dewatering

简明释义

英[diːˈwɔːtərɪŋ]美[diːˈwɔːtərɪŋ]

脱水作用

英英释义

单词用法

同义词

反义词

例句

1.The factors effecting sludge dewatering performance are also probed.

这也是要探讨污泥脱水性能影响因素的目的。

2.The Rotory Press Filter is a new type of dewatering equipment.

滚压式污泥脱水机是一种新型脱水机械。

3.This experiment simulated dewatering coal slurry in the ship's cabin.

本试验模拟了煤浆在船舱进行脱水的情况。

4.Better methods of dewatering and disposing of these sludges are needed.

需要研究更好的污泥脱水和处置方法。

5.Griffin Dewatering was founded in the Bronx Borough of New York City in 1934 by the Griffin family.

格里芬脱水公司由格里芬家庭在纽约市布朗克斯区于1934年建立。

6.The coupled characteristics of the pit's environment induced by dewatering were analyzed by the software ABAQUS.

利用有限元软件ABAQUS对基坑降水环境效应的耦合性状进行分析。

7.No dewatering of stock, unlike standard knife gate valves.

与标准刀闸阀不同，不需要库存脱水。

8.Dewatering becomes a major operation when the excavation lies below the natural water table and intercepts the groundwater flow.

当挖方位于天然地下水面以下时或有地下水流经时，排水就成为一个主要的工序。

9.Dewatering of sludge is strongly related to the bound water content of sludge.

污泥的脱水性与其结合水的含量有很大的关系。

10.The construction site required effective dewatering to prevent flooding during heavy rains.

施工现场需要有效的排水以防止在大雨期间发生洪水。

11.In mining operations, dewatering is essential to maintain safety and efficiency.

在采矿作业中，排水对于保持安全和效率至关重要。

12.The dewatering process helped to stabilize the soil for the new foundation.

该排水过程有助于稳定新基础的土壤。

13.Engineers used pumps for dewatering the excavation site before pouring concrete.

工程师在浇筑混凝土之前使用泵进行挖掘现场的排水。

14.The dewatering system reduced the water table, allowing for better crop growth.

该排水系统降低了水位，使作物生长更好。

作文

Dewatering is a crucial process in various industries, particularly in construction, mining, and waste management. The term dewatering refers to the removal of water from solid materials or soil, which is essential for ensuring stability and safety in many operations. In construction, for instance, dewatering is often necessary to keep excavations dry and safe for workers. When building foundations or basements, excess groundwater can pose a significant risk. Therefore, implementing effective dewatering techniques is vital to prevent flooding and erosion, allowing construction to proceed smoothly. In the mining industry, dewatering plays an equally important role. Mines often operate below the water table, which means that groundwater can flood the mine shafts. To manage this, miners use various dewatering methods, such as pumping water out of the mine site or using drainage systems to divert water away. This process not only protects the equipment but also ensures the safety of the miners working underground. Moreover, in the field of waste management, dewatering is employed to treat sludge and other waste materials. By removing excess water, waste treatment facilities can reduce the volume of waste, making it easier and more cost-effective to transport and dispose of. This process also helps in recovering valuable resources from waste, such as biogas, which can be harnessed for energy production. The methods used for dewatering can vary depending on the specific requirements of the project. Common techniques include mechanical dewatering, where equipment such as centrifuges and belt presses are used to extract water, and gravity drainage, which relies on natural forces to remove water from the material. Each method has its advantages and limitations, and the choice of technique often depends on factors such as the type of material being processed, the volume of water to be removed, and environmental considerations. In addition to its practical applications, dewatering also has significant environmental implications. For example, improper dewatering can lead to negative effects on local ecosystems, such as lowering the water table and disrupting natural habitats. Therefore, it is essential for companies to adopt sustainable dewatering practices that minimize environmental impact while achieving their operational goals. In conclusion, dewatering is an essential process across various sectors, helping to ensure safety, efficiency, and sustainability. Understanding the importance of dewatering and employing appropriate techniques can significantly enhance operational success while protecting the environment. As industries continue to evolve, the methods and technologies associated with dewatering will likely advance, leading to even more efficient and environmentally friendly solutions for managing water in industrial processes.

去水是各个行业中一个至关重要的过程，尤其是在建筑、采矿和废物管理领域。术语去水指的是从固体材料或土壤中去除水分，这对于确保许多操作的稳定性和安全性至关重要。例如，在建筑中，去水通常是保持挖掘工地干燥和安全的必要条件。当建设基础或地下室时，过量的地下水可能会构成重大风险。因此，实施有效的去水技术对于防止洪水和侵蚀至关重要，从而使施工顺利进行。 在采矿行业中，去水同样扮演着重要角色。矿山通常位于水位以下，这意味着地下水可能会淹没矿井。为了管理这一问题，矿工们使用各种去水方法，如抽水泵将水排出矿区或利用排水系统将水引开。这一过程不仅保护了设备，还确保了在地下工作的矿工的安全。 此外，在废物管理领域，去水被用于处理污泥和其他废物材料。通过去除多余的水，废物处理设施可以减少废物的体积，使其运输和处置更加简便和经济。这一过程还有助于从废物中回收有价值的资源，如沼气，这可以用来生产能源。 用于去水的方法可以根据项目的具体要求而有所不同。常见的技术包括机械去水，其中使用离心机和带式压榨机等设备来提取水分，以及重力排水，依赖自然力量从材料中去除水分。每种方法都有其优缺点，技术的选择通常取决于诸如处理材料的类型、需去除的水量和环境考虑等因素。 除了其实际应用外，去水还具有重要的环境影响。例如，不当的去水可能会对当地生态系统产生负面影响，如降低水位和破坏自然栖息地。因此，各公司采用可持续的去水实践，以尽量减少环境影响，同时实现其运营目标是至关重要的。 总之，去水是各个部门中一个不可或缺的过程，有助于确保安全、高效和可持续性。理解去水的重要性并采用适当的技术可以显著提高运营成功，同时保护环境。随着各行业的不断发展，与去水相关的方法和技术可能会不断进步，从而为工业过程中的水管理提供更高效和环保的解决方案。