Effects of sediment load on hydraulics of overland flow on steep slopes
Eroded sediment may have significant effects on the hydraulics of overland flow, but few studies have been performed to quantify these effects on steep slopes. This study investigated the potential effects of sediment load on Reynolds number, Froude number, flow depth, mean velocity, Darcy–Weisbach...
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| Veröffentlicht in: | Earth surface processes and landforms 2010-12, Vol.35 (15), p.1811-1819 |
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| creator | Zhang, Guang-hui Shen, Rui-chang Luo, Rong-ting Cao, Ying Zhang, XC |
| description | Eroded sediment may have significant effects on the hydraulics of overland flow, but few studies have been performed to quantify these effects on steep slopes. This study investigated the potential effects of sediment load on Reynolds number, Froude number, flow depth, mean velocity, Darcy–Weisbach friction coefficient, shear stress, stream power, and unit stream power of overland flow in a sand‐glued hydraulic flume under a wide range of hydraulic conditions and sediment loads. Slope gradients were varied from 8·7 to 34·2%, unit flow rates from 0·66 to 5·26×10−3 m2 s−1, and sediment loads from 0 to 6·95 kg m−1 s−1. Both Reynolds number (Re) and Froude number (Fr) decreased as sediment load increased, implying a decrease in flow turbulence. This inverse relationship should be considered in modeling soil erosion processes. Flow depth increased as sediment load increased with a mean value of 1·227 mm, caused by an increase in volume of sediment‐laden flow (contribution 62·4%) and a decrease in mean flow velocity (contribution 37·6%). The mean flow velocity decreased by up to 0·071 m s−1 as sediment load increased. The Darcy–Weisbach friction coefficient (f) increased with sediment load, showing that the total energy consumption increased with sediment load. The effects of sediment load on f depended on flow discharge: as flow discharge increased, the influence of sediment load on f decreased due to increased flow depth and reduced relative roughness. Flow shear stress and stream power increased with sediment load, on average, by 80·5% and 60·2%, respectively; however, unit stream power decreased by an average of 11·1% as sediment load increased. Further studies are needed to extend and apply the insights obtained under these controlled conditions to real‐world overland flow conditions. Copyright © 2010 John Wiley & Sons, Ltd. |
| doi_str_mv | 10.1002/esp.2019 |
| format | Article |
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This study investigated the potential effects of sediment load on Reynolds number, Froude number, flow depth, mean velocity, Darcy–Weisbach friction coefficient, shear stress, stream power, and unit stream power of overland flow in a sand‐glued hydraulic flume under a wide range of hydraulic conditions and sediment loads. Slope gradients were varied from 8·7 to 34·2%, unit flow rates from 0·66 to 5·26×10−3 m2 s−1, and sediment loads from 0 to 6·95 kg m−1 s−1. Both Reynolds number (Re) and Froude number (Fr) decreased as sediment load increased, implying a decrease in flow turbulence. This inverse relationship should be considered in modeling soil erosion processes. Flow depth increased as sediment load increased with a mean value of 1·227 mm, caused by an increase in volume of sediment‐laden flow (contribution 62·4%) and a decrease in mean flow velocity (contribution 37·6%). The mean flow velocity decreased by up to 0·071 m s−1 as sediment load increased. The Darcy–Weisbach friction coefficient (f) increased with sediment load, showing that the total energy consumption increased with sediment load. The effects of sediment load on f depended on flow discharge: as flow discharge increased, the influence of sediment load on f decreased due to increased flow depth and reduced relative roughness. Flow shear stress and stream power increased with sediment load, on average, by 80·5% and 60·2%, respectively; however, unit stream power decreased by an average of 11·1% as sediment load increased. Further studies are needed to extend and apply the insights obtained under these controlled conditions to real‐world overland flow conditions. Copyright © 2010 John Wiley & Sons, Ltd.</description><identifier>ISSN: 0197-9337</identifier><identifier>ISSN: 1096-9837</identifier><identifier>EISSN: 1096-9837</identifier><identifier>DOI: 10.1002/esp.2019</identifier><identifier>CODEN: ESPLDB</identifier><language>eng</language><publisher>Chichester, UK: John Wiley & Sons, Ltd</publisher><subject>Bgi / Prodig ; Computational fluid dynamics ; Fluid flow ; Freshwater ; Friction ; Hydraulics ; hydraulics of overland flow ; Hydrology ; Hydrometeorology ; Physical geography ; sediment load ; Sediments ; soil erosion ; steep slopes ; Streams ; Turbulence ; Turbulent flow</subject><ispartof>Earth surface processes and landforms, 2010-12, Vol.35 (15), p.1811-1819</ispartof><rights>Copyright © 2010 John Wiley & Sons, Ltd.