Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan
Autor(a) principal: | |
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Data de Publicação: | 2020 |
Outros Autores: | , , , |
Tipo de documento: | Artigo |
Idioma: | eng |
Título da fonte: | Revista Metropolitana de Sustentabilidade |
Texto Completo: | https://revistaseletronicas.fmu.br/index.php/rms/article/view/2268 |
Resumo: | In recent years, the effects of land use change are considered as one of the most important concerns in water management of basins. Kashafrood basin in Mashhad, for various reasons, has been affected by land use change, urban development and agricultural water resources development. Thus, doing a research using a model with a physical and distributive basis is needed to evaluate the effect of land use changes on hydrological components. The area under study is located in Razavi Khorasan province, Mashhad, and includes part of Kashafrood path between Parkand Abad refinery and Olang refinery located at a longitude of "Ž"Ž59° 33' to 59° 50' E and a latitude of 36° 15' to 36° 24' N. GIS technology and digital software have been used to increase the accuracy of data in conducting the studies so that physiographic parameters were analyzed and estimated using digital layers with 1:250000 precision in ArcGIS and ArcView software. Between Parkand Abad refinery and the end of the studied area, the lands around the river are of particular value due to favorable conditions for agriculture and harvesting of patch products"Ž and for this reason, clear transgressions to the riverbed and river bound are evident. The results revealed that the average depth of the terraces formed on the left and right banks of the river is between 2 and 5 meters and erosion effects are visible at more than 50% of the path length. The maximum erosion length is related to the class with a wall depth of 2 to 5 meters on both right and left banks. Further, on the severity of the erosion, the class related to a length of more than 50% of the path on both banks has the highest amount of erosion. Based on the hydraulic results obtained in most cross sections, a 25-year discharge crosses the riverbed and enters the river bound. Hence, with regard to the changing of uses in the area around the river to agricultural and residential uses in the river bound, the necessary measures should be taken into account in this field. Accordingly, one of the practical cases is the dredging and improvement of the path and another solution is the construction of a rock, mortar or gabion wall on the left and right banks. The results of calculating the river dimensions in the final equilibrium state and movement threshold conditions at all stable sections of the studied river showed that in 71% of cross sections, the situation is unstable and in the remaining 29%, the situation is stable. The highest values of shear stress and shear velocity in unstable sections are 815.41 N/m2 and 6.21 m/s, respectively. On the contrary, the highest values of shear stress and shear velocity parameters in stable sections are 516.7 N/m2 and 4.92 m/s, respectively. The sensitivity analysis results demonstrated that the greatest sensitivity to the roughness coefficient changes is related to the parameters of flow area and upper surface width. |
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Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement planKashafrooduse changeshydraulicsimprovement.In recent years, the effects of land use change are considered as one of the most important concerns in water management of basins. Kashafrood basin in Mashhad, for various reasons, has been affected by land use change, urban development and agricultural water resources development. Thus, doing a research using a model with a physical and distributive basis is needed to evaluate the effect of land use changes on hydrological components. The area under study is located in Razavi Khorasan province, Mashhad, and includes part of Kashafrood path between Parkand Abad refinery and Olang refinery located at a longitude of "Ž"Ž59° 33' to 59° 50' E and a latitude of 36° 15' to 36° 24' N. GIS technology and digital software have been used to increase the accuracy of data in conducting the studies so that physiographic parameters were analyzed and estimated using digital layers with 1:250000 precision in ArcGIS and ArcView software. Between