Comportement hydromécanique et érosion des sols fins traités / Hydro-mechanical behavior and erosion of fine tread soils

Mehenni, Abdelwadoud

15 December 2015

L’évolution actuelle du contexte socio-économique oblige les différents acteurs du secteur des travaux publics à s’adapter aux problématiques du développement durable. Dans le domaine des ouvrages en terre, les entreprises doivent proposer des solutions techniques de valorisation des matériaux situés dans l’emprise des projets afin de limiter les emprunts extérieurs et la mise en dépôt des sols non utilisés. Les techniques de traitement des sols constituent une possibilité de valoriser ces matériaux. Cette étude se focalise sur quatre produits de traitement (kaolinite, bentonite, chaux et ciment) ainsi que sur leurs effets sur le comportement hydromécanique et la résistance à l’érosion interne d’un limon fin. Un dispositif d’érosion interne HET optimisé a été spécialement conçu dans le cadre de ce travail pour déterminer les caractéristiques d’érosion des sols traités notamment à la chaux et au ciment. Au-delà de la caractérisation des effets du traitement sur le comportement hydromécanique à court terme des sols, le travail de cette étude s’étend sur la durabilité des traitements et l’évolution du comportent hydromécanique à long terme des sols traités soumis à des sollicitations hydriques de séchage-humidification. Cette étude de la durabilité est effectuée à travers une approche multi-échelle fondée sur des données d’études en laboratoire sur des éprouvettes de sol traité et des investigations in situ sur des ouvrages hydrauliques en sol traité. L’étude montre que les sollicitations hydriques peuvent dégrader les performances du sol traité. Cette dégradation se traduit par une augmentation de la conductivité hydraulique, une diminution de la résistance mécanique et aussi une diminution de la contrainte critique qui exprime une diminution de la résistance à l’érosion interne. La cinétique de perte de performances est conditionnée par la nature du produit de traitement et son dosage utilisé, et aussi par le niveau d’exposition, le nombre et l’intensité des cycles hydriques. Cependant, l’étude in situ montre qu’il est possible de diminuer la cinétique de dégradation des performances de sols à travers des dispositions constructives adaptées. / The current evolution of the social and economic context requires from the different actors of the public works sector to adapt their practices to the challenges of sustainable development. In the field of earthworks, companies must offer technical solutions to reuse the materials located in the vicinity of the projects in order to limit the borrowing materials and unused soils deposits. Soil treatment may allow the reuse of these materials. This study was focused on four treatment products (kaolinite, bentonite, lime and cement) as well as their effects on the hydro-mechanical behavior and internal erosion resistance of a fine silt. An enhanced HET device was designed in the framework of this study to determine the internal erosion characteristics of treated soils especially with lime and cement. Beyond the characterization of treatment effects on short-term hydro-mechanical behavior of soils, the work of this study extends to the durability of treatment and the evolution of long-term hydro-mechanical behavior of treated soils subjected to drying-wetting cycles. This study of sustainability was carried out through a multi-scale approach based on laboratory study data on soil samples and field investigations on hydraulic structures made of treated soil. The study showed that hydraulic conditions variations can decrease the performance of treated soils. These degradations result on an increase in hydraulic conductivity, a decrease of the mechanical strength and also a reduction in the critical shear stress which expresses a decrease of the internal erosion resistance. The kinetic of performance loss depends to the nature of the treatment product and percentage used as well as the exposure level, the number and amplitude of the hydraulic variations. However, the field study showed that it is possible to reduce the kinetic degradation of the soil performance through an appropriate construction design.

