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Gao, Qiwen; Feng, Jiangang; Xu, Hui; Zhang, Rui (2025) Study on Optimization of Structure of Porous Lateral Flow Storage Tank. Applied Sciences, 15 (19). doi:10.3390/app151910536

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Reference TypeJournal (article/letter/editorial)
TitleStudy on Optimization of Structure of Porous Lateral Flow Storage Tank
JournalApplied Sciences
AuthorsGao, QiwenAuthor
Feng, JiangangAuthor
Xu, HuiAuthor
Zhang, RuiAuthor
Year2025 (September 29)Volume15
Issue19
PublisherMDPI AG
DOIdoi:10.3390/app151910536Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID19004546Long-form Identifiermindat:1:5:19004546:5
GUID0
Full ReferenceGao, Qiwen; Feng, Jiangang; Xu, Hui; Zhang, Rui (2025) Study on Optimization of Structure of Porous Lateral Flow Storage Tank. Applied Sciences, 15 (19). doi:10.3390/app151910536
Plain TextGao, Qiwen; Feng, Jiangang; Xu, Hui; Zhang, Rui (2025) Study on Optimization of Structure of Porous Lateral Flow Storage Tank. Applied Sciences, 15 (19). doi:10.3390/app151910536
In(2025, September) Applied Sciences Vol. 15 (19). MDPI AG

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

Xie (2023) China Water Wastewater Discussion on Application and Development Direction of Storage Tank in Drainage System 39, 37
Tian (2008) Water Wastewater Eng. Design Proposal Discussion for Stormwater Storage Tanks along Suzhou Creek Drainage System 34, 42
Wang (2015) Environ. Pollut. Control Research progress on combined sewer overflow stormwater storage tank for pollution control 37, 85
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Juan (2021) China Water Wastewater Application of Hydraulic Flushing Facilities in Utility Tunnels 37, 101
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Mingming (2019) China Resour. Compr. Util. Design of Sediment-Flushing-Friendly Detention Tank under Sponge City Concept 37, 164
Zhicheng (2021) China Water Wastewater Optimization Study of Novel Combined Sewer Overflow Detention Tank Based on Numerical Simulation 37, 114
Not Yet Imported: - journal-article : 10.3390/su10030745

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Tan, Jun, He, Shiping, Du, Zhenglong (2024) Numerical Simulation Study of Built-In Porous Obstacles to Improve the Thermal Stratification Performance of Storage Tanks. Applied Sciences, 14 (15) 6529 doi:10.3390/app14156529
Juan, C., Weidong, G., Da, S., Riquan, Z., and Bing, Y. (2008). Study on Flow Characteristics in Branch Channel During Bend Confluence, Yangtze River. (In Chinese).
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Liu, H.F. (1990). Study on Free Surface Profile in Bend Flow. J. Hydraul. Eng., 46–50. (In Chinese).
Gao (2011) J. Hydroelectr. Eng. Numerical simulation of flow pattern modification schemes for the forebay and suction sump of pumping station 30, 54
Mi, Z.H., Zhou, D.Q., and Mao, Y.T. (2012, January 19–23). Three-dimensional CFD simulation of solid-liquid two-phase flow in the pumping station forebay with sills. Proceedings of the 26th IAHR Symposium on Hydraulic Machinery and Systems, Beijing, China.
Xia (2018) South--North Water Transf. Water Sci. Technol. Numerical simulation on rectification measure of inverted T-shaped sill at forebay of pump station 16, 146
Ying (2020) J. Drain. Irrig. Mach. Eng. Volume of fluid model-based flow pattern in forebay of pump station and combined rectification scheme 38, 476
Xinjian (2023) Trans. Chin. Soc. Agric. Eng. Effect of Diffusion Angle on Flow Field Structure in Pump Station Frontal Intake Forebay 39, 92
Li (2024) Eng. Appl. Comput. Fluid Mech. Undesired flows in lateral-intake multiple forebays and their hydraulic implications: Case study for Asia’s largest urban water supply pumping station 18, 2380304
Can (2014) J. Drain. Irrig. Mach. Eng. Numerical Simulation of Flow Rectification Mechanism by Bottom Sill in Pump Station Frontal Intake Forebay 32, 393
Not Yet Imported: Energies - journal-article : 10.3390/en9110915

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Not Yet Imported: Flow Measurement and Instrumentation - journal-article : 10.1016/j.flowmeasinst.2019.101617

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Zi (2017) J. Hydraul. Eng. Research on optimization method of pump sump parameters based on response surface model 48, 594
Gao (2019) J. Huazhong Univ. Sci. Technol. (Nat. Sci. Ed.) Multi-objective optimization of side inlet/outlet shape based on response surface model 47, 127
Yakhot, Victor, Orszag, Steven A. (1986) Renormalization group analysis of turbulence. I. Basic theory. Journal of Scientific Computing, 1. 3-51 doi:10.1007/bf01061452
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Not Yet Imported: - journal-article : 10.1016/0045-7930(94)00032-T

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Hirt, C.W, Nichols, B.D (1981) Volume of fluid (VOF) method for the dynamics of free boundaries. Journal of Computational Physics, 39 (1) 201-225 doi:10.1016/0021-9991(81)90145-5
Not Yet Imported: - journal-article : 10.1002/cem.820

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