drainable

简明释义

英[ˈdreɪnəbl]美[ˈdreɪnəbl]

可排水的

可排出的

可疏出的

英英释义

单词用法

同义词

反义词

例句

1.Most of the coalbeds in Panguan syncline are easilydrainable or drainable, and some are hard drainable. The lower coalbeds are better than the upper coalbeds in air penetrability.

盘关向斜煤层主要属勉强可以抽放煤层和易于抽放煤层，部分为较难抽放煤层，煤系下部煤层透气性较上部煤层为好；

2.Most of the coalbeds in Panguan syncline are easilydrainable or drainable, and some are hard drainable. The lower coalbeds are better than the upper coalbeds in air penetrability.

盘关向斜煤层主要属勉强可以抽放煤层和易于抽放煤层，部分为较难抽放煤层，煤系下部煤层透气性较上部煤层为好；

3.The article analyses causes for leakage in highway tunnels and introduces practice of Qifen drainable waterproof plate in a tunnel. And it also briefs how to apply the plate.

分析了山岭公路隧道渗漏的主要原因，介绍了奇封防排水板在某山岭公路隧道工程中的应用，并对其施工工艺做了阐述。

4.On the basis of experiment data statistics, a rational method to evaluate drainable water under different operation conditions was presented.

在整理现场试验数据的基础上，提出了不同运行条件下重力脱除水量的科学确定方法。

5.A fully drainable hybrid shoe offers the comfort of a running shoe.

一个完全排空的混合鞋提供了跑鞋的舒适性。

6.The new design features a drainable 可排水的 reservoir that makes maintenance easier.

新设计有一个可排水的水库，使维护变得更加简单。

7.In case of heavy rain, ensure that your garden has drainable 可排水的 soil to prevent flooding.

在大雨来临时，确保你的花园有可排水的土壤，以防止淹水。

8.The swimming pool is designed with a drainable 可排水的 bottom to facilitate easy cleaning.

游泳池的底部设计为可排水的，以便于清洁。

9.This type of container is drainable 可排水的, making it ideal for storing liquids without spills.

这种类型的容器是可排水的，非常适合存放液体而不洒漏。

10.We need to install a drainable 可排水的 system in the basement to avoid water accumulation.

我们需要在地下室安装一个可排水的系统，以避免水积聚。

作文

In today's world, where urbanization is rapidly increasing, the importance of effective water management cannot be overstated. One critical aspect of this management is the concept of drainable areas. These are regions designed to facilitate the efficient removal of excess water, particularly during heavy rainfall or flooding. Understanding what makes an area drainable is essential for city planners and environmentalists alike. The term drainable refers to the ability of land to allow water to flow away from it, preventing accumulation that could lead to waterlogging or flooding. This characteristic is influenced by various factors, including soil type, topography, and vegetation. For instance, sandy soils are typically more drainable than clay soils because they have larger particles that create more space for water to pass through. In contrast, clay soils tend to retain water, making them less drainable and potentially problematic in areas prone to heavy rainfall. Moreover, the design of urban infrastructure plays a significant role in enhancing the drainable capacity of a region. Effective drainage systems, such as stormwater drains and retention basins, are crucial in managing excess water. These systems work by channeling rainwater away from streets and buildings, thus reducing the risk of flooding. In cities where impervious surfaces dominate, like asphalt and concrete, creating drainable landscapes becomes even more vital. Implementing green roofs, permeable pavements, and rain gardens can significantly improve the drainable nature of urban environments. Another important factor to consider is the impact of climate change on the drainable capacity of different regions. With increasing instances of extreme weather events, such as heavy rains and storms, areas that were once considered drainable may become overwhelmed. As a result, urban planners need to revisit their strategies and enhance existing drainage systems to accommodate these changes. This might involve upgrading infrastructure or restoring natural wetlands that can absorb excess water, thus maintaining the drainable characteristics of the landscape. Furthermore, public awareness and community involvement are essential in promoting drainable practices. Educating residents about the importance of maintaining proper drainage and the role of vegetation in water management can lead to better outcomes. Community-led initiatives, such as tree planting and the creation of bioswales, can enhance the drainable aspects of a neighborhood while also improving its aesthetic appeal. In conclusion, the concept of drainable areas is crucial in the context of urban planning and environmental sustainability. By understanding the factors that contribute to a region's drainable capacity, we can develop more effective strategies for managing water resources. As we face the challenges posed by climate change and urbanization, prioritizing drainable designs will be key to ensuring resilient and sustainable communities. Through collaboration between planners, environmentalists, and the community, we can create spaces that not only manage water effectively but also enhance our quality of life.

在当今城市化迅速增长的世界中，有效的水管理的重要性不容低估。这个管理的一个关键方面是“可排水”区域的概念。这些区域旨在促进多余水分的有效去除，特别是在暴雨或洪水期间。理解什么使一个地区“可排水”对于城市规划者和环境保护者来说至关重要。 “可排水”这个术语指的是土地允许水流离开它的能力，从而防止积水可能导致的水涝或洪水。这一特性受到多种因素的影响，包括土壤类型、地形和植被。例如，沙质土壤通常比粘土土壤更“可排水”，因为它们的颗粒较大，形成了更多的水流通空间。相比之下，粘土土壤往往保留水分，使其在容易发生暴雨的地区变得不那么“可排水”，并可能造成问题。 此外，城市基础设施的设计在增强一个地区的“可排水”能力方面也发挥着重要作用。有效的排水系统，如雨水排水和蓄水池，对于管理多余水分至关重要。这些系统通过将雨水引导远离街道和建筑物，从而减少洪水风险。在以不透水表面为主的城市中，如沥青和混凝土，创造“可排水”景观变得更加重要。实施绿色屋顶、透水铺装和雨水花园可以显著改善城市环境的“可排水”性质。 另一个重要因素是气候变化对不同地区“可排水”能力的影响。随着极端天气事件（如暴雨和风暴）发生的频率增加，以前被认为是“可排水”的地区可能会不堪重负。因此，城市规划者需要重新审视他们的策略，并增强现有的排水系统以适应这些变化。这可能涉及升级基础设施或恢复自然湿地，以吸收多余水分，从而保持景观的“可排水”特性。 此外，提高公众意识和社区参与对于促进“可排水”做法至关重要。教育居民了解维护适当排水的重要性以及植被在水管理中的作用，可以带来更好的结果。社区主导的倡议，如植树和创建生物沟，可以增强邻里的“可排水”特性，同时改善其美观。 总之，“可排水”区域的概念在城市规划和环境可持续性方面至关重要。通过理解影响一个地区“可排水”能力的因素，我们可以制定更有效的水资源管理策略。随着我们面临气候变化和城市化带来的挑战，优先考虑“可排水”设计将是确保韧性和可持续社区的关键。通过规划者、环境保护者和社区之间的合作，我们可以创造不仅能有效管理水资源，还能提升我们的生活质量的空间。