Parkand Abad refinery and the end of the studied area, the lands around the river are of particular value due to favorable conditions for agriculture and harvesting of patch products"Ž and for this reason, clear transgressions to the riverbed and river bound are evident. The results revealed that the average depth of the terraces formed on the left and right banks of the river is between 2 and 5 meters and erosion effects are visible at more than 50% of the path length. The maximum erosion length is related to the class with a wall depth of 2 to 5 meters on both right and left banks. Further, on the severity of the erosion, the class related to a length of more than 50% of the path on both banks has the highest amount of erosion. Based on the hydraulic results obtained in most cross sections, a 25-year discharge crosses the riverbed and enters the river bound. Hence, with regard to the changing of uses in the area around the river to agricultural and residential uses in the river bound, the necessary measures should be taken into account in this field. Accordingly, one of the practical cases is the dredging and improvement of the path and another solution is the construction of a rock, mortar or gabion wall on the left and right banks. The results of calculating the river dimensions in the final equilibrium state and movement threshold conditions at all stable sections of the studied river showed that in 71% of cross sections, the situation is unstable and in the remaining 29%, the situation is stable. The highest values of shear stress and shear velocity in unstable sections are 815.41 N/m2 and 6.21 m/s, respectively. On the contrary, the highest values of shear stress and shear velocity parameters in stable sections are 516.7 N/m2 and 4.92 m/s, respectively. The sensitivity analysis results demonstrated that the greatest sensitivity to the roughness coefficient changes is related to the parameters of flow area and upper surface width.COMPLEXO EDUCACIONAL FMU2020-12-02info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://revistaseletronicas.fmu.br/index.php/rms/article/view/2268Revista Metropolitana de Sustentabilidade (ISSN 2318-3233); v. 10 n. 3 (2020): (Set./Dez. 2020); 5-282318-3233reponame:Revista Metropolitana de Sustentabilidadeinstname:Faculdades Metropolitanas Unidas (FMU)instacron:FMUenghttps://revistaseletronicas.fmu.br/index.php/rms/article/view/2268/pdfCopyright (c) 2020 Revista Metropolitana de Sustentabilidade (ISSN 2318-3233)info:eu-repo/semantics/openAccessNazarjani, MohammadSaremi, AliEslami, Ali RezaYazdani, VahidSedqi, Hosein2020-12-28T14:18:25Zoai:ojs.fmu.br:article/2268Revistahttps://revistaseletronicas.fmu.br/index.php/rms/indexPRIhttps://revistaseletronicas.fmu.br/index.php/rms/oaicelso.sustentabilidade@gmail.com||editor.sustentabilidade@gmail.com|| suporte.revista@gmail.com2318-32332318-3233opendoar:2020-12-28T14:18:25Revista Metropolitana de Sustentabilidade - Faculdades Metropolitanas Unidas (FMU)false |
dc.title.none.fl_str_mv |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
title |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
spellingShingle |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan Nazarjani, Mohammad Kashafrood use changes hydraulics improvement. |
title_short |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
title_full |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
title_fullStr |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
title_full_unstemmed |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
title_sort |
Detecting the impact of land use changes on flow hydraulics in Kashafrood and presenting an improvement plan |
author |
Nazarjani, Mohammad |
author_facet |
Nazarjani, Mohammad Saremi, Ali Eslami, Ali Reza Yazdani, Vahid Sedqi, Hosein |
author_role |
author |
author2 |
Saremi, Ali Eslami, Ali Reza Yazdani, Vahid Sedqi, Hosein |
author2_role |
author author author author |
dc.contributor.author.fl_str_mv |
Nazarjani, Mohammad Saremi, Ali Eslami, Ali Reza Yazdani, Vahid Sedqi, Hosein |
dc.subject.por.fl_str_mv |
Kashafrood use changes hydraulics improvement. |
topic |
Kashafrood use changes hydraulics improvement. |
description |
