intake area

简明释义

进气截面面积

英英释义

例句

1.During a storm, debris can accumulate in the intake area, affecting operations.

在暴风雨期间，碎片可能会在进水口区域累积，从而影响操作。

2.The design of the intake area is crucial for efficient water flow.

设计进水口区域对高效水流至关重要。

3.The fish were observed near the intake area of the power plant.

鱼类在发电厂的进水口区域附近被观察到。

4.Before maintenance, the engineers checked the intake area for any blockages.

在维护之前，工程师检查了进水口区域是否有任何堵塞。

5.The water is drawn from the river through the intake area.

水通过进水口区域从河流中抽取。

作文

The concept of the intake area is crucial in various fields, particularly in engineering and environmental science. An intake area refers to the specific location or region where resources, such as water, air, or other materials, are collected for use in a process or system. Understanding the dynamics of an intake area can significantly impact the efficiency and effectiveness of operations within a given system. For instance, in water treatment facilities, the intake area is where raw water is drawn from a source, such as a river or lake, before undergoing purification processes. The quality of the water at the intake area directly affects the overall quality of the treated water, making it essential to monitor and manage this region diligently.In environmental management, the intake area also plays a vital role in assessing the ecological impacts of resource extraction. When industries extract natural resources, they often create an intake area that can lead to habitat disruption and pollution. Therefore, it is necessary to conduct thorough environmental assessments before establishing an intake area to ensure that these activities do not adversely affect local ecosystems. For example, if a company plans to build a new factory near a river, the intake area for water intake must be evaluated to prevent contamination of the water supply and protect aquatic life.Moreover, the design of an intake area can influence operational efficiency. In engineering projects, careful consideration must be given to the layout and structure of the intake area. Factors such as flow rate, sedimentation, and potential blockages need to be addressed to optimize performance. Engineers often utilize advanced modeling techniques to simulate conditions in the intake area and predict how changes in design might improve functionality. This proactive approach can save time and resources while ensuring that the intake area is capable of meeting the demands placed upon it.In conclusion, the intake area is more than just a physical location; it is a critical component that affects the overall success of various systems. Whether in water treatment, environmental management, or engineering, understanding and optimizing the intake area can lead to better outcomes for both human activities and the environment. As we continue to face challenges related to resource management and sustainability, the importance of effectively managing our intake areas will only grow. By prioritizing the health of these regions, we can ensure that we meet our needs without compromising the well-being of our planet.

“进水区”这一概念在多个领域中至关重要，尤其是在工程和环境科学中。“进水区”指的是特定的位置或区域，在该区域收集资源，如水、空气或其他材料，以供系统或过程使用。理解“进水区”的动态变化对提高给定系统的效率和有效性具有重要影响。例如，在水处理设施中，“进水区”是从河流或湖泊等水源抽取原水的地方，这些原水在经过净化处理前，这里的水质直接影响到处理后水的整体质量，因此必须认真监测和管理这一地区。在环境管理中，“进水区”在评估资源开采的生态影响方面也发挥着重要作用。当工业提取自然资源时，通常会形成一个“进水区”，这可能导致栖息地破坏和污染。因此，在建立“进水区”之前，有必要进行全面的环境评估，以确保这些活动不会对当地生态系统产生不利影响。例如，如果一家公司计划在河流附近建造新工厂，则必须评估“进水区”的水源，以防止水源污染并保护水生生物。此外，“进水区”的设计还会影响操作效率。在工程项目中，必须仔细考虑“进水区”的布局和结构。流速、沉淀和潜在堵塞等因素需要得到解决，以优化性能。工程师们通常利用先进的建模技术来模拟“进水区”的条件，并预测设计变化如何改善功能。这种主动的方法可以节省时间和资源，同时确保“进水区”能够满足其所承受的需求。总之，“进水区”不仅仅是一个物理位置，它是影响各种系统整体成功的关键组成部分。无论是在水处理、环境管理还是工程领域，理解和优化“进水区”都能为人类活动和环境带来更好的结果。随着我们继续面临与资源管理和可持续发展相关的挑战，有效管理我们的“进水区”的重要性只会增加。通过优先考虑这些区域的健康，我们可以确保满足我们的需求而不损害我们星球的福祉。