Дисертації з теми "SOIL-WATER CHARACTERISTICS CURE"
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AHMED, AATIF. "EXPERIMENTAL STUDY ON WETTING SOIL WATER CHARACTERISTIC CURVE OF SAND WITH MIXTURE OF BENTONITE CLAY." Thesis, DELHI TECHNOLOGICAL UNIVERSITY, 2021. http://dspace.dtu.ac.in:8080/jspui/handle/repository/18888.
Повний текст джерелаTu, Hongyu. "Prediction of the Variation of Swelling Pressure and 1-D Heave of Expansive Soils with respect to Suction." Thesis, Université d'Ottawa / University of Ottawa, 2015. http://hdl.handle.net/10393/32515.
Повний текст джерелаCuceoglu, Faik. "An Experimental Study on Soil Water Characteristics and Hydraulic Conductivity of Compacted Soils." Thesis, Virginia Tech, 2016. http://hdl.handle.net/10919/73673.
Повний текст джерелаMaster of Science
Regmi, Sanjeev. "EFFECT OF PLASTICITY AND INITIAL COMPACTION CONDITIONS ON SOIL WATER CHARACTERISTICS CURVE OF FINE-GRAINED SOILS." OpenSIUC, 2019. https://opensiuc.lib.siu.edu/theses/2625.
Повний текст джерелаvan, Quang Pham. "Soil formation and soil moisture dynamics in agriculture fields in the Mekong Delta, Vietnam conceptual and numerical models." Licentiate thesis, KTH, Land and Water Resources Engineering, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-10508.
Повний текст джерелаPrevious studies of agricultural conditions in the Mekong Delta (MD) have identified soil compaction as an obstacle to sustainable production. A conceptual model for soil formation was presented to demonstrate the link between soil hydrology and plant response. Detailed studies of soil moisture dynamics in agricultural fields were conducted using a dynamic process-orientated model. Pressure head and water flow were simulated for three selected sites during a year for which empirical data were available. Daily meteorological data were used as dynamic input and measured pressure head was used to estimate parameter values that satisfied various acceptance criteria. The Generalised Likelihood Uncertainty Estimation (GLUE) approach was applied for calibration procedures with 10,000 runs, each run using random values within the chosen range of parameter values. To evaluate model performance and uncertainty estimation, re-sampling was carried out using coefficient of determination (R2) and mean error (ME) as the criteria. Correlations between parameters and R2 (and ME) and among parameters were also considered to analyse the relationship of the selected parameter set in response to increases/decreases in the acceptable simulations. The method was successful for two of the three sites, with many accepted simulations. For these sites, the uncertainty was reduced and it was possible to quantify the importance of the different parameters.
Vivian, Juliana Baum. "Utilização do método do papel filtro para a determinação das curvas características de um solo coluvionar não saturado contaminado com óleo diesel." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2008. http://hdl.handle.net/10183/14377.
Повний текст джерелаThe unsaturated soil behavior can be determined through its soil-water characteristic curve, which represents the capacity of the soil to store water when submitted to different suction levels. When this soil is contaminated, its internal structure can be modified according to physical and chemical processes, thus changing the initial behavior. This dissertation proposes a test methodology to determine the total-suction soil-water characteristic curves of a contaminated soil at different diesel oil contents. The experimental program consisted of using the filter-paper method without contact between the sample and the paper, but with some modifications in relation to previously studied techniques. Some control tests were also carried out to check oil evaporation and its absortion by the filter paper. Besides, the samples were submitted to physical, mineralogical and chemical characterization, before and after contamination, to verify the possible changes. The studied material is a colluvium soil, constituted basically by sandstone, from the Botucatu Formation. This soil was previously studied by the filter-paper method with contact, and its soil water characteristic curve without contamination was already known. To compare the results, the proposed test methodology was also performed with non contaminated samples, showing a satisfactory agreement with the initial curve. The soil-water characteristic curves of this soil with a diesel oil content of 2%, 5%, 10% and 15% showed a "saddle" shape, indicating that both the microstructure and the macrostructure were influenced by the entrance and exit of water through the soil. However, the shape of the curve and the extent of its plateau changed according to the level of contamination. Increasing the oil content, the curve tends to a unimodal shape, with a behavior similar to granular soils. This statement was proved by the microstruture photographs, which showed an increase of sample porosity due to the increase of oil content. The time required to reach suction equilibrium during the tests varied between 7 to 30 days, according to the initial water content of the samples. The observed hysteresis had a small reduction with the increase of oil content. The control tests proved that oil evaporation and its absortion by the filter paper were insignificant in the whole test program.
Roshani, Pedram. "The Effect of Temperature on the SWCC and Estimation of the SWCC from Moisture Profile under a Controlled Thermal Gradient." Thèse, Université d'Ottawa / University of Ottawa, 2014. http://hdl.handle.net/10393/31072.
Повний текст джерелаLiu, Zhen. "Multiphysics Simulation and Innovative Characterization of Freezing Soils." Case Western Reserve University School of Graduate Studies / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=case1350331910.
Повний текст джерелаSilva, Angelita Martins da. "Banco de dados de curvas de retenção de água de solos brasileiros." Universidade de São Paulo, 2005. http://www.teses.usp.br/teses/disponiveis/18/18132/tde-27012006-043239/.
Повний текст джерелаUnsaturated soil mechanics has become an important subject of research devoted to understand the behavior of unsaturated soils and optimize their use in several civil works. The soil-water characteristic curve, defined as the relationship between the suction and the amount of water present in the soil, is considered as the key in the interpretation of the behavior and properties of unsaturated soils, such as the hydraulic conductivity and the shear strength. This paper presents the structure of a database designed to store information of brazilian soils with focus in the characteristics of water retention. The database includes the retention curves and the parameters of adjusted van Genuchten and Fredlund & Xing equations and also information of soil characteristics such as physical indexes, soil classifications, particle-size analysis, consistency indexes and location and kind of used samples. Beyond the estimate of hydraulic conductivity, the database presents two search tools that allow for quick and detailed recovering of information and stored data can be displayed on screen or in printed reports
Feverharmel, Carolina. "Estudo da resistência ao cisalhamento e da condutividade hidráulica de solos coluvionares não saturados da Formação Serra Geral." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2007. http://hdl.handle.net/10183/13467.
