Sediment Barriers’ Performance in the Laboratory: Evaluation of Clogging and Filtration Characteristics in Geotextiles Subjected to Discharge Cycles-Reference-Cited by-同舟云学术

Sediment Barriers’ Performance in the Laboratory: Evaluation of Clogging and Filtration Characteristics in Geotextiles Subjected to Discharge Cycles

Published:2023-12-27 Issue:1 Volume:16 Page:107
ISSN:2073-4441
Container-title:Water
language:en
Short-container-title:Water

Author:

Adachi Vitor Yudi Góes¹,Rodríguez Joan Steven Flores¹,Motta Mariana Ferreira Benessiuti¹^ORCID,Pedroso Gabriel Orquizas Mattielo¹^ORCID,Hein Luis Rogerio de Oliveira²,Félix Emerson Felipe¹^ORCID

Affiliation:

1. Department of Civil Engineering, Faculty of Engineering and Sciences, São Paulo State University, Guaratinguetá 12516-410, Brazil

2. Department of Materials and Technology, Faculty of Engineering and Sciences, São Paulo State University, Guaratinguetá 12516-410, Brazil

Abstract

This research aims to assess the clogging process of geotextiles within silt fences. For that purpose, the filtering efficiency, flow rate, and clogging of three geotextiles (GTX-1, GTX-2, and GTX-3) employing two distinct soils and under three sediment discharge cycles were investigated. The analysis adhered to the American standard D5141-11 and, as further analyses, qualitative and quantitative inspections were conducted through microscopic images of the materials. The results showed greater clogging of the nonwoven geotextile, GTX-1, with higher retention efficiency (approximately 100%) and better turbidity removal for both soils, equal to a reduction of around 94%. For GTX-2, a woven geotextile with a larger pore opening, less intense clogging and lower retention efficiency were observed after the third discharge; the average was 96% for both soils. GTX-3, a woven geotextile with a smaller apparent opening, exhibited a behavior similar to GTX-1: as the number of cycles increased, the material experienced more clogging and higher retention efficiency for soil 1 (approximately 98.5%). Based on these findings, it can be inferred that the discharge cycles impact the tested geotextiles in diverse ways and, therefore, the selection of the material should be contingent on project requirements.

Funder

Universidade Estadual Paulista

Publisher

MDPI AG

Subject

Water Science and Technology,Aquatic Science,Geography, Planning and Development,Biochemistry

Link

https://www.mdpi.com/2073-4441/16/1/107/pdf

Reference41 articles.

1. Morgan, R.P.C. (2005). Soil Erosion and Conservation, Blackwell Science.

2. Government of Alberta (2011). Field Guide for Erosion and Sediment Control, Government of Alberta. [2nd ed.]. Section 4.

3. Toy, T.J., Foster, G.R., and Renard, K.G. (2002). Soil Erosion: Processes, Prediction, Measurement, and Control, John Wiley and Sons.

4. Witheridge, G. (2012). Erosion and Sediment Control—A Field Guide for Construction Site Managers, Catchments & Creeks Pty Ltd.. Version 4.

5. EPA (2012). Stormwater Best Management Practice, Office of Water.