</rights><rights>Tous droits réservés © Prodig - Bibliographie Géographique Internationale (BGI), 2011</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a4219-a0a87b4f0362b9fec6c99f790d1248c18f9436d1ae77e88c9ca1aad645a78a2a3</citedby><cites>FETCH-LOGICAL-a4219-a0a87b4f0362b9fec6c99f790d1248c18f9436d1ae77e88c9ca1aad645a78a2a3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://onlinelibrary.wiley.com/doi/pdf/10.1002%2Fesp.2019$$EPDF$$P50$$Gwiley$$H</linktopdf><linktohtml>$$Uhttps://onlinelibrary.wiley.com/doi/full/10.1002%2Fesp.2019$$EHTML$$P50$$Gwiley$$H</linktohtml><link.rule.ids>314,780,784,1417,27924,27925,45574,45575</link.rule.ids><backlink>$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=24247409$$DView record in Pascal Francis$$Hfree_for_read</backlink></links><search><creatorcontrib>Zhang, Guang-hui</creatorcontrib><creatorcontrib>Shen, Rui-chang</creatorcontrib><creatorcontrib>Luo, Rong-ting</creatorcontrib><creatorcontrib>Cao, Ying</creatorcontrib><creatorcontrib>Zhang, XC</creatorcontrib><title>Effects of sediment load on hydraulics of overland flow on steep slopes</title><title>Earth surface processes and landforms</title><addtitle>Earth Surf. Process. Landforms</addtitle><description>Eroded sediment may have significant effects on the hydraulics of overland flow, but few studies have been performed to quantify these effects on steep slopes. This study investigated the potential effects of sediment load on Reynolds number, Froude number, flow depth, mean velocity, Darcy–Weisbach friction coefficient, shear stress, stream power, and unit stream power of overland flow in a sand‐glued hydraulic flume under a wide range of hydraulic conditions and sediment loads. Slope gradients were varied from 8·7 to 34·2%, unit flow rates from 0·66 to 5·26×10−3 m2 s−1, and sediment loads from 0 to 6·95 kg m−1 s−1. Both Reynolds number (Re) and Froude number (Fr) decreased as sediment load increased, implying a decrease in flow turbulence. This inverse relationship should be considered in modeling soil erosion processes. Flow depth increased as sediment load increased with a mean value of 1·227 mm, caused by an increase in volume of sediment‐laden flow (contribution 62·4%) and a decrease in mean flow velocity (contribution 37·6%). The mean flow velocity decreased by up to 0·071 m s−1 as sediment load increased. The Darcy–Weisbach friction coefficient (f) increased with sediment load, showing that the total energy consumption increased with sediment load. The effects of sediment load on f depended on flow discharge: as flow discharge increased, the influence of sediment load on f decreased due to increased flow depth and reduced relative roughness. Flow shear stress and stream power increased with sediment load, on average, by 80·5% and 60·2%, respectively; however, unit stream power decreased by an average of 11·1% as sediment load increased. Further studies are needed to extend and apply the insights obtained under these controlled conditions to real‐world overland flow conditions. Copyright © 2010 John Wiley & Sons, Ltd.</description><subject>Bgi / Prodig</subject><subject>Computational fluid dynamics</subject><subject>Fluid flow</subject><subject>Freshwater</subject><subject>Friction</subject><subject>Hydraulics</subject><subject>hydraulics of overland flow</subject><subject>Hydrology</subject><subject>Hydrometeorology</subject><subject>Physical geography</subject><subject>sediment load</subject><subject>Sediments</subject><subject>soil erosion</subject><subject>steep slopes</subject><subject>Streams</subject><subject>Turbulence</subject><subject>Turbulent flow</subject><issn>0197-9337</issn><issn>1096-9837</issn><issn>1096-9837</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><recordid>eNp9kMtKAzEUhoMoWKvgI8xGdDM1t06SpZdaRVHxguAmHDMJjqbNmLTWvr0zttSVrg6c_-M_hw-hXYJ7BGN6aFPdo5ioNdQhWBW5kkyso06zEbliTGyirZTeMCaES9VBw4Fz1kxSFlyWbFmN7HiS-QBlFsbZ67yMMPWV-YnDp40exmXmfJi1cZpYW2fJh9qmbbThwCe7s5xd9Hg2eDg5z69uhhcnR1c5cEpUDhikeOEOs4K-qOZyYZRyQuGSUC4NkU5xVpQErBBWSqMMEICy4H0QEiiwLtpf9NYxfExtmuhRlYz1zWM2TJOWqqAYMy4b8uBfkgghWgmy_4uaGFKK1uk6ViOIc02wbq3qxqpurTbo3rIVkgHvIoxNlVY85ZQLjlsuX3Czytv5n316cH-77F3yVWP1a8VDfNeFYKKvn66H-pk8HMvL-zt9yr4B-WaUEQ</recordid><startdate>201012</startdate><enddate>201012</enddate><creator>Zhang, Guang-hui</creator><creator>Shen, Rui-chang</creator><creator>Luo, Rong-ting</creator><creator>Cao, Ying</creator><creator>Zhang, XC</creator><general>John Wiley & Sons, Ltd</general><general>Wiley</general><scope>BSCLL</scope><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SU</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>KR7</scope><scope>7QH</scope><scope>7UA</scope><scope>F1W</scope><scope>H96</scope><scope>L.G</scope></search><sort><creationdate>201012</creationdate><title>Effects of sediment load on hydraulics of overland flow on steep slopes</title><author>Zhang, Guang-hui ; Shen, Rui-chang ; Luo, Rong-ting ; Cao, Ying ; Zhang, XC</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a4219-a0a87b4f0362b9fec6c99f790d1248c18f9436d1ae77e88c9ca1aad645a78a2a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2010</creationdate><topic>Bgi / Prodig</topic><topic>Computational fluid dynamics</topic><topic>Fluid flow</topic><topic>Freshwater</topic><topic>Friction</topic><topic>Hydraulics</topic><topic>hydraulics of overland flow</topic><topic>Hydrology</topic><topic>Hydrometeorology</topic><topic>Physical geography</topic><topic>sediment load</topic><topic>Sediments</topic><topic>soil erosion</topic><topic>steep slopes</topic><topic>Streams</topic><topic>Turbulence</topic><topic>Turbulent flow</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zhang, Guang-hui</creatorcontrib><creatorcontrib>Shen, Rui-chang</creatorcontrib><creatorcontrib>Luo, Rong-ting</creatorcontrib><creatorcontrib>Cao, Ying</creatorcontrib><creatorcontrib>Zhang, XC</creatorcontrib><collection>Istex</collection><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Environmental Engineering Abstracts</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>Civil Engineering Abstracts</collection><collection>Aqualine</collection><collection>Water Resources Abstracts</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 2: Ocean Technology, Policy & Non-Living Resources</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><jtitle>Earth surface processes and landforms</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zhang, Guang-hui</au><au>Shen, Rui-chang</au><au>Luo, Rong-ting</au><au>Cao, Ying</au><au>Zhang, XC</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effects of sediment load on hydraulics of overland flow on steep slopes</atitle><jtitle>Earth surface processes and landforms</jtitle><addtitle>Earth Surf. Process. Landforms</addtitle><date>2010-12</date><risdate>2010</risdate><volume>35</volume><issue>15</issue><spage>1811</spage><epage>1819</epage><pages>1811-1819</pages><issn>0197-9337</issn><issn>1096-9837</issn><eissn>1096-9837</eissn><coden>ESPLDB</coden><abstract>Eroded sediment may have significant effects on the hydraulics of overland flow, but few studies have been performed to quantify these effects on steep slopes. This study investigated the potential effects of sediment load on Reynolds number, Froude number, flow depth, mean velocity, Darcy–Weisbach friction coefficient, shear stress, stream power, and unit stream power of overland flow in a sand‐glued hydraulic flume under a wide range of hydraulic conditions and sediment loads. Slope gradients were varied from 8·7 to 34·2%, unit flow rates from 0·66 to 5·26×10−3 m2 s−1, and sediment loads from 0 to 6·95 kg m−1 s−1. Both Reynolds number (Re) and Froude number (Fr) decreased as sediment load increased, implying a decrease in flow turbulence. This inverse relationship should be considered in modeling soil erosion processes. Flow depth increased as sediment load increased with a mean value of 1·227 mm, caused by an increase in volume of sediment‐laden flow (contribution 62·4%) and a decrease in mean flow velocity (contribution 37·6%). The mean flow velocity decreased by up to 0·071 m s−1 as sediment load increased. The Darcy–Weisbach friction coefficient (f) increased with sediment load, showing that the total energy consumption increased with sediment load. The effects of sediment load on f depended on flow discharge: as flow discharge increased, the influence of sediment load on f decreased due to increased flow depth and reduced relative roughness. Flow shear stress and stream power increased with sediment load, on average, by 80·5% and 60·2%, respectively; however, unit stream power decreased by an average of 11·1% as sediment load increased. Further studies are needed to extend and apply the insights obtained under these controlled conditions to real‐world overland flow conditions. Copyright © 2010 John Wiley & Sons, Ltd.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><doi>10.1002/esp.2019</doi><tpages>9</tpages></addata></record> |
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| subjects | Bgi / Prodig Computational fluid dynamics Fluid flow Freshwater Friction Hydraulics hydraulics of overland flow Hydrology Hydrometeorology Physical geography sediment load Sediments soil erosion steep slopes Streams Turbulence Turbulent flow |
| title | Effects of sediment load on hydraulics of overland flow on steep slopes |
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