Повний текст джерелаThis thesis presents a study about the shear strength and hydraulic conductivity of two unsaturated colluvium soils situated at the border between the states of Rio Grande do Sul and Santa Catarina, along one of the Bolivia-Brazil Gas Pipeline stretches. These soils are constituted by sediments originated from Serra Geral (basalt – sample RO) and Botucatu formations (sandstone - sample AV). The research performed with these soils had its focus divided in two main parts: (1) direct measurements of shear strength and hydraulic conductivity function at different suction levels and (2) indirect prediction of these properties from the soil-water characteristic curves and saturated geotechnical parameters. The soilwater characteristic curves of AV and RO Samples, in undisturbed and remolded conditions (without and with previous drying), were determined with both the filter-paper technique and the suction-plate technique. The undisturbed and remolded samples without previous drying showed a bimodal shape. The desaturation is controlled by the macropores for low suction values and by the micropores, for higher values. For intermediary suctions values, practically no removal of water from the sample occurs, possibly due to the lack of intermediate pore sizes. The remolded samples with previous drying tend to present a shape close to unimodal. The influences of void ratio and the drying and wetting history in the shape of the soil-water characteristic curve are also discussed. The shear strength of the studied soils was determined with conventional and suction-controlled direct shear tests. The results obtained for undisturbed and remolded samples without previous drying allowed the determination of shear strength parameters c’, f’ e fb. For the direct measurement of hydraulic conductivity function, a flexible-wall permeameter was built, based on the model presented by Huang et al. (1998). This equipment was used for determining the unsaturated hydraulic conductivity function of Sample AV in different drying and wetting paths. The results showed that Samples AV in the three molding conditions - undisturbed and remolded without and with previous drying – reproduced the desaturation behavior showed by the soil-water characteristic curves. The hydraulic conductivity function presents initially a decrease for suctions up to 50 kPa, followed by a practically constant value, for suctions up to 90 kPa.
Rogers, Maile Anne. "Water Vapor Movement in Freezing Aggregate Base Materials." BYU ScholarsArchive, 2013. https://scholarsarchive.byu.edu/etd/4013.
Повний текст джерелаBonder, Brunno Henrique. "Curvas de retenção de agua de um solo coluvionar de Campinas obtidas mediante tecnicas de laboratorio e de campo." [s.n.], 2008. http://repositorio.unicamp.br/jspui/handle/REPOSIP/257682.
Повний текст джерелаDissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo
Made available in DSpace on 2018-08-11T22:58:54Z (GMT). No. of bitstreams: 1 Bonder_BrunnoHenrique_M.pdf: 2047878 bytes, checksum: f980b746a4148ebf1cf393fb9e4a010a (MD5) Previous issue date: 2008
Resumo: Como ponto de partida, concentra-se esta pesquisa em determinar as relações de teor de umidade (ou grau de saturação) versus o valor da sucção matricial, conhecidas por curvas características de sucção ou curvas de retenção, para o solo da camada superficial do Campo Experimental de Mecânica dos Solos e Fundações da UNICAMP. Esta camada é constituída de uma argila siltoarenosa, porosa, em condição não saturada, laterítica, colapsível e coluvionar de espessura em torno de 6,5m; resultante do alto grau de intemperismo. Na determinação das curvas utilizou-se a técnica do papel filtro, complementando a técnica de translação de eixos, já utilizada para o solo, através do Aparelho de Richards. Os procedimentos foram de secagem e de umedecimento das amostras, permitindo o estudo do fenômeno de histerese, à luz da estrutura e da composição químico-mineralógica do solo. Também foi realizado um monitoramento em campo da variação da sucção matricial ao longo de um ano, para confirmar o fenômeno da histerese que ocorre in situo As curvas de retenção de água forneceram valores de pressão de entrada de ar que variam de 1 à 5 kPa, dependendo da técnica utilizada, lembrando o comportamento de areias, e mostraram que o fenômeno da histerese ocorre de maneira mais acentuada, em solos com poros maiores. Confrontaram-se os resultados obtidos com as diferentes técnicas de realização dos ensaios e analisaram-se as diferenças entre elas.
Abstract: This research focuses in to determine the relationship of moisture content (or degree of saturation) versus the value of the suction matrix, known as soil water characteristic curve (SWCC), to the soil surface layer of the Field Experimental of Soil Mechanics and Foundation of UNICAMP. This profile consists of colluvial, lateritic, porous, on condition unsaturated and collapsible silty clay, with thickness around 6,5m and present on a clayed silt soil, residual of diabase; resulting from the high degree of weathering. To determine the curves, the techniques of filter paper and axis-translation were used, with a Richards equipment, this already used to the soil. The procedures were wetting and drying of the samples, allowing the study of the phenomenon of hysteresis, in the light of the structure and chemical and mineralogical composition of the soil. It was carried out in the field of "tracking a variation of suction matrix over a year, to confirm the phenomenon of hysteresis that occurs in situo The SWCCs supplied values of enter air ranging from 1 to 5 kPa, depending on the technique used, reminding the behaviour of sand, and showed that the phenomenon of hysteresis occurs in a manner more pronounced in soils with pores greater.' Compared the achievements of ,lhe different techniques for conducting the tests and analyzed the differences between them.