Terrassement

Traitement des sols

Conductivité hydraulique

Résistance à la compression simple

Hole Erosion Test

Érosion interne

Chaux

Ciment

Bentonite

Kaolinite

Earthworks

Soil treatment

Hydraulic conductivity

Unconfined compression strength

Hole Erosion Test

Internal erosion

Lime

Cement

Bentonite

Kaolinite

625.73

[en] DETERMINATION OF HYDRAULIC PROPERTIES RESIDUAL SOILS IN RIO DE JANEIRO / [pt] DETERMINAÇÃO DE PROPRIEDADES HIDRÁULICAS DE SOLOS RESIDUAIS DO RIO DE JANEIRO

JOAO LUIS TEIXEIRA DE MELLO G PINTO

20 August 2018

[pt] A cidade do Rio de Janeiro apresenta relevo acidentado e clima tropical. Os processos intempéricos que ocorrem na litologia geram os solos residuais e coluvionares. Tendo em vista a limitação espacial de áreas planas, a ocupação antrópica se direciona as áreas de encosta, onde estes solos estão presentes. Ao longo dos anos tem-se estudado que a maioria dos movimentos de massa da cidade do Rio de Janeiro estão relacionados à perda de sucção mátrica do solo. O presente trabalho visa, portanto, a obtenção de parâmetros hidráulicos dos solos não-saturados de maneira simples, rápida e pouco onerosa a fim de viabilizar estudos da infiltração de água em taludes. Para isso, foram estudadas 6 áreas ao longo do Rio de Janeiro, onde a escolha se baseou.na rocha de origem formadora dos solos residuais. Os ensaios do trabalho utilizados foram o Ensaio de Infiltração Monitorada (EIM) e caracterização física, e para efeitos comparativos também foram executados alguns ensaios de Guelph, papel filtro e permeabilidade saturada triaxial. O modelo de interpretação não-saturado usado foi o modelo de van Genutchen-Maulem, e a obtenção de três dos cinco parâmetros foi feita através de uma análise inversa. A curva a ser retroanalisada no ensaio é a série temporal da sucção mátrica. / [en] Rio de Janeiro city is sited on a rugged relief and has a tropical climate. The meteoric processes that take place on its lithology generate the residual and transported soils. Accounting for its limited flat urban space, its habitants tend to live in steep slope areas where such soils are present. For a long time studies have taken place to characterize mass movements and their conclusions relate most of them to the loss of soils matric suction. Therefore the study aims to obtain the unsaturated soil parameters in a simple, rapid and low cost way, which may help future studies of water infiltration on slopes. And thus, 6 locations in Rio de Janeiro were choosen based on the criteria of soil formation, attending different types of gneissic bedrocks. The constitutive model used was the van Genuchten and the method to obtain three of its five parameters was by solving an inverse problem. The curve to be optimized comes from the monitored infiltration test which consists on the record of the matric suction over a constant head infiltration test.

[pt] SOLO RESIDUAL

[en] RESIDUAL SOIL

[pt] PROBLEMA INVERSO

[en] INVERSE PROBLEM

[pt] SOLOS NAO SATURADOS

[en] NON-SATURED SOIL

[pt] CONDUTIVIDADE HIDRAULICA

[en] HYDRAULIC CONDUCTIVITY

[pt] CURVA CARACTERISTICA

[en] CHARACTERISTIC CURVE

[pt] ENSAIO DE CAMPO

[en] FIELD TEST

Hydromechanické charakteristiky kaolinových suspensí / Hydromechanic characteristics of clay suspensions

Sedláčková, Markéta

January 2019

A mathematical model of two-phase systems, such as clay suspensions, consists of a set of partial differential equations which reflect both the general laws of mechanics and the relations connecting the involved characteristics of the particular system under consideration. The latter equations are known as constitutive relations. The aim of this study was to find the constitutive relations for kaolin suspensions that are necessary when solving forward problems of fine sludge thickening processes. The task was to design and carry out experimental research of the given suspension and to find a convenient method of utilizing the results for the sake of getting the sought relationships. It follows from the applied mathematical theory of two-phase systems that the sought relationships are hydraulic conductivity of the suspension as a function of the solid-phase concentration and the dependence of the solid-phase concentration on the solid-phase stress. The first part of this study describes the experimental research. Since both the characteristics are difficult to measure, it was necessary to analyze the suspension's characteristics and their measurability. Subsequently, the process of the suspension preparation and the method of laboratory measurements were determined. The following sections present...

