SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313200191> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4313200191 endingPage "128895" @default.
W4313200191 startingPage "128895" @default.
W4313200191 abstract "Bioretention cell (BC) design variation significantly changes its hydrological dynamics at unit-scale leading to major changes in its target design goals when designed unit replicated at the catchment-scale. Improved understanding of the behaviors of BC design parameters under different rainfall conditions is critical for effective implementation of BCs to achieve design goals. This paper illustrates and compares two global sensitivity analysis methods (i.e., VARS and Sobol) for the identification of influential parameters and their variations in hydrological dynamics (model responses) under different rainfall conditions and perturbation scales, so as to quantify their uncertainty and reliability for influential factors ranking. From the application results of both sensitivity analysis methods, six parameters out of the total seventeen including conductivity, berm height, vegetation volume, suction head, porosity and wilting point were indicated for their significant sensitivities to surface infiltration, surface outflow and peak flow. In addition, soil thickness, conductivity slope and field capacity (in a total of nine) were categorized as influential to storage outputs. Conductivity and vegetation volume were ranked as the most influential parameters, followed by berm height and suction head, porosity and wilting point. The results analysis also demonstrated that the behavior of design parameters towards model response significantly changes with different rainfall conditions and perturbation scales, as well as the used sensitivity analysis methods. In particular, it is indicated from this study that the VARS is preferred over other sensitivity analysis approaches including the Sobol method (i.e., variance-based method) because of its higher accuracy, reliability, and computational efficiency." @default.
W4313200191 created "2023-01-06" @default.
W4313200191 creator A5002491288 @default.
W4313200191 creator A5045911542 @default.
W4313200191 creator A5091547126 @default.
W4313200191 date "2023-02-01" @default.
W4313200191 modified "2023-09-29" @default.
W4313200191 title "Global sensitivity analysis of bioretention cell design for stormwater system: A comparison of VARS framework and Sobol method" @default.
W4313200191 cites W1552117913 @default.
W4313200191 cites W1579788486 @default.
W4313200191 cites W1995711095 @default.
W4313200191 cites W2018803938 @default.
W4313200191 cites W2059746554 @default.
W4313200191 cites W2062075925 @default.
W4313200191 cites W2078884786 @default.
W4313200191 cites W2082223452 @default.
W4313200191 cites W2087550141 @default.
W4313200191 cites W2088765131 @default.
W4313200191 cites W2092411843 @default.
W4313200191 cites W2127258449 @default.
W4313200191 cites W2169616177 @default.
W4313200191 cites W2190709166 @default.
W4313200191 cites W2201021860 @default.
W4313200191 cites W2209897355 @default.
W4313200191 cites W2221870291 @default.
W4313200191 cites W2281688632 @default.
W4313200191 cites W2497559864 @default.
W4313200191 cites W2499282212 @default.
W4313200191 cites W2569172958 @default.
W4313200191 cites W2600867386 @default.
W4313200191 cites W2620275749 @default.
W4313200191 cites W2633902872 @default.
W4313200191 cites W2746724255 @default.
W4313200191 cites W2754548854 @default.
W4313200191 cites W2772112019 @default.
W4313200191 cites W2792939165 @default.
W4313200191 cites W2794230248 @default.
W4313200191 cites W2809109450 @default.
W4313200191 cites W2884338831 @default.
W4313200191 cites W2887802255 @default.
W4313200191 cites W2889621967 @default.
W4313200191 cites W2890850836 @default.
W4313200191 cites W2898336091 @default.
W4313200191 cites W2901184078 @default.
W4313200191 cites W2903672002 @default.
W4313200191 cites W2904251429 @default.
W4313200191 cites W2933406608 @default.
W4313200191 cites W2936344947 @default.
W4313200191 cites W2945946023 @default.
W4313200191 cites W2970710509 @default.
W4313200191 cites W2985871023 @default.
W4313200191 cites W2994171263 @default.
W4313200191 cites W3001839191 @default.
W4313200191 cites W3002484536 @default.
W4313200191 cites W3009332406 @default.
W4313200191 cites W3014242252 @default.
W4313200191 cites W3027384169 @default.
W4313200191 cites W3047617726 @default.
W4313200191 cites W3048985574 @default.
W4313200191 cites W3134408965 @default.
W4313200191 cites W3148357926 @default.
W4313200191 cites W3150115860 @default.
W4313200191 cites W3164738563 @default.
W4313200191 cites W3168282580 @default.
W4313200191 cites W3175828771 @default.
W4313200191 cites W3186225731 @default.
W4313200191 cites W4205148845 @default.
W4313200191 cites W4220859256 @default.
W4313200191 cites W4223904618 @default.
W4313200191 cites W4241793634 @default.
W4313200191 cites W4244777963 @default.
W4313200191 cites W999207820 @default.
W4313200191 doi "https://doi.org/10.1016/j.jhydrol.2022.128895" @default.
W4313200191 hasPublicationYear "2023" @default.
W4313200191 type Work @default.
W4313200191 citedByCount "4" @default.
W4313200191 countsByYear W43132001912023 @default.
W4313200191 crossrefType "journal-article" @default.
W4313200191 hasAuthorship W4313200191A5002491288 @default.
W4313200191 hasAuthorship W4313200191A5045911542 @default.
W4313200191 hasAuthorship W4313200191A5091547126 @default.
W4313200191 hasConcept C105795698 @default.
W4313200191 hasConcept C127313418 @default.
W4313200191 hasConcept C127413603 @default.
W4313200191 hasConcept C144144481 @default.
W4313200191 hasConcept C159390177 @default.
W4313200191 hasConcept C159750122 @default.
W4313200191 hasConcept C173051318 @default.
W4313200191 hasConcept C187320778 @default.
W4313200191 hasConcept C18903297 @default.
W4313200191 hasConcept C19499675 @default.
W4313200191 hasConcept C21200559 @default.
W4313200191 hasConcept C24326235 @default.
W4313200191 hasConcept C2778396350 @default.
W4313200191 hasConcept C27934549 @default.
W4313200191 hasConcept C33923547 @default.
W4313200191 hasConcept C39432304 @default.
W4313200191 hasConcept C49740808 @default.