Mestrado
Geotecnia
Mestre em Engenharia Civil
Sjödin, Adam. "Numerisk modellering av deformationer och portryck i en experimentdamm : Jämförelse mellan in-situmätningar och FE-simuleringar i PLAXIS 2D." Thesis, Luleå tekniska universitet, Institutionen för samhällsbyggnad och naturresurser, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-82615.
Повний текст джерелаDuring the autumn of 2019, Vattenfall Research & Development constructed an experimental embankment dam in Älvkarleby with the dimensions 20x15x4 metres. Parts of the experimental dam are conventionally constructed and have been equipped with geotechnical instrumentation which consist of, among other things, inclinometers and pore pressure transducers. Other parts of the experimental dam have built in defects to represent age-related damages or execution errors during construction. The experimental embankment dam provides the opportunity to, under realistic and controlled conditions, study the mechanical behaviour during filling of water and operation by means of the geotechnical instrumentation and the use of numerical modelling. In this master’s thesis, which forms part of Luleå University of Technology’s research project towards the experimental dam, the behaviour of the experimental dam in terms of deformations and pore pressures have been studied during filling and operation until the summer of 2021. This has been performed by simulations in the finite element program PLAXIS 2D 2019 for a cross section of the experimental dam under plane-strain conditions. Measuring points in the model have been based on the actual location of the geotechnical instrumentation. The finite element model of the experimental dam has been constructed and filled according to documentation from field. A fully-coupled flow deformation analysis, with the constitutive model Hardening Soil and hydraulic model van Genuchten, has been utilised to model the simultaneous development of pore pressure and deformations during filling. Values of material parameters for the finite element modelling have been received from Vattenfall R&D, relevant literature and from field- and laboratory tests. In the field, balloon tests have been performed on the core material. In laboratory environment, modified proctor compaction tests, drained conventional triaxial tests, permeability tests and pressure plate tests have been performed on the core material. Results from the pressure plate tests have been adapted to the hydraulic model van Genuchten to estimate a soil-water characteristic curve in order to describe the non-linear relation between the water content and suction in the soil, i.e. unsaturated conditions. Soil-water characteristic curves for the other material zones have been estimated based on literature. The tool PLAXIS SoilTest has been used to optimise material parameter values of the core against the results from conducted triaxial tests. The material parameters E50ref, Eoedref, Eurref, m, c, and ϕ have been optimised until failure in triaxial loading. A sensitivity analysis has been carried out, by reducing stiffness moduli of the filter zones and the shoulder material, to investigate the influence on horizontal deformations in the dam body during filling. The sensitivity analysis indicates that the stiffness moduli of the fine filter have the largest impact and the stiffness moduli of the coarse filter have the least impact on the horizontal deformations. The results of the study show that the magnitude of horizontal and vertical deformations will be largest in the upper part of the dam body and amounts to 3.5 and 4.0 mm, respectively. The main movement of the dam body will be in the downstream direction and it was observed how a contact zone between the upstream filter zone and the core forms a boundary for direction of deformations. Actual measured movements in the installed inclinometers could not be compared to deformations in the finite element model because the author’s interpretation indicates that the bottom of the inclinometers have moved, and the measuring points at the bottom of the model are fixed. The model shows how a delayed development of saturation occur through the core, where the upstream side of the core responds more quickly to changes in water level compared with the downstream side of the core which show a delayed response. At a lowering of the water level, it was observed how the core retains water above the phreatic line while the coarser materials drain as the water level decreases. Development of the simulated pore pressures in the model during filling and operation corresponds well with the measured pore pressures in the experimental dam, when the pore pressures are positive. It is observed how the finite element model overestimates negative pore pressures (suction). The pore pressures in the model reaches a steady state approximately 115 days after filling of water started. The finite element model succeeds in reproducing the theoretical behaviour of embankment dams during filling in terms of main directions of deformations and development of saturation in the core. This study contributes to a deeper understanding of the experimental dam, and in general mechanical behaviour of embankment dams during filling. The results from the finite element model can be used from a dam safety perspective to obtain indications on the development of deformations, pore pressures and degree of saturation in embankment dams during filling, and also for a temporary lowering of the water level during the first filling. The study also provides indications of which material parameters that are of importance in numerical modelling of mechanical behaviour in embankment dams.
Nam, Soonkie. "Effects of Reservoir Releases on Slope Stability and Bank Erosion." Diss., Virginia Tech, 2011. http://hdl.handle.net/10919/77114.
Повний текст джерелаPh. D.
Vosolo, David A. "Investigation on geotechnical engineering properties of coal mine spoil subjected to slaking." Thesis, Queensland University of Technology, 2017. https://eprints.qut.edu.au/109789/1/David_Vosolo_Thesis.pdf.
Повний текст джерелаJeyisanker, Kalyani. "Analysis of Water Seepage Through Earthen Structures Using the Particulate Approach." [Tampa, Fla] : University of South Florida, 2008. http://purl.fcla.edu/usf/dc/et/SFE0002783.
Повний текст джерелаHoang, Ngoc Lan. "Etudes des propriétés hydromécaniques d’un sable limoneux : de la saturation partielle à la saturation complète." Thesis, Lyon, 2017. http://www.theses.fr/2017LYSET005/document.
Повний текст джерелаThis thesis concerns the experimental characterization of a silty sand from the Livet - Gavet dam (38) as part of the ANR TerreDurable project, for following objectives: 1- Through laboratory tests, characterize the hydro-mechanical behaviour of a fine silty sand (Type A1 in the GTR classification) according to its saturation state. In this study, particular emphasis is placed on the characterization of this behaviour in the near-saturated domain. 2- Interpret the water behaviour of material on the drainage - imbibition cycles, in relation to the analysis of its microstructure. 3- From a general point of view, provide a comprehensive database and analysis allowing the development and calibration of models of near-saturated fine soil's behaviour, in particular, by considering complex hydro-mechanical loading paths. For all tests in this study, the material is considered in two states: either in the state of paste (normally consolidated material) prepared at water content close to the limit of liquidity, or in compacted state (over consolidated material) at different compaction energies and different initial water contents
Ferreira, Anderson Moura. "Avaliação de proposições matemáticas para interpretação do comportamento de solos residuais não saturados." Universidade do Estado do Rio de Janeiro, 2010. http://www.bdtd.uerj.br/tde_busca/arquivo.php?codArquivo=2485.
