估消费者对产品或服务的满意度。当消费者相对于其成本获得高满意度时，我们可以说“效用因子”很高。这意味着消费者觉得他们得到了物有所值的东西。相反，如果一件产品价格昂贵但未能满足期望，其“效用因子”就会很低，表明价值不佳。此外，“效用因子”在城市规划和基础设施发展中也至关重要。城市常常面临资源分配相关的挑战，理解公共服务（如交通、水供应和废物管理）的“效用因子”可以导致更好的决策。通过分析“效用因子”，城市规划者可以识别哪些服务过度或不足利用，从而更有效地分配资源，提高居民的整体生活质量。在工程学中，“效用因子”在设计系统和流程时至关重要。工程师努力最大化机器和系统的“效用因子”，以确保它们在最佳水平下运行。例如，在制造业中，具有高“效用因子”的机器相对于其产能产生大量输出，最小化浪费并最大化生产力。这在利润微薄的行业中尤为重要，效率可以决定公司的成败。此外，理解“效用因子”可以帮助个人在日常生活中做出更好的选择。例如，在购买电器时，消费者可以比较不同型号的“效用因子”，以确定哪一款能够在满足其需求的同时，注意能耗。这不仅节省了资金，还促进了环境可持续性。总之，“效用因子”是一个多方面的概念，跨越了经济学、城市规划和工程学等多个领域。它作为评估效率、满意度和资源分配的有价值工具。通过提高我们对“效用因子”的理解，我们可以做出明智的决策，改善我们的生活，并促进可持续实践。随着我们继续面临气候变化和资源短缺等全球挑战，最大化“效用因子”的重要性只会增加，这使其成为个人、企业和政府都必须考虑的重要因素。