Influence of Soil Water Repellency on Post-fire Revegetation Success and Management Techniques to Improve Establishment of Desired Species

Madsen, Matthew D.

17 December 2009

The influence of soil water repellency (WR) on vegetation recovery after a fire is poorly understood. This dissertation presents strategies to broaden opportunities for enhanced post-fire rangeland restoration and monitoring of burned piñon and juniper (P-J) woodlands by: 1) mapping the extent and severity of critical and subcritical WR, 2) determining the influence of WR on soil ecohydrologic properties and revegetation success, and 3) evaluating the suitability of a wetting agent composed of alkylpolyglycoside-ethylene oxide/propylene oxide block copolymers as a post-fire restoration tool for ameliorating the effects of soil WR and increasing seedling establishment. Results indicate that: • Post-fire patterns of soil WR were highly correlated to pre-fire P-J woodland canopy structure. Critical soil WR levels occurred under burned tree canopies while sub-critical WR extended out to approximately two times the canopy radius. At sites where critical soil WR was present, infiltration rate, soil moisture, and vegetation cover were significantly less than at non-hydrophobic sites. These parameters were also reduced in soils with subcritical WR relative to non-hydrophobic soils (albeit to a lesser extent). Aerial photography coupled with feature extraction software and geographic information systems (GIS) proved to be an effective tool for mapping P-J cover and density, and for scaling-up field surveys of soil WR to the fire boundary scale. • Soil WR impairs seed germination and seedling establishment by decreasing soil moisture availability by reducing infiltration, decreasing soil moisture storage capacity, and disconnecting soil surface layers from underlying moisture reserves. Consequently, soil WR appears to be acting as a temporal ecological threshold by impairing establishment of desired species within the first few years after a fire. • Wetting agents can significantly improve ecohydrologic properties required for plant growth by overcoming soil WR; thus, increasing the amount and duration of available water for seed germination and seedling establishment. Success of this technology appears to be the result of the wetting agent increasing soil moisture amount and availability by 1) improving soil infiltration and water holding capacity; and 2) allowing seedling roots to connect to underling soil moisture reserves.

restoration

revegetation

surfactants

water repellency

wetting agents

wildfire

weed suppression

aerial photography

geographic information systems

GIS

remote sensing

piñon

pinyon

juniper

woody plant encroachment

rangeland monitoring

soil water content

unsaturated hydraulic conductivity

anchor chaining

hydrophobicity

subcritical water repellency

Animal Sciences

Soil Physical Characteristics of an Aeric Ochraqualf amended with Biochar

Eastman, Christopher Mark

21 October 2011

No description available.

Agricultural Chemicals

Agricultural Economics

Agricultural Education

Agricultural Engineering

Agriculture

Agronomy

Alternative Energy

Physics

Plant Sciences

Soil Sciences

Water Resource Management

biochar

soil bulk density

total porosity

soil pore size distribution

soil moisture retention

saturated hydraulic conductivity

soybean yield

Hodnocení kvality/zdraví půdy v blízkosti obce Bohaté Málkovice / Assessment health/quality of the soil near the village Bohaté Málkovice

Suchá, Kateřina

January 2019

Diploma thesis evaluates quality and healthiness of the soil health located close to Bohate Malkovice focusing on changes in both physical and chemical characteristics of the soil in time. The theoretical part describes physical, chemical, and biological parameters of the soil. Selected physical parameters are structure, texture, determination of measured weight, bulk density of the soil, porosity, actual volumetric water content of the soil, aeration, saturated and unsaturated hydraulic conductivity, infiltration, and colour. Chosen chemical parameters are pH, carbonates, soil electrical conductivity, and humus content. Picked biological parameters are microbial biomass, respiration, nitrogen content, and weed infestation. The practical part analyses selected indicators of quality of the soil from the location of the experiment close to Bohate Malkovice. The area under evaluation has been treated using reduced tillage for long term. The practical part is based on the laboratory examination of disturbed and undisturbed soil samples taken between years 2016 and 2018. Based on outcome results we can evaluate the quality of the soil considering plants growth, development, and soil fertility.

