Frost Heave: New Ice Lens Initiation Condition and Hydraulic Conductivity Prediction

Azmatch, Tezera Firew

Unknown Date

No description available.

Frost heave

Frozen fringe

Ice lens

hydraulic conductivity

soil freezing characteristic curve

frozen soil

Devon silt

The behaviour of melt water within a glacial system

Tingdal, Love, Ceder, Nils

January 2017

A glacier contains of many different layers of different properties. Each layer is formed during a calendar year similar to tree rings and their layers. A glacier has two different zones, the first one referred to as accumulation zone, where the addition of snow exceeds the loss of snow. The second, the ablation zone, is the zone where the loss of snow exceeds the addition of snow. These two zones are divided by the equilibrium line, where the addition of snow equals the loss of snow. Lenses of ice, caused by the summer melt, usually divide the horizontal layers within the glacier from one another. During the winter, snow will accumulate on top of the glacier and during the upcoming summer, the same snow will partly melt due to solar radiation. Some of this meltwater will penetrate the ice lenses and the layers of snow beneath, while some of it will refreeze as the winter once again returns. As the seasons change, freshly fallen snow will be compacted and somewhat water saturated. Compaction will lead to air passages being sealed off into separate air bubbles, which also leads to a change in density; a fixed volume gets heavier due to ongoing compaction. Snow that gets compacted turns into firn which has a larger mass per volume than snow does. Further compaction leads to glacier ice. The purpose of this study is to determine what effect the ice lenses has on the permeating meltwater and whether differences in snow density have similar effects. To achieve this purpose, a glacier was simulated inside a freezing room, with the help of a box that was packed with a few layers of snow. The amount of layers represented the same amount of years for a natural glacier. The experiment was performed twice, once without ice lenses but with varying densities and once with ice lenses but with similar densities. The very top layer was dyed red to track the descending meltwater accurately. To cause the melting, five infrared lamps were used to simulate solar radiation on the very top. / En glaciär består av många olika lager med olika egenskaper. Var lager uppstår under ett kalenderår likt trädringar och de lager de består av. En glaciär har två olika zoner. Den första benämns som ackumulationszonen, där tillförseln av snö överskrider förlusten av snö. Den andra, ablationszonen, är den zon där förlusten av snö överstiger tillförseln av snö. Dessa två zoner skiljs åt av jämviktslinjen, där tillförseln av snö är lika med förlusten av snö. Islinser, som skapas av sommarens smältvatten, skiljer oftast de horisontella lagrena inom glaciären åt. Under vinterhalvåret ansamlas snö på glaciärytan och smälter delvis under sommaren av värme från solen. En del av detta smältvatten penetrerar islinserna och den underliggande snön, medan en del av det åter smälter under vintern. När säsongerna ändras kompakteras snön och blir delvis vattenmättad. Kompaktion leder till att passager inom isen separeras till enskilda luftbubblor, vilket också ökar densiteten; en specifik volym får högre massa på grund av ett ökat tryck. Snö som kompakteras övergår till firn, vilket har högre massa i förhållande till volymen än vad snö har. Fortsatt kompaktion leder till att firnen övergår till en glaciäris. Syftet med denna studie är att bestämma vilken effekt islinser har på perkolerande smältvatten och om skillnader i densitet hos snö har liknande påverkan. För att uppnå detta syfte simulerades en glaciär i ett frysrum, med hjälp av en låda som packades med några lager snö. Mängden lager representerade samma antal år i en naturlig glaciär. Experimentet utfördes två gånger, en gång utan islinser men med varierande densitet och en gång med islinser men med liknande densitet. Det översta lagret färgades rött för att kunna undersöka det sjunkande smältvattnet exakt. För att ge upphov till smältan användes fem infraröda lampor för att representera solens strålar längs ytan.

meltwater

percolation

ice lens

glacier

smältvatten

perkolation

islins

glaciär

Physical Geography

Naturgeografi

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Laboratory Investigations of Frost Action Mechanisms in Soils

Dagli, Deniz

January 2017

Phase change of the water in the soil skeleton under cold climate conditions (also known as frost action in soils) affects soil properties and can be responsible for serious alterations in a soil body; causing damages (due to the volumetric expansion known as frost heave) to structures on or below the ground surface such as foundations, roads, railways, retaining walls and pipelines, etc. In order to improve the current design methods for roads against frost action, the Swedish Transport Administration (Trafikverket) has initiated a research program. The main goals of the program are to revise the existing frost heave estimation methods and improve the frost susceptibility classification system for subgrade soils. Literature was reviewed to gather the details of different freezing test equipment around the world and to identify common trends and practices for laboratory freezing tests. Based on the literature review and the collaboration with the University of Oulu, Finland an experimental apparatus was assembled for studying frost action in the laboratory. A detailed description of the experimental apparatus is given. Top to down freezing of specimens (of 10cm height and diameter) can be monitored while keeping track of water intake, vertical displacements (heave) and the temperature profile within the sample. Loads can be applied at the top of the sample to study the effects of overburden. Moreover, the test setup was modified with a camera system to have the option of recording the experiments. Disturbed samples of two different soil types were tested. Experiments with fixed and varying temperature boundary conditions were conducted to assess the validity of the assumptions for the frost heave estimation methods currently in use in Sweden. To this end, a qualitative relationship between frost heave and heat extraction rates based on theoretical equations was established. It was shown that there is a significant difference between the preliminary findings of the experimental work and the current system being used in Sweden to quantify heave. Image analysis techniques were used on two experiments that were recorded by the camera system. Image recording and correlation analyses provided detailed information about frost front penetration and ice lens formation(s) under varying temperature boundary conditions. Thawing has also been regarded in further studies. Results of the image analyses were compared to readings from conventional displacement measurements during the same test. Significant agreement between the results of image analyses