gross capacity
简明释义
总容量
英英释义
例句
1.The stadium has a gross capacity of 50,000 spectators.
这个体育场的总容量为50,000名观众。
2.The new power plant will have a gross capacity of 500 megawatts.
新的发电厂将拥有总容量为500兆瓦。
3.To calculate the gross capacity of the reservoir, we need to consider its dimensions.
要计算水库的总容量,我们需要考虑它的尺寸。
4.The cruise ship's gross capacity allows for over 3,000 passengers.
这艘游轮的总容量可容纳超过3000名乘客。
5.The factory's gross capacity was increased by installing new machinery.
通过安装新设备,工厂的总容量得到了提升。
作文
Understanding the concept of gross capacity is essential in various fields, including engineering, economics, and environmental science. The term gross capacity refers to the total amount of something that a system can hold or produce, without accounting for any losses or inefficiencies. For instance, in the context of a power plant, gross capacity indicates the maximum electrical output it can generate under ideal conditions. This measurement is crucial for energy planning and management, as it helps to assess the potential energy supply available to meet demand.In manufacturing, gross capacity can refer to the maximum output a factory can achieve within a certain timeframe. This includes all machines and labor resources working at full efficiency. Understanding gross capacity allows companies to estimate production rates and plan for future growth. However, it is important to distinguish between gross capacity and net capacity, which accounts for operational downtime, maintenance, and other factors that reduce actual output.Additionally, in the context of transportation, gross capacity could refer to the total number of passengers or cargo that a vehicle or transport system can accommodate. For example, an airplane's gross capacity would include all available seats, while a freight ship's gross capacity would encompass its total cargo space. Accurately determining gross capacity in these scenarios is vital for logistics and scheduling, ensuring that transport systems can meet the demands of travel and shipping efficiently.In environmental studies, gross capacity might relate to ecosystems, such as the total biomass that a forest can support. This understanding helps ecologists manage natural resources sustainably and predict the impacts of human activities on various habitats. By measuring gross capacity, researchers can gauge the health of an ecosystem and implement strategies to protect it.Overall, the significance of gross capacity lies in its ability to provide a baseline measurement for various systems. It serves as a starting point for analysis and optimization in multiple sectors. However, it is crucial to remember that gross capacity is not always indicative of actual performance. Factors such as equipment wear, human error, and external conditions can significantly affect the effective output.In conclusion, grasping the concept of gross capacity is fundamental for professionals across diverse industries. Whether in energy generation, manufacturing, transportation, or environmental management, understanding what gross capacity entails allows for better planning, resource allocation, and sustainability efforts. As we continue to face challenges related to resource management and environmental conservation, the importance of accurately measuring and understanding gross capacity will only grow. By leveraging this knowledge, we can work towards more efficient systems and a sustainable future for all.
理解总容量的概念在工程、经济和环境科学等多个领域中都是至关重要的。术语总容量指的是一个系统能够容纳或生产的总量,而不考虑任何损失或低效。例如,在发电厂的上下文中,总容量表示它在理想条件下可以产生的最大电力输出。这个测量对于能源规划和管理至关重要,因为它有助于评估可用的潜在能源供应以满足需求。在制造业中,总容量可以指一个工厂在特定时间框架内能够实现的最大产出。这包括所有机器和劳动力资源在充分效率下的工作。理解总容量使公司能够估计生产率并为未来的增长做计划。然而,重要的是要区分总容量和净容量,后者考虑了操作停机、维护和其他减少实际产出的因素。此外,在运输方面,总容量可能指的是一辆车辆或运输系统能够容纳的乘客或货物的总数。例如,一架飞机的总容量将包括所有可用座位,而一艘货船的总容量则涵盖其总货物空间。在这些情况下,准确确定总容量对于物流和调度至关重要,确保运输系统能够高效地满足旅行和运输的需求。在环境研究中,总容量可能与生态系统有关,例如一个森林能够支持的生物量总量。这种理解有助于生态学家可持续地管理自然资源,并预测人类活动对各种栖息地的影响。通过测量总容量,研究人员可以评估生态系统的健康状况并实施保护策略。总的来说,总容量的重要性在于它能够为各种系统提供基准测量。它作为分析和优化的起点在多个部门中发挥作用。然而,必须记住的是,总容量并不总是表明实际绩效。设备磨损、人为错误和外部条件等因素可能会显著影响有效输出。总之,掌握总容量的概念对于各行业的专业人士至关重要。无论是在能源生成、制造、运输还是环境管理中,理解总容量的含义都能更好地进行规划、资源分配和可持续发展努力。随着我们继续面临与资源管理和环境保护相关的挑战,准确测量和理解总容量的重要性只会增加。通过利用这一知识,我们可以朝着更高效的系统和可持续的未来努力。
