Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement

ABSTRACT The high urbanization process has caused profound changes in the components of the hydrological cycle, causing various problems such as flooding, rainwater degradation, among others. Low Impact Development (LID) techniques have proven to be a viable and effective alternative to stormwater management, reducing runoff, and increasing the infiltration and evapotranspiration capacity of urban areas. The operation prediction of a compensatory technique, such as permeable pavement, depends on the hydrodynamic properties of the permeable pavement layers and the subsoil properties. The numerical solutions based on the solution of Richards’ equation have been the most used to estimate water transfer processes. The objective of this work was to investigate the influence of hydrodynamic parameters on the hydraulic behavior of a permeable pavement installed in Recife-PE. The effect of 5 hydrodynamical parameters was analyzed for a highly heterogeneous permeable pavement. The Hydrus 1-D model was used to simulate water transfer processes on the permeable pavement. Initially, a sensitivity analysis of the mesh refinement degree was performed to simulate the transfer processes in the permeable pavement. The response surface method was applied to the hydrodynamic parameters to perform the sensitivity analysis. The calculations were carried out for hourly and daily time scales. As a result, it was observed that the spatial discretization had no influence on the scenarios of the flow variable. The use of a daily time resolution reduced the influence of events with higher precipitation intensity, underestimating the generation of runoff. The surface runoff showed higher sensitivity to the parameters of the superficial layer, especially to the saturated hydraulic conductivity. The cumulative infiltration and groundwater recharge showed low sensitivity when the hydrodynamic parameters of the retention curve and the saturated hydraulic conductivity varied. The volume of water stored in the profile showed higher sensitivity to the ‘θs’ and ‘n’ parameter of the subbase layer. The use of meteorological input data with different temporal resolutions for the simulation of the water transfer processes in the permeable pavement section demonstrated that the hydrodynamic parameters have a higher influence than the climatic variables in the daily resolution. The use of meteorological data with hourly temporal resolution demonstrated that runoff was hypothetically controlled by meteorological variables. The mesh and parameter sensitivity analysis can influence researches that seek to understand water transfer processes in a structure as a permeable pavement through the Richards’ equation, generating a lower operating cost and speeding up simulations.

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Main Authors: Costa,Ialy Rayane de Aguiar, Coutinho,Artur Paiva, Montenegro,Suzana Maria Gico Lima, Rabelo,Ana Emília Carvalho de Gusmão da Cunha, Santos Neto,Severino Martins dos, Alves,Edevaldo Miguel, Antonino,Antonio Celso Dantas
Format: Digital revista
Language:English
Published: Associação Brasileira de Recursos Hídricos 2020
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2318-03312020000100242
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spelling oai:scielo:S2318-033120200001002422020-10-20Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavementCosta,Ialy Rayane de AguiarCoutinho,Artur PaivaMontenegro,Suzana Maria Gico LimaRabelo,Ana Emília Carvalho de Gusmão da CunhaSantos Neto,Severino Martins dosAlves,Edevaldo MiguelAntonino,Antonio Celso Dantas LID Richards’ equation Numerical errors Hydrus ABSTRACT The high urbanization process has caused profound changes in the components of the hydrological cycle, causing various problems such as flooding, rainwater degradation, among others. Low Impact Development (LID) techniques have proven to be a viable and effective alternative to stormwater management, reducing runoff, and increasing the infiltration and evapotranspiration capacity of urban areas. The operation prediction of a compensatory technique, such as permeable pavement, depends on the hydrodynamic properties of the permeable pavement layers and the subsoil properties. The numerical solutions based on the solution of Richards’ equation have been the most used to estimate water transfer processes. The objective of this work was to investigate the influence of hydrodynamic parameters on the hydraulic behavior of a permeable pavement installed in Recife-PE. The effect of 5 hydrodynamical parameters was analyzed for a highly heterogeneous permeable pavement. The Hydrus 1-D model was used to simulate water transfer processes on the permeable pavement. Initially, a sensitivity analysis of the mesh refinement degree was performed to simulate the transfer processes in the permeable pavement. The response surface method was applied to the hydrodynamic parameters to perform the sensitivity analysis. The calculations were carried out for hourly and daily time scales. As a result, it was observed that the spatial discretization had no influence on the scenarios of the flow variable. The use of a daily time resolution reduced the influence of events with higher precipitation intensity, underestimating the generation of runoff. The surface runoff showed higher sensitivity to the parameters of the superficial layer, especially to the saturated hydraulic conductivity. The cumulative infiltration