turbid flow

简明释义

浊流;乱流

英英释义

例句

1.The river showed signs of turbid flow after the heavy rain, making it unsafe for swimming.

在大雨后，这条河出现了浑浊流动的迹象，使得游泳变得不安全。

2.After the landslide, the area was filled with turbid flow that made visibility poor.

山体滑坡后，该地区充满了浑浊流动，能见度很差。

3.Engineers must account for turbid flow when designing spillways to ensure proper drainage.

工程师在设计溢洪道时必须考虑到浑浊流动以确保适当的排水。

4.During the storm, the turbid flow of mud and debris blocked the road.

在暴风雨期间，泥土和碎片的浑浊流动阻塞了道路。

5.The environmental study focused on the effects of turbid flow on aquatic life.

这项环境研究集中于浑浊流动对水生生物的影响。

作文

In the field of fluid dynamics, understanding various types of flow is crucial for both theoretical studies and practical applications. One such type is turbid flow, which refers to a fluid motion characterized by a high concentration of suspended particles, making the fluid appear cloudy or murky. This phenomenon can be observed in natural bodies of water, such as rivers and lakes, especially after heavy rainfall or during periods of erosion. The presence of these particles not only affects the aesthetic quality of the water but also has significant implications for aquatic life and water quality management.The study of turbid flow encompasses various scientific disciplines, including environmental science, engineering, and geology. For instance, in environmental science, researchers examine how turbid flow impacts ecosystems. High turbidity levels can reduce light penetration in water, which is essential for photosynthetic organisms like algae and aquatic plants. Consequently, this can lead to decreased oxygen levels and affect the entire food chain, ultimately harming fish and other aquatic species.In engineering, understanding turbid flow is vital for designing effective water treatment systems. Water treatment facilities must be equipped to handle varying levels of turbidity, especially during storm events when runoff increases sedimentation. Engineers must calculate the appropriate filtration and sedimentation rates to ensure that the water meets safety standards for human consumption and environmental protection.Moreover, the concept of turbid flow extends beyond water bodies; it can also apply to industrial processes where fluids carry solid particles. In industries such as mining, food processing, and pharmaceuticals, managing turbid flow is essential for maintaining product quality and operational efficiency. For example, in the mining industry, the transportation of minerals often involves slurries that exhibit turbid flow. Understanding the behavior of these mixtures helps in optimizing extraction processes and minimizing environmental impact.Furthermore, turbid flow is relevant in the context of climate change and its effects on hydrology. As weather patterns become more erratic, increased rainfall can lead to heightened erosion and sediment transport into rivers and lakes, exacerbating turbid flow conditions. This situation poses challenges for water resource management and necessitates innovative solutions to mitigate the effects of increased turbidity on water quality.In conclusion, turbid flow is a multifaceted concept with far-reaching implications across various fields. From its impact on aquatic ecosystems to its significance in engineering and industrial applications, understanding turbid flow is essential for addressing contemporary environmental challenges. As we continue to explore and manage our water resources, recognizing the importance of turbid flow will be crucial in ensuring sustainable practices that protect both natural ecosystems and human health.

在流体动力学领域，理解各种流动类型对于理论研究和实际应用至关重要。其中一种类型是浑浊流，它指的是一种流体运动，其特征是悬浮颗粒浓度高，使流体看起来浑浊或模糊。这种现象可以在自然水体中观察到，例如河流和湖泊，特别是在大雨后或侵蚀期间。颗粒的存在不仅影响水的美观质量，还对水生生物和水质管理具有重要意义。浑浊流的研究涉及多个科学学科，包括环境科学、工程学和地质学。例如，在环境科学中，研究人员考察浑浊流对生态系统的影响。高浑浊度水平会减少水中的光透过率，而光透过率对光合生物如藻类和水生植物至关重要。因此，这可能导致氧气水平下降，并影响整个食物链，最终危害鱼类和其他水生物种。在工程学中，理解浑浊流对于设计有效的水处理系统至关重要。水处理设施必须能够处理不同水平的浑浊度，尤其是在暴雨事件期间，径流增加了沉积物。工程师必须计算适当的过滤和沉淀速率，以确保水符合人类消费和环境保护的安全标准。此外，浑浊流的概念不仅限于水体；它也适用于携带固体颗粒的工业过程。在采矿、食品加工和制药等行业，管理浑浊流对保持产品质量和操作效率至关重要。例如，在采矿行业，矿物运输通常涉及表现出浑浊流的浆料。理解这些混合物的行为有助于优化提取过程并最小化对环境的影响。此外，浑浊流在气候变化及其对水文的影响方面也具有相关性。随着天气模式变得更加不稳定，降雨量的增加可能导致加剧的侵蚀和沉积物运输进入河流和湖泊，从而加剧浑浊流条件。这种情况对水资源管理构成挑战，需要创新解决方案来减轻浑浊度增加对水质的影响。总之，浑浊流是一个多方面的概念，具有广泛的影响，涉及多个领域。从其对水生生态系统的影响到其在工程和工业应用中的重要性，理解浑浊流对应对当代环境挑战至关重要。随着我们继续探索和管理水资源，认识到浑浊流的重要性将对确保可持续实践、保护自然生态系统和人类健康至关重要。