A shock-fitting approach for predicting the two-phase transient flows in stormwater systems (SWS) with best management practices (BMP)

利用最佳管理实践 (BMP) 预测雨水系统 (SWS) 中两相瞬变流的冲击拟合方法

• 批准号: RGPIN-2020-06979
• 负责人: Fuamba, Musandji
• 金额: $ 2.26万
• 依托单位: École Polytechnique de Montréal
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=754659
• 关键词: shock; fitting; approach; predicting; two

Designers and managers of urban drainage infrastructure are aware that available current methods are limited when used in complex cases (rapidly varying flows, transient flows, etc.) because of a simplified representation of the flow energy and continuity equations. The goal of the proposed research program is to develop a set of numerical tools for calculating hydrodynamic conditions in Storm Water Systems (SWS) where Best Management Practices (BMP) may be integrated. These tools will take into account all flow types including transient flows, the presence of air, the non-permanent friction, the simultaneous presence of more than one wave of pressurization/depressurization, the complexity of boundary conditions and the water storage in manholes. The dynamic behaviour of the proposed numerical tools is expected to better characterize transient flows in SWS during flood scenarios and to integrate this new knowledge to current methods of water management flood and hydraulic design of new SWS. Moreover, the present study is intended to address several concerns from managers and designers involved with urban drainage infrastructure. Therefore, four specific objectives have been identified: (1) Experimental analysis of the dynamics of mixed transient flow with entrapped air pockets, (2) Integration of BMP in SWS and their impact on the occurrence of two-phase transient flows, (3) Development of a proposed method based on the shock-fitting approach for more complex and practical SWS cases, (4) Modifying the governing equations of the transient flow region and (5) Establishment of selective criteria of shock-capturing and shock-fitting techniques. Ultimately, the project aims to develop and offer computational tools (for each of the identified specific objectives) that can be integrated into existing SWS models. The findings of this proposed project (to be included in scientific papers, numerical tools and SWS Guidelines) will have an important impact on the design procedure of future and current sustainable SWS. Engineers require efficient design guidelines to ensure that SWS are adequately designed to guarantee the safety of the public and the environment. Canadian consulting and municipal engineers are aware of the transition phenomenon for sustainable and long lifespan drainage systems' design.

城市排水基础设施的设计者和管理者意识到，当前可用的方法在复杂情况下（快速变化的流量、瞬变流量等）使用时是有限的。因为简化了流动能量和连续性方程的表示。拟议的研究计划的目标是开发一套数值工具，用于计算雨水系统（SWS）的水动力条件，其中最佳管理实践（BMP）可能会被集成。这些工具将考虑所有流动类型，包括瞬态流动、空气的存在、非永久摩擦、同时存在一个以上的加压/减压波、边界条件的复杂性和人孔中的水储存。所提出的数值工具的动态行为，预计将更好地表征瞬态流量在SWS在洪水场景，并将这一新的知识，以目前的水管理洪水和水力设计的新SWS的方法。此外，本研究的目的是解决几个问题的管理人员和设计师参与城市排水基础设施。因此，确定了四个具体目标：（1）对具有截留气穴的混合瞬态流的动力学进行实验分析，（2）在SWS中集成BMP及其对两相瞬态流发生的影响，（3）针对更复杂和实际的SWS情况，开发基于激波拟合方法的建议方法，（4）修正了瞬态流动区的控制方程;（5）建立了激波捕捉和激波拟合技术的选择准则。最终，该项目的目标是开发和提供计算工具（为每个确定的具体目标），可以集成到现有的SWS模型。该项目的研究结果（将纳入科学论文、数值工具和SWS指南）将对未来和当前可持续SWS的设计程序产生重要影响。工程师需要有效的设计指南，以确保SWS的设计充分保证公众和环境的安全。加拿大咨询和市政工程师意识到可持续和长寿命排水系统设计的过渡现象。