Повний текст джерелаIn the last decades, theories have been formulated to interpret the behavior of unsaturated soils and found to be consistent with the experimental response. Besides, several techniques for field and laboratory testing have been developed, as well. However, the experimental determination of unsaturated soil parameters is costly, time-consuming, requires particular test equipments and experienced technicians. As a result, these theories application are limited to academic researches and are barely used in engineering practice. To overcome this issue, several researchers proposed equations to mathematically represent the experimental behavior unsaturated soils. These propositions are based on physical indexes, soil characterization, and current laboratory tests or simply curve fitting. The relationship of soil-water content and matric suction, conventionally referred to as the soil-water characteristic curve (SWCC) is also useful tool in the prediction of the engineering behavior of unsaturated soils. There are many equations to mathematically represent SWCC. Some are based on the assumption that its shape is directly related to the pore distribution, and, therefore, the grain size distribution. In these propositions the parameters are calibrated by curve adjustment of the experimental data. Others assume that the curve can be directly estimated from physical properties of soils. These proposals are simple and convenient for practical use, but are substantially incorrect since they disregard the influence of moisture content, stress level, soil structure and mineralogy. As a result, most of them have limited success depending on soil types. Some attempts have also been made to predict the variation of the shear strength with respect to matric suction. These procedures use SWCC as a tool either directly or indirectly along with the saturated strength parameters c and . This work discusses the applicability of three SWCC equations (Gardner, 1958; van Genuchten, 1980; and Fredlund and Xing, 1994) for twenty four residual soils from Brazil. The suitability of the normalized soil-water characteristic curve, proposed by Camapum de Carvalho and Leroueil (2004), was also investigated. Models parameters were determined by curve fitting, using inverse problem techniques; two optimization methods were used: Genetic Algorithm (GA) and Levenberq-Marquardt method. Several parameters that influence the SWCC behavior are discussed, as well. The relationship between matric suction and shear strength was evaluated by curve fitting using the equations proposed by Öberg and Sällfors (1995, 1997), Vanapalli et al., (1996), Vilar (2007) and Futai (2002); eight experimental results were analyzed. Several parameters that influence the SWCC behavior and the unsaturated shear strength are discussed, as well.
BORGES, Camilla Rodrigues. "Comportamento hidráulico de um perfil de solo não saturado de Aparecida de Goiânia-GO." Universidade Federal de Goiás, 2010. http://repositorio.bc.ufg.br/tede/handle/tde/1326.
Повний текст джерелаThe hydraulic behavior of a tropical and unsaturated soil profile of Aparecida de Goiânia-GO is presented. The main objective of this research was to contribute to the understanding of hydraulic properties of a tropical soil, with special emphasis on the soil-water characteristic curves and its hysteresis. The research work done was divided into two main parts: physical, chemical and mineralogical characterization; and hydraulic behavior for the unsaturated condition. The characterization tests indicate that the soil profile studied is formed by two horizons. The top layer of 1,50 m comprised of transported material and a bottom layer comprised of young residual soil. The results of particle size analysis have shown that the various sample preparation conditions (i.e., with or without drying, chemical and physical disaggregation) produce different grain-size distribution curves. A varying state of disaggregation can be achieved, that state being dependent on the stability of the soil aggregates. A fairly good correspondence between conventional hydrometer and laser diffraction analysis was achieved, considering supposedly equivalent aggregation conditions. The soil-water characteristic curve (SWCC) was measured for both the natural and the soil reconstituted by mud consolidation. The role played by the soil fabric on the hydraulic behavior of the soil was analyzed. The SWCC was obtained for drying, wetting, and mixed paths, both in terms of total and matric suction. It was determined that the natural and reconstituted soils have distinct SWCCs. The disaggregation achieved with the reconstituted soil results in higher air-entry values and a unimodal SWCC, even when the natural soil presents a bimodal SWCC. Therefore, the pore-size distribution if affected by the different soil structures. The procedure for wetting and drying soil samples used along with the filter paper technique resulted in a number of SWCCs showing absence of hysteresis. The study of the moisture content along the specimen s heights revealed non-homogeneous moisture content distributions, even after 14 day of equilibrium of water potential. It was concluded that it is the very existence of SWCC hysteresis, along with a not sufficiently slow wetting and drying from the specimen surface that results in a non-homogeneous moisture content.