and groundwater recharge showed low sensitivity when the hydrodynamic parameters of the retention curve and the saturated hydraulic conductivity varied. The volume of water stored in the profile showed higher sensitivity to the ‘θs’ and ‘n’ parameter of the subbase layer. The use of meteorological input data with different temporal resolutions for the simulation of the water transfer processes in the permeable pavement section demonstrated that the hydrodynamic parameters have a higher influence than the climatic variables in the daily resolution. The use of meteorological data with hourly temporal resolution demonstrated that runoff was hypothetically controlled by meteorological variables. The mesh and parameter sensitivity analysis can influence researches that seek to understand water transfer processes in a structure as a permeable pavement through the Richards’ equation, generating a lower operating cost and speeding up simulations.info:eu-repo/semantics/openAccessAssociação Brasileira de Recursos HídricosRBRH v.25 20202020-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S2318-03312020000100242en10.1590/2318-0331.252020190188
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countrycode BR
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databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Costa,Ialy Rayane de Aguiar
Coutinho,Artur Paiva
Montenegro,Suzana Maria Gico Lima
Rabelo,Ana Emília Carvalho de Gusmão da Cunha
Santos Neto,Severino Martins dos
Alves,Edevaldo Miguel
Antonino,Antonio Celso Dantas
spellingShingle Costa,Ialy Rayane de Aguiar
Coutinho,Artur Paiva
Montenegro,Suzana Maria Gico Lima
Rabelo,Ana Emília Carvalho de Gusmão da Cunha
Santos Neto,Severino Martins dos
Alves,Edevaldo Miguel
Antonino,Antonio Celso Dantas
Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
author_facet Costa,Ialy Rayane de Aguiar
Coutinho,Artur Paiva
Montenegro,Suzana Maria Gico Lima
Rabelo,Ana Emília Carvalho de Gusmão da Cunha
Santos Neto,Severino Martins dos
Alves,Edevaldo Miguel
Antonino,Antonio Celso Dantas
author_sort Costa,Ialy Rayane de Aguiar
title Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
title_short Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
title_full Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
title_fullStr Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
title_full_unstemmed Sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
title_sort sensitivity of hydrodynamic parameters in the simulation of water transfer processes in a permeable pavement
description ABSTRACT The high urbanization process has caused profound changes in the components of the hydrological cycle, causing various problems such as flooding, rainwater degradation, among others. Low Impact Development (LID) techniques have proven to be a viable and effective alternative to stormwater management, reducing runoff, and increasing the infiltration and evapotranspiration capacity of urban areas. The operation prediction of a compensatory technique, such as permeable pavement, depends on the hydrodynamic properties of the permeable pavement layers and the subsoil properties. The numerical solutions based on the solution of Richards’ equation have been the most used to estimate water transfer processes. The objective of this work was to investigate the influence of hydrodynamic parameters on the hydraulic behavior of a permeable pavement installed in Recife-PE. The effect of 5 hydrodynamical parameters was analyzed for a highly heterogeneous permeable pavement. The Hydrus 1-D model was used to simulate water transfer processes on the permeable pavement. Initially, a sensitivity analysis of the mesh refinement degree was performed to simulate the transfer processes in the permeable pavement. The response surface method was applied to the hydrodynamic parameters to perform the sensitivity analysis. The calculations were carried out for hourly and daily time scales. As a result, it was observed that the spatial discretization had no influence on the scenarios of the flow variable. The use of a daily time resolution reduced the influence of events with higher precipitation intensity, underestimating the generation of runoff. The surface runoff showed higher sensitivity to the parameters of the superficial layer, especially to the saturated hydraulic conductivity. The cumulative infiltration and groundwater recharge showed low sensitivity when the hydrodynamic parameters of the retention curve and the saturated hydraulic conductivity varied. The volume of water stored in the profile showed higher sensitivity to the ‘θs’ and ‘n’ parameter of the subbase layer. The use of meteorological input data with different temporal resolutions for the simulation of the water transfer processes in the permeable pavement section demonstrated that the hydrodynamic parameters have a higher influence than the climatic variables in the daily resolution. The use of meteorological data with hourly temporal resolution demonstrated that runoff was hypothetically controlled by meteorological variables. The mesh and parameter sensitivity analysis can influence researches that seek to understand water transfer processes in a structure as a permeable pavement through the Richards’ equation, generating a lower operating cost and speeding up simulations.
publisher Associação Brasileira de Recursos Hídricos
publishDate 2020
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S2318-03312020000100242
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