hold de-watering system

简明释义

货舱排水系统

英英释义

例句

1.Our team installed a hold de-watering system to protect the foundation from water damage.

我们的团队安装了一个保持排水系统以保护基础免受水损害。

2.Before starting the excavation, we need to set up a hold de-watering system to prevent flooding.

在开始挖掘之前，我们需要建立一个保持排水系统以防止洪水。

3.The construction site utilizes a hold de-watering system to manage groundwater levels effectively.

施工现场利用保持排水系统有效管理地下水位。

4.The effectiveness of the hold de-watering system was tested during last week's heavy rains.

上周的暴雨测试了保持排水系统的有效性。

5.The hold de-watering system is crucial for maintaining dry conditions during the rainy season.

在雨季，保持排水系统对于维持干燥条件至关重要。

作文

In the realm of construction and civil engineering, managing water is crucial for the success of any project. One of the essential systems employed to control water levels is the hold de-watering system. This system is designed to remove excess water from a construction site, ensuring that the ground remains stable and dry during the building process. The importance of a hold de-watering system cannot be overstated, as it plays a significant role in preventing flooding, soil erosion, and other water-related issues that can jeopardize the integrity of structures. A hold de-watering system typically consists of various components, including pumps, pipes, and storage tanks. These elements work together to efficiently extract water from the site. For instance, when groundwater levels rise due to heavy rainfall or nearby water bodies, the hold de-watering system activates to lower the water table, allowing construction activities to proceed without interruption. This proactive approach not only saves time but also reduces costs associated with delays and potential damage caused by water. Moreover, implementing a hold de-watering system contributes to environmental sustainability. By controlling water levels, these systems help protect local ecosystems from being disturbed. Excessive water can lead to sediment runoff, which can harm aquatic habitats. Therefore, a well-designed hold de-watering system ensures that water is managed responsibly, minimizing negative impacts on the surrounding environment. In addition to its environmental benefits, a hold de-watering system also enhances worker safety. Construction sites can be hazardous, especially when water accumulates, creating slippery surfaces and increasing the risk of accidents. By keeping the site dry, the hold de-watering system helps maintain a safer working environment for construction workers. This aspect is particularly important in large-scale projects where numerous workers are present, and any accident can lead to severe consequences. Furthermore, the use of a hold de-watering system can improve the overall quality of construction. When the ground is stable and dry, the materials used in construction can be laid more effectively, leading to stronger and more durable structures. This reliability is essential for meeting building codes and ensuring the longevity of the project. In contrast, neglecting to implement such a system may result in structural weaknesses that could compromise the safety and usability of the building over time. In conclusion, the hold de-watering system is an indispensable tool in modern construction practices. Its ability to manage water effectively not only facilitates the construction process but also promotes environmental stewardship and worker safety. As construction projects continue to grow in complexity and scale, the reliance on efficient water management systems like the hold de-watering system will undoubtedly increase, highlighting the need for engineers and contractors to prioritize such technologies in their planning and execution. Overall, understanding the functionality and significance of a hold de-watering system is vital for anyone involved in the construction industry. It represents a commitment to excellence in building practices and a dedication to preserving the environment while ensuring the safety and efficiency of construction operations.

在建筑和土木工程领域，水的管理对任何项目的成功至关重要。控制水位的基本系统之一就是持水排水系统。该系统旨在去除施工现场的多余水分，确保在施工过程中土地保持稳定和干燥。持水排水系统的重要性不容小觑，因为它在防止洪水、土壤侵蚀和其他可能危及结构完整性的水相关问题中发挥着重要作用。 一个持水排水系统通常由多个组件组成，包括泵、管道和储水箱。这些元素共同协作，高效地从现场抽取水分。例如，当地下水位因大雨或附近水体上涨时，持水排水系统会启动以降低水位，从而使施工活动能够顺利进行。这种主动的方法不仅节省了时间，还减少了因延误和水造成的潜在损坏而产生的成本。 此外，实施持水排水系统有助于环境可持续性。通过控制水位，这些系统有助于保护当地生态系统不受干扰。过量的水可能导致沉积物径流，这可能会损害水生栖息地。因此，一个设计良好的持水排水系统确保水的管理是负责任的，最大限度地减少对周围环境的负面影响。 除了环境效益外，持水排水系统还提高了工人的安全性。建筑工地可能是危险的，尤其是在水积聚的情况下，会形成滑腻的表面，增加事故风险。通过保持现场干燥，持水排水系统有助于维护建筑工人的安全工作环境。这一点在大型项目中尤为重要，因为许多工人在场，任何事故都可能导致严重后果。 此外，使用持水排水系统可以提高建筑质量。当土地稳定且干燥时，施工中使用的材料可以更有效地铺设，从而构建出更强大、更耐用的结构。这种可靠性对于满足建筑规范和确保项目的长期性至关重要。相比之下，忽视实施这样的系统可能导致结构弱点，从而危及建筑的安全性和可用性。 总之，持水排水系统是现代建筑实践中不可或缺的工具。其有效管理水分的能力不仅促进了施工过程，还推动了环境保护和工人安全。随着建筑项目的复杂性和规模不断增长，对像持水排水系统这样的高效水管理系统的依赖无疑会增加，这突显了工程师和承包商在规划和执行中优先考虑此类技术的必要性。 总体而言，理解持水排水系统的功能和重要性对于任何参与建筑行业的人来说都是至关重要的。它代表了对卓越建筑实践的承诺，以及在确保施工操作的安全性和效率的同时，致力于保护环境。