Um estudo do comportamento hidráulico de um perfil de solo tropical e não saturado de Aparecida de Goiânia-GO é apresentado nesta dissertação. O principal objetivo desta pesquisa foi contribuir para o entendimento das propriedades hidráulicas do solo, com especial ênfase na curva característica do solo e na sua histerese. O trabalho teve seu enfoque dividido em duas partes: caracterização física, química e mineralógica do perfil; e comportamento hidráulico do solo na condição não saturada. A partir da caracterização do solo, verificou-se que o perfil estudado se divide em dois extratos, um superior de 1,50 m de material transportado e um inferior residual jovem. Os resultados dos ensaios de granulometria mostraram que as várias combinações de preparação (i.e., com ou sem secagem prévia, desagregação química e desagregação física), produzem curvas granulométricas distintas. Variados graus de desagregação podem ser atingidos, sendo estes dependentes do grau de estabilidade das agregações do solo. Obteve-se uma boa correspondência entre a granulometria convencional e aquela utilizando o granulômetro a laser, para condições de desagregação supostamente equivalentes. A curva característica foi determinada tanto para o material natural, quanto para o solo reconstituído por adensamento a partir do estado de lama. Desta forma, procurou-se verificar o papel da estrutura no comportamento hidráulico do solo. As curvas características foram obtidas em trajetórias de secagem, molhagem, e mistas, tanto em termos de sucção matricial, quando de sucção total. Observou-se que o solo natural possui curvas características distintas do solo reconstituído. A desestruturação do solo reconstituído resulta em um maior valor de entrada de ar e uma curva característica unimodal, mesmo quando o material natural apresenta curva bimodal. Pode-se concluir que a distribuição de poros do material natural é afetada pela estruturação do solo. O procedimento de umedecimento e secagem utilizado com o método do papel filtro resultou em algumas curvas características com ausência de histerese. O estudo da distribuição da umidade ao longo da altura dos corpos de prova revelou que não se obteve umidades homogêneas, mesmo após os 14 dias, adotados como período para equilíbrio do potencial da água do solo. Pôde-se concluir que é exatamente a existência da histerese, aliada a um umedecimento ou secagem a partir da face dos corpos de prova que não são suficientemente lentos, que resultam na não homogeneidade de umidade.
Abeykoon, A. Gedara Tharindu Bhagya Bandara. "Developing an economical and reliable real-time warning system for rainfall-induced individual landslides." Thesis, Queensland University of Technology, 2022. https://eprints.qut.edu.au/227324/1/A%20Gedara%20Tharindu%20Bhagya%20Bandara_Abeykoon_Thesis.pdf.
Повний текст джерелаHunz, ching-Hui, and 洪靖惠. "Relationship of Soil Water Characteristic Curve Parameters and Soil Physical Properties." Thesis, 2008. http://ndltd.ncl.edu.tw/handle/04470970323123284989.
Повний текст джерела國立中興大學
水土保持學系所
96
This study used the pressure plate experiment to obtain soil water characteristic curves in the laboratory. Thirteen soil samples includeng sand, sandy loam, loam, clayey loam, and clay used to establish the relationship of soil water content and pressure potential. The parameters α and n of the van Genuchten Model were obtained by curve fitting technique. Multiple regression equations were estimated using soil physical properties and statistical SPSS software. Three soil samples were used to validate suitability of the equations. This study also defined the range of the equation parameters for different soil texture in Taiwan. Six soil physical properties including bulk density, porosity, field capacity, percent of sand, percent of clay, organic matter content were correlated with α and n parameters of the van Genuchten model. Regression analysis results showed that the equation parameter α and n related the best with the loamy soil water characteristic curve, followed by sandy loam, and clay loam. The estimated regression equation were as follows: ln(α)=1.228BD+8.226*10-2f-5.868*10-2FC+4.86*10-2sand+2.885*10-2clay+0.233C-12.743 ln(n)=2.239BD+4.49*10-2f-1.243*10-2FC+4.254*10-3sand+9.193*10-3clay+1.397*10-2C-4.838 The range of the van Genuchten Model for parameter α is as 0.002734 cm-1 for sand;0.001695∼0.014591cm-1 for sandy loam;0.000460∼0.002804cm-1 for loam;0.000292∼0.017212cm-1 for clay loam;0.000247∼0.000447cm-1 for clay. Due to the parameter n was not significantly related to soil texture, its range, therefore, was not defined in this study.
Tsai, Meng-Fen, and 蔡孟棻. "Evaluating Stability of Unsaturated Soil Slope Using Soil-Water Characteristic Curve." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/24126059893850809346.
Повний текст джерела國立臺灣科技大學
營建工程系
93
Classical soil mechanics doesn’t consider the influence of the matric suction in unsaturated soils on shear strength. However, mechanics of unsaturated soils is involved in many geotechnical problems. The objective of this study is to estimate the shear strength of unsaturated soils by using a simplified method. Base on the pressure plate test, the salt solution test and the filter paper test on Linkou Terrace Lateritic Soil, the equation of complete soil-water characteristic curve is established from the regressive analysis. At last, the shear strength of unsaturated soil estimated from the soil-water characteristic curve is used in the numerical analysis. The results indicate that a reasonable complete soil-water characteristic curve can be established from the pressure plate test and the salt solution test. Key parameters determined from the soil-water characteristic curve are Air Entry Suction(ua-uw)a=290kPa, Residual Matric Sucion(ua-uw)r=21000kPa, Saturated Volumetric Water content θs =0.54, Residual Volumetric Water content θr=0.0216. It is more reasonable to analyze the slide behavior of the unsaturated soil slope by using the shear strength estimated from soil-water characteristic curve. Compared to using the shear strength obtained from the traditional triaxial unsaturated unconfining undrained (UUU) shear strength test, it is more rigorous to apply the model proposed by this study while analyzing the stability of the unsaturated soil slope.
Hung, Hung-ming, and 洪銘鴻. "Stability Analysis of Unsaturated Colluvium Soil Slope Using Soil-Water Characteristic Curve." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/57318747494376449095.