Wasseraufnahme und artspezifische hydraulische Eigenschaften der Feinwurzeln von Buche, Eiche und Fichte: In situ-Messungen an Altbäumen / Water uptake and species-specific hydraulic properties of beech, oak and spruce fine roots: In situ measurements on old-growth trees

Coners, Heinz

30 October 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Wurzeln

Wasseraufnahme

Saftfluß

heat balance

Bäume

hydraulischer Widerstand

hydraulische Leitfähigkeit

roots

water uptake

sap flow

heat balance

trees

hydraulic resistance

hydraulic conductivity

42.44

42.41

Shade trees in cacao agroforestry systems: influence on roots and net primary production

Abou Rajab, Yasmin Joana Monna

10 December 2015

No description available.

570

Cacao

Carbon sequestration

Vertical root segregation

Biodiversity

Water uptake

Fine root biomass

Fine root necromass

Fine root production

Aboveground biomass

Belowground biomass

Shade trees

Net primary production

Fine root turnover

Agroforestry

Carbon pools

Cacao bean yield

Hydraulic conductivity

Wood density

Foliar nitrogen

Vessel diameter

Deuterium

Biologie (PPN619462639)

Investigating the Need for Drainage Layers in Flexible Pavements

Masoud Seyed Mohammad Ghavami (6531011)

10 June 2019

<p>Moisture can significantly affect flexible pavement performance. As such, it is crucial to remove moisture as quickly as possible from the pavements, mainly to avoid allowing moisture into the pavement subgrade. In the 1990s the Indiana Department of Transportation (INDOT) adopted an asphalt pavement drainage system consisting of an open-graded asphalt drainage layer connected to edge drains and collector pipes to remove moisture from the pavement system.</p> <p>Over the intervening two decades, asphalt pavement materials and designs have dramatically changed in Indiana, and the effectiveness of the pavements drainage system may have changed. Additionally, there are challenges involved in producing and placing open-graded asphalt drainage layers. They can potentially increase costs, and they tend to have lower strength than traditional dense-graded asphalt pavement layers. </p> <p>Given the potential difficulties, the overall objective of this research was to evaluate the effectiveness of the INDOT’s current flexible pavement drainage systems given the changes to pavement cross-sections and materials that have occurred since the open-graded drainage layer was adopted. Additionally, the effectiveness of the filter layer and edge drains were examined.</p><p><br>Laboratory experiments were performed to obtain the hydraulic properties of field-produced asphalt mixture specimens meeting INDOT’s current specifications. The results were used in finite element modeling of moisture flow through pavement sections. Modeling was also performed to investigate the rutting performance of the drainage layers under various traffic loads and subgrade moisture conditions in combination with typical Indiana subgrade soils. The modeling results were used to develop a design tool that can assist the pavement designer in more accurately assessing the need for pavement drainage systems in flexible pavements.<br></p>

Civil Geotechnical Engineering

Construction Engineering

Engineering Practice

pavement

Asphalt

Drainage

finite elements

Abaqus

infiltrations

water flows

seepage water

Mechanistic studies

Stress Analysis

coupled stress and seepage

rutting performance

soil subgrade

settlement

open-graded aggregate

permeable base

filter

permeability

Water retention curve

Hydraulic conductivity

Transient flow

Steady States flow

The dynamic interplay of mechanisms governing infiltration into structured and layered soil columns