In recent years, the effects of land use change are considered as one of the most important concerns in water management of basins. Kashafrood basin in Mashhad, for various reasons, has been affected by land use change, urban development and agricultural water resources development. Thus, doing a research using a model with a physical and distributive basis is needed to evaluate the effect of land use changes on hydrological components. The area under study is located in Razavi Khorasan province, Mashhad, and includes part of Kashafrood path between Parkand Abad refinery and Olang refinery located at a longitude of "Ž"Ž59° 33' to 59° 50' E and a latitude of 36° 15' to 36° 24' N. GIS technology and digital software have been used to increase the accuracy of data in conducting the studies so that physiographic parameters were analyzed and estimated using digital layers with 1:250000 precision in ArcGIS and ArcView software. Between Parkand Abad refinery and the end of the studied area, the lands around the river are of particular value due to favorable conditions for agriculture and harvesting of patch products"Ž and for this reason, clear transgressions to the riverbed and river bound are evident. The results revealed that the average depth of the terraces formed on the left and right banks of the river is between 2 and 5 meters and erosion effects are visible at more than 50% of the path length. The maximum erosion length is related to the class with a wall depth of 2 to 5 meters on both right and left banks. Further, on the severity of the erosion, the class related to a length of more than 50% of the path on both banks has the highest amount of erosion. Based on the hydraulic results obtained in most cross sections, a 25-year discharge crosses the riverbed and enters the river bound. Hence, with regard to the changing of uses in the area around the river to agricultural and residential uses in the river bound, the necessary measures should be taken into account in this field. Accordingly, one of the practical cases is the dredging and improvement of the path and another solution is the construction of a rock, mortar or gabion wall on the left and right banks. The results of calculating the river dimensions in the final equilibrium state and movement threshold conditions at all stable sections of the studied river showed that in 71% of cross sections, the situation is unstable and in the remaining 29%, the situation is stable. The highest values of shear stress and shear velocity in unstable sections are 815.41 N/m2 and 6.21 m/s, respectively. On the contrary, the highest values of shear stress and shear velocity parameters in stable sections are 516.7 N/m2 and 4.92 m/s, respectively. The sensitivity analysis results demonstrated that the greatest sensitivity to the roughness coefficient changes is related to the parameters of flow area and upper surface width. |
publishDate |
2020 |
dc.date.none.fl_str_mv |
2020-12-02 |
dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
format |
article |
status_str |
publishedVersion |
dc.identifier.uri.fl_str_mv |
https://revistaseletronicas.fmu.br/index.php/rms/article/view/2268 |
url |
https://revistaseletronicas.fmu.br/index.php/rms/article/view/2268 |
dc.language.iso.fl_str_mv |
eng |
language |
eng |
dc.relation.none.fl_str_mv |
https://revistaseletronicas.fmu.br/index.php/rms/article/view/2268/pdf |
dc.rights.driver.fl_str_mv |
Copyright (c) 2020 Revista Metropolitana de Sustentabilidade (ISSN 2318-3233) info:eu-repo/semantics/openAccess |
rights_invalid_str_mv |
Copyright (c) 2020 Revista Metropolitana de Sustentabilidade (ISSN 2318-3233) |
eu_rights_str_mv |
openAccess |
dc.format.none.fl_str_mv |
application/pdf |
dc.publisher.none.fl_str_mv |
COMPLEXO EDUCACIONAL FMU |
publisher.none.fl_str_mv |
COMPLEXO EDUCACIONAL FMU |
dc.source.none.fl_str_mv |
Revista Metropolitana de Sustentabilidade (ISSN 2318-3233); v. 10 n. 3 (2020): (Set./Dez. 2020); 5-28 2318-3233 reponame:Revista Metropolitana de Sustentabilidade instname:Faculdades Metropolitanas Unidas (FMU) instacron:FMU |
instname_str |
Faculdades Metropolitanas Unidas (FMU) |
instacron_str |
FMU |
institution |
FMU |
reponame_str |
Revista Metropolitana de Sustentabilidade |
collection |
Revista Metropolitana de Sustentabilidade |
repository.name.fl_str_mv |
Revista Metropolitana de Sustentabilidade - Faculdades Metropolitanas Unidas (FMU) |
repository.mail.fl_str_mv |
celso.sustentabilidade@gmail.com||editor.sustentabilidade@gmail.com|| suporte.revista@gmail.com |
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1798945136364748800 |