Повний текст джерела國立臺灣科技大學
營建工程系
98
Former studies have indicated that unstable slope locating near the watershed of a reservoir is often covered by unsaturated colluvium soils. During the dry season, high matric suction exists in the ground and maintains its stability. However, after rainfall the collapse of soil slope can occur due to infiltration and saturation of the surface soils. In order to understand the colluvium soil characteristics including both macroscopic and microscopic properties, this study adopts the colluvium soil samples nearby the Sha Lun Tsai landslide area in Shihmen reservoir. The variation of soil characteristics is investigated by samples taken from different location. A series of experiments including both field and lab tests were conducted. The soil water characteristic curve (SWCC) was used to estimate the unsaturated shear strength parameters. The slope stability analyses were, then, performed using STEDwin 2.64 program at various rainfall infiltration levels. In addition, this study also preliminary develops a set of stress-dependent SWCC equipment for future study to evaluate the effect of stress state on the SWCC. The test results exhibit that the colluvium soil samples of the same watershed mainly contain illite mineral with similar percentage of content. Moreover, the water retention capacity of the remold colluvium soil and undisturbed residual soil is better than that of the undisturbed colluvium soil. Slope stability analyses indicated that the factor of safety decreases with the increase in rainfall infiltration depth, and the potential slip surface becomes shallower when the infiltration depth increases. Therefore, it can be concluded that the “wetting-front” of rainfall infiltration is the most essential factor that can induce shallow slip failure of the colluvium soil slope.
SRIVASTAVA, SALONEE. "A STUDY OF MEASUREMENT OF SOIL SUCTION AND SOIL WATER CHARACTERISTIC CURVE OF UNSATURATED SOILS." Thesis, 2016. http://dspace.dtu.ac.in:8080/jspui/handle/repository/15163.
Повний текст джерелаChang, Shu-Ting, and 張舒婷. "Study of Soil Water Characteristic curve and Unsaturated Hydraulic Conductivity." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/54871029053750955698.
Повний текст джерела中興大學
水土保持學系所
95
The experimental system of hydraulic conductivity in the laboratory were setup, and the water characteristic curves were measured by pressure plate. Water characteristic curves and unsaturated hydraulic conductivity of different soil texture (sandy loam, clayey loam, loam) were obtained. The parameters of van Genuchten Model were obtained by curve fitting technique and then to calculate hydraulic conductivity. In order to understand whether this experiment could substitute for the pressure plate, and discusses the usable parameter of these three soils. The result shows that our experiment can obtain the best water characteristic curve in the clayey loam, next is the sandy loam, latter is the loam. The result of the unsaturated conductivity experiment shows that the most correct experiment is in the clayey loam, next is the loam, latter is the sandy loam. The parameters of the van Genuchten Model are α=0.00194, n=2.455; α=0.00168, n=2.695; α=0.00137, n=3.151 for sandy loam, loam and clayey loam respectively in this study.
Cheng, Ya-Jen, and 鄭雅仁. "Prediction of soil-water characteristic curve of different texture soils in Taiwan." Thesis, 2009. http://ndltd.ncl.edu.tw/handle/q39bgs.
Повний текст джерела國立臺北科技大學
土木與防災研究所
97
Soil water characteristic curve (SWCC) is an important function of unsaturated soil. It defines the volumetric water content corresponding to a particular suction in the soil. Experimental derivation of SWCC is time consuming and, hence, many scholars proposed simple models to back analyze SWCC. The models available are Burdine (1953), Gardner (1958), van Genuchten (1980), Fredlund and Xing (1994), etc.. In additional, there are also functions proposed to estimate SWCC from available soil properties such as particle-size distribution, bulk density, void rate and liquid limit. These estimation functions were referred to as pedo-transfer function (PTF) and some of the examples are Gupta and Larson (1975), Vereecken et al. (1989), Fredlund et al. (1997), Scheinost et al. (1997), Zhuang et al. (2001), and Aubertin (2003). In this study, we back analyzed the SWCC of some 185 soil specimens of different textures using the above four simple models and found that van Genuchten (1980)’s model performed best among the four models. The above six PTFs were also used to estimate the SWCC of the soil specimens. Of all PTFs, we find that Gupta and Larson PTF (1979) is the best PTF model to fit our sample.
Chen, Yi-Wen, and 陳怡雯. "Studying on soil water characteristic curve and irrigation water requirements for paddy and upland crops." Thesis, 2004. http://ndltd.ncl.edu.tw/handle/92855731761826258989.
Повний текст джерела立德管理學院
資源環境研究所
92
Since the entry into WTO, Taiwan faces the urgency of water usage regulation for agricultural water management. The soil water characteristic curve of the soil suction and soil water content is determined for reference to estimate agriculture water requirements for upland and paddy crops. Watermark and datalogger are installed at depth of 5cm, 10cm, 20cm, 30cm, 40cm, 60cm, and 90cm underneath the ground surface in the HsuehChai Experiment Station of ChaiNan Irrigation Association to collect soil suction data. Soil water gravimetric method, sandbox test, and pressure cooker test are applied to measure the soil water content. The results are applied to obtain the soil water characteristic curve, and RETC model is applied to obtain the parameters for the soil water characteristic curve: (1) θr =0.067; (2) θs =0.341; (3) α=0.0579; (4) n=2.4098; (5) m=0.585; the relative coefficient is 0.95. In other words, the soil water characteristic curve and its parameters for seven soil layer depth are obtained. Field tests are conducted at HsuehChai Experiment Station, and the experiment fields include: (1) regular paddy field irrigation area; (2) adjusted irrigation project area for paddy crop, and (3) upland crop area. The field tests are conduced for double paddy field in early July. Based on soil water characteristic curve, the water budget balance method and irrigation management model can applied to simulate crops water requirements in future work.
"Estimating the Soil-Water Characteristic Curve Using Grain Size Analysis and Plasticity Index." Master's thesis, 2011. http://hdl.handle.net/2286/R.I.9215.
Повний текст джерелаDissertation/Thesis
M.S. Civil and Environmental Engineering 2011
Chen, Wei-Chu, and 陳威竹. "Application of Particle-size Distribution Models to Estimate Soil Water Characteristic Curve Models." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/93784808018568603344.