Carrick, Sam

January 2009

Worldwide there is considerable concern over the effects of human activities on the quantity and quality of freshwater. Measurement of infiltration behaviour will be important for improving freshwater management. This study identifies that New Zealand has a sporadic history of measuring soil water movement attributes on a limited number of soil types, although the current practical demand should be large for management of irrigation, dairy farm effluent disposal, as well as municipal / domestic waste- and storm-water disposal. Previous research has demonstrated that infiltration behaviour is governed by the interplay between numerous mechanisms including hydrophobicity and preferential flow, the latter being an important mechanism of contaminant leaching for many NZ soils. Future characterisation will need to recognise the dynamic nature of these interactions, and be able to reliably characterise the key infiltration mechanisms. Since macropores are responsible for preferential flow, it is critical that infiltration studies use a representative sample of the macropore network. The aim of this project was to study the mechanisms governing the infiltration behaviour of a layered soil in large (50 x 70 cm) monolith lysimeters, where the connectivity of the macropore network remains undisturbed. Four lysimeters of the Gorge silt loam were collected, a structured soil with four distinct layers. On each lysimeter there were four separate infiltration experiments, with water applied under suctions of 0, 0.5, 1, and 1.5 kPa by a custom-built tension infiltrometer. Each lysimeter was instrumented with 30 tensiometers, located in arrays at the layer boundaries. There was also a field experiment using ponded dye infiltration to visually define preferential flowpaths. Analysis of dye patterns, temporal variability in soil matric potential (Ψm), and solute breakthrough curves all show that preferential flow is an important infiltration mechanism. Preferential flowpaths were activated when Ψm was above -1.5 kPa. During saturated infiltration, at least 97% of drainage was through the ‘mobile’ pore volume of the lysimeter (θm), estimated among the lysimeters at 5.4 – 8.7 % of the lysimeter volume. Early-time infiltration behaviour did not show the classical square-root of time behaviour, indicating sorptivity was not the governing mechanism. This was consistent across the four lysimeters, and during infiltration under different surface imposed suctions. The most likely mechanism restricting sorptivity is weak hydrophobicity, which appears to restrict infiltration for the first 5 – 10 mm of infiltration. Overall, the Gorge soil’s early-time infiltration behaviour is governed by the dynamic interaction between sorptivity, hydrophobicity, the network of air-filled pores, preferential flow and air encapsulation. Long-time infiltration behaviour was intimately linked to the temporal dynamics of Ψm, which was in turn controlled by preferential flow and soil layer interactions. Preferential flowpaths created strong inter-layer connectivity by allowing an irregular wetting front to reach lower layers within 2 – 15 mm of infiltration. Thereafter, layer interactions dominate infiltration for long-time periods, as Ψm in soil layers with different K(Ψm) relationships self-adjusts to try to maintain a constant Darcy velocity. An important finding was that Ψm rarely attained the value set by the tension infiltrometer during unsaturated infiltration. The results show that ‘true’ steady-state infiltration is unlikely to occur in layered soils. A quasi-steady state was identified once the whole column had fully wet and layer interactions had settled to where Ψm changes occurred in unison through each soil layer. Quasi-steady state was difficult to identify from just the cumulative infiltration curve, but more robustly identified as when infiltration matched drainage, and Ψm measurements showed each layer had a stable hydraulic gradient. I conclude that the in-situ hydraulic conductivity, K(Ψm), of individual soil layers can be accurately and meaningfully determined from lysimeter-scale infiltration experiments. My results show that K(Ψm) is different for each soil layer, and that differences are consistent among the four lysimeters. Under saturated flow the subsoil had the lowest conductivity, and was the restricting layer. Most interestingly this pattern reversed during unsaturated flow. As Ψm decreased below -0.5 to -1 kPa, the subsoil was markedly more conductive, and the topsoil layers became the restricting layers. All four soil layers demonstrate a sharp decline in K(Ψm) as Ψm decreases, with a break in slope at ~ -1 kPa indicating the dual-permeability nature of all layers.

infiltration

layered soil

preferential flow

sorptivity

hydraulic conductivity

hydrophobicity

dual-permeability

mobile water content

lysimeter

tension infiltrometer