hydraulic modelling

简明释义

水力模型化

英英释义

例句

1.The city council commissioned a hydraulic modelling study to improve stormwater management.

市议会委托进行了一项水力建模研究，以改善雨水管理。

2.Using hydraulic modelling, they assessed the impact of climate change on river systems.

利用水力建模，他们评估了气候变化对河流系统的影响。

3.The engineers used hydraulic modelling to simulate the flow of water in the new dam design.

工程师们使用水力建模来模拟新大坝设计中的水流。

4.The team conducted hydraulic modelling to optimize the irrigation system for the agricultural fields.

团队进行了水力建模以优化农业田地的灌溉系统。

5.By applying hydraulic modelling, they were able to predict flood risks in the urban area.

通过应用水力建模，他们能够预测城市区域的洪水风险。

作文

Hydraulic modelling is a crucial aspect of engineering that involves the simulation of fluid flow and behavior in various systems. This technique is widely used in civil engineering, environmental science, and water resource management. By employing hydraulic modelling (水力模型), engineers can predict how water will interact with structures such as dams, bridges, and drainage systems under different conditions. This predictive capability is essential for designing safe and efficient infrastructure that can withstand natural events like floods or droughts.The process of hydraulic modelling (水力模型) typically starts with data collection, where engineers gather information about the site, including topography, soil types, and existing water bodies. This data is then used to create a mathematical model that represents the physical characteristics of the site. The model simulates how water flows through the environment, taking into account factors such as gravity, pressure, and resistance from surfaces.One of the primary benefits of hydraulic modelling (水力模型) is its ability to visualize complex water flow patterns. Engineers can use software tools to create 2D and 3D representations of water movement, which can help identify potential issues before construction begins. For instance, if a model indicates that water will pool in a certain area, engineers can adjust their designs to prevent flooding.Additionally, hydraulic modelling (水力模型) is instrumental in assessing the impact of climate change on water resources. As weather patterns become more unpredictable, understanding how these changes affect water flow is vital. Through simulations, engineers can evaluate scenarios such as increased rainfall or rising sea levels, allowing them to develop strategies for mitigating risks associated with these changes.Moreover, hydraulic modelling (水力模型) plays a significant role in managing urban water systems. Cities face challenges such as stormwater runoff, which can lead to pollution and flooding. By implementing hydraulic models, city planners can design effective drainage systems that manage excess water during heavy rainfall. This proactive approach not only protects infrastructure but also enhances public safety.In conclusion, hydraulic modelling (水力模型) is an invaluable tool in the field of engineering and environmental management. Its ability to simulate fluid dynamics allows for informed decision-making and innovative solutions to water-related challenges. As our understanding of water systems continues to evolve, the importance of hydraulic modelling (水力模型) will only grow, making it a critical component of sustainable development and disaster preparedness.

水力模型是工程学中一个至关重要的方面，它涉及到对流体流动和行为在各种系统中的模拟。这项技术广泛应用于土木工程、环境科学和水资源管理。通过采用水力模型，工程师可以预测水在不同条件下如何与大坝、桥梁和排水系统等结构相互作用。这种预测能力对于设计能够承受洪水或干旱等自然事件的安全高效基础设施至关重要。水力模型的过程通常从数据收集开始，工程师收集有关现场的信息，包括地形、土壤类型和现有水体。这些数据随后用于创建一个数学模型，该模型表示现场的物理特征。该模型模拟水在环境中的流动，考虑重力、压力和表面阻力等因素。水力模型的主要好处之一是能够可视化复杂的水流模式。工程师可以使用软件工具创建水运动的二维和三维表示，这可以帮助在施工开始之前识别潜在问题。例如，如果模型显示水将在某个区域聚集，工程师可以调整设计以防止洪水。此外，水力模型在评估气候变化对水资源影响方面也发挥着重要作用。随着天气模式变得更加不可预测，了解这些变化如何影响水流至关重要。通过模拟，工程师可以评估降雨量增加或海平面上升等情景，从而制定减轻与这些变化相关风险的策略。此外，水力模型在管理城市水系统中也发挥着重要作用。城市面临诸如雨水径流等挑战，这可能导致污染和洪水。通过实施水力模型，城市规划者可以设计有效的排水系统，以管理强降雨期间的多余水。这种主动的方法不仅保护基础设施，还增强公共安全。总之，水力模型是工程和环境管理领域中一项宝贵的工具。它模拟流体动力学的能力使得信息决策和水相关挑战的创新解决方案成为可能。随着我们对水系统理解的不断发展，水力模型的重要性只会增加，使其成为可持续发展和防灾准备的关键组成部分。