Повний текст джерела國立中興大學
水土保持學系所
101
The soil water characteristic curve is related to soil porosity distribution. However, soil porosity distribution is greatly related to soil particle-size distribution. As such, this study will focus on soil particle-size distribution and the soil water characteristic curve. By applying the Fredlund particle-size distribution model (Fredlund, 2000) and the Fredlund and Xing water content characteristic model (the FX-model) (Fredlund and Xing, 1994), the indoor experiment data will be fitted for further estimation. During the indoor experiment, the experiment process of the soil water characteristic curve is complicated and time-consuming. To save time and labor, this study intended to estimate the soil water characteristic curve by using soil particle-size distribution. For model fitting results, both the Fredlund model (Fredlund, 2000) and FX-model have a very good fit. To estimate the soil water characteristic curve, this study uses particle-size distribution to determine the parameters of αf, nf, mf and ψγ of the FX-model and then indirectly to estimate the soil water characteristic curve. This study provides three methods for determining αf and ψγ: Case 1 – to determine the corresponding matric potential of the inflection point on the soil water characteristic curve, which is equal to αf, and ψγ is the suggested value 3000(kPa) by Fredlund (1994); Case 2 – to calculate the air-entry value and the ψγ value by using the equivalent particle diameter (DH). The air-entry value is equal to the αf value; Case 3 – to determine the corresponding effective grain diameter (dea) of the air-entry value and the corresponding effective grain diameter (der) of ψγ and then to determine αf and ψγ. Then, nf and mf are estimated by using an estimation formula based on the effective grain diameter, proposed by Fredlind (2002). For estimation results, though the success rate is not high, however the results of Case 1 and Case 3 are better than Case 2, while Case 3 is slightly better than Case 1.
Sahin, Hakan. "Characterization of Expansive Soil For Retaining Wall Design." Thesis, 2011. http://hdl.handle.net/1969.1/ETD-TAMU-2011-12-10505.
Повний текст джерелаYang, Shan-Jen, and 楊善任. "The Influence of Compaction Condition on Soil-Water Characteristic Curve of Compacted Lateritic Soils." Thesis, 2006. http://ndltd.ncl.edu.tw/handle/hw2as6.
Повний текст джерела國立臺灣科技大學
營建工程系
94
Because the water content of the in-situ soil is usually in unsaturated state which lies in between dry and fully saturated conditions. For many engineering project such as railway, highway, airport or slope engineering, compacted soils are often used. So, in the engineering analysis, it is essential to consider the influence of compaction conditions on the unsaturated soil behavior. A series of laboratory tests were conducted to determine the complete soil-water characteristic curve of the compacted lateritic soils. The engineering parameters of the compacted unsaturated soils were also evaluated by the complete soil-water characteristic curves. In addition, the influences of different Proctor energy and water content on the soil-water characteristic curve of the unsaturated compacted lateritic soils were also studied. The experimental results of show that, because the dry of optimum compacted lateritic soils exhibit massive soil structure, the initial water content is larger than that of O.M.C, wet of optimum of compacted lateritic soils and the undisturbed lateritic soils. As a result, the volumetric water content is the largest at low matric suction for the dry of optimum compacted soils. The ability of holding water is the lowest for the dry of optimum compacted soils. So, when the matric suction increases, the volumetric water content decreases significantly. As a result, its volumetric water content is lower than that of O.M.C, wet of optimum and the undisturbed soils at high matric suction. The results derived from the empirical formula and laboratory suction measurements shows that the total cohesion of lateritic soils compacted at O.M.C. is larger than that of dry of optimum and wet of optimum.
Huang, Chuan-Lung, and 黃俊龍. "Research on the Soil-Water Characteristic Curve for Residual Soils Formed from Weathered Shale." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/60120645405329153697.
Повний текст джерела國立高雄第一科技大學
營建工程研究所
99
Soil-Water Characteristic Curve can describe the behavior of unsaturated soils by estimating their parameters. Diverse soils would have distinct elements that affect the water content such as particle size distribution, soil structure, etc. Yet, these elements would influence the different evaluation of Soil-Water Characteristic Curve for various soils. This research uses Pressure Plate Test to investigate the weathered shale taken from 7 distinctive depths. Each depth would have different levels of weathering and would produce different Soil-Water Characteristic Curve. Therefore, the research probes the effect of the particle size on the Soil-Water Characteristic Curve. The research indicates that if the slope were closer to the bottom, the particle size distribution would be finer. Therefore, according to the level of weathering, the closer to the bottom, the higher level of weathering it will be. However, weathered soil is not only soil, but has some coarse grained material in them. Moreover, the coarse grained material could directly affect the available water capacity. Hence, it appears to have lesser water content in Soil-Water Characteristic Curve. At smaller suction range, soil would be influenced by the presence of coarse grained soil. When at smaller suction value, water would start to move out of the pores. It has the similar behavior of coarse grained soil. Through the comparison of particle size distribution parameter and Soil-Water Characteristic Curve regression parameter, parameter a,m,n could be affected by initial void ratio e, effective grain size D10, and, particle size distribution. Therefore, use simple physical property as the estimate of the parameter of Soil-Water Characteristic Curve formed from weathered shale.
Li, Yi-Hsien, and 李奕賢. "Application of HYDRUS-1D Model to Estimate Parameters of Soil Water Characteristic Curve Parameters." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/09696158260471921317.
Повний текст джерела國立中央大學
應用地質研究所
98
Infiltration test is an important technique to investigate the hydrologic properties in soils, while the unsaturated flow numerical models can be an efficient tool to understand flow mechanism when the physical properties and conditions of soils are changed. This study employs HYDRUS-1D model and self developed Levenberg-Marquardt algorithm to inversely estimate parameters in the van Genuchten formula. The developed LM model was tested based on the synthetically generated data from HYDRUS-1D model. Additionally, the initial guesses of soil parameters in LM model were systematically analyzed to obtain general insight into the laboratory and field scale applications. The tested model was then used to estimate soil parameters of laboratory sand box under different infiltration scenarios. During the infiltration tests, the suction or pressure and water content were measured with tensiometers TDR(Time Domain Reflectometry). Such measured data can thus be used in the LM model to estimate the soil parameters. The estimated parameters were compared with those based on trial and error approach. Field scale double-ring infiltration was tested on the river bank of Zhuoshui river near His-Luo. The saturated infiltration rate(fc), initial infiltration rate (f0), and infiltration parameter by using the in Horton formula were estimated by the developed LM model. The objective of the field scale test is to obtain the saturated infiltration rate(f0) to compare with the results of laboratory experiment. Estimate Van Genuchten parameters by combining the laboratory infiltration experiment of field soil sample and saturated infiltration parameters. The results of the study reveal that the developed LM model associated with HYDRUS-1D model can accurately estimate van Genuchten soil parameters. The results of model test shows that the lower initial guess values would lead to better estimations of residual water content (θr) and α values. The saturated hydraulic conductivity (Ks) is the most sensitive parameter while the initial guess n values are relatively insignificant. The LM inversion of tests show that LM model associated with HYDRUS-1D model can estimate accurately van Genuchten for laboratory scale tests soil parameters. The field scale multiple depth double-ring infiltration tests reveals that the saturated infiltration rates(f0) of Zhuoshui river near His-Luo have one order of magnitude difference for different depths such depth difference of hydraulic conductivity (Ks) (0.0014 and 0.00015 cm/s) were also shown in laboratory scale tests. Based on the soil sample from Zhuoshui river the sand box experiment data were then used in LM model to estimate soil parameters. This simulation results showed that the value of α is from 0.01688 to 0.09289(cm-1), the value of n from 2.528 to 5.886(-), the material of the soil can be classified as sand and silt.
Zeng, Ren-Yu, and 曾仁郁. "Effect of soil-water characteristic curve and initial potential head of soils on the stability of unsaturated soil slopes." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/84094939505170088069.
Повний текст джерела國立高雄第一科技大學
營建工程研究所
101
This research aims to present the effect of soil-water characteristic curve on the stability of unsaturated soil slopes by using the Finite Element Method PLAXIS 2D. This research employed similar geography of slope in same rainfall intensity, rainfall pattern, and 24 hours of rainfall duration, and then analyzed the result of the stability of unsaturated soil slopes. Proceed to examining on the effect between each data(hydrologic parameters:α value, m value, n value, saturated hydrologic conductivity Ksat and residual degree of saturation Sr) on the stability of unsaturated soil slopes. The experimental results indicated that the safety coefficient showed utmost variation on α value. α value is main controller of soil air-entry value(AEV) and soil relative permeability, which means the mount of matric suction and flow rate had a great effect upon the stability of unsaturated soil slopes. Nevertheless, most of customary analysis the stability of unsaturated soil slopes not only didn’t involve soil initial potential head, but also are based on the assumption to analyze it, hence; the assumption resulted in different condition between real condition frequently. In order to present similar slope, simulate data were set according to pore pressure head in different environments such as in the rain season, dry season, or according to thickness define hydrostatic profiles. Probing into the influence of different initial potential head on the stability of unsaturated soil slopes. In conclusions, the differentia of the stability of unsaturated soil slopes showed significant depend on initial potential head before rainfall.
Ke, Kai-Yuan, and 柯凱元. "Investigation of Relation between Soil Water Characteristic Curve and Consolidation by Sand Box Test and Hysteresis Modeling." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/94982313516074868692.
Повний текст джерела臺灣大學
生物環境系統工程學研究所
95
The soil volumn (or the porosity) would change with respect to natural event such as seasonal variation, precipitation, earthquake, or human activities, such as irrigation, pumping, and structure building. Two kinds of previous studies on this field:(1) the consolidation or compaction due to stress changed in the soil by natural enents or human activities, while the the water retention curve(WRC) is considered to have fixed parameters; (2) the relation between the change of porosity and hydraulic parameters of soil, because the hydraulic properties, such as the saturated hydraulic conductivity or parameters of water retention curve, of the soil must be somewhat changed due to the change in soil volume or porosity. But this kind of research barely discussed the soil water movement with respect to the change of hydraulic parameters. The purpose of this study is to find out the interactive mechanism between change of porosity, hysteresis and soil water movement. This research considers that the change of volumn or porosity in the unsaturated soil will directly influence the behavior of the water retention curve, and thus the mechanism of soil water movement. This study finds out the linear relation between the WRC parameters and the porosity of quartz sand with a WRC sand box test. Besides, a recycling water level sand box test is also conducted to study the interactive relation of water content, soil water tension and soil volumn by controlling the boundary condition to similuate the groundwater change. In the mean time, a consolidation process followed by a swelling process is found during drainage. In the infiltration simulation, while the porosity becomes smaller due to compaction, higher water content appears near the top boundary, and the wetting front depth decreases with the porosity. When top boundary flux is set to zero, the depth of the highest water content decreases with porosity. Besides, no matter the top boundary is zero flux or non-zero flux, the deepest wetting front always occurs in the soil with the highest porosity. In addition, the result of the recycling water level sand box test is verified with a hysteresis model. The results show that the repeated water level change will lead to the change of property of water retention curve and soil consolidation, indicating that the change of water content and soil water tension is caused by hysteresis, as well as change of porosity.
Ravi, K. "CHM (Chemo-Hydro-Mechanical) Behavior of Barmer-1 Bentonite in the Context of Deep Geological Repositories for Safe Disposal of Nuclear Waste." Thesis, 2013. http://etd.iisc.ac.in/handle/2005/3294.
Повний текст джерелаRavi, K. "CHM (Chemo-Hydro-Mechanical) Behavior of Barmer-1 Bentonite in the Context of Deep Geological Repositories for Safe Disposal of Nuclear Waste." Thesis, 2013. http://hdl.handle.net/2005/3294.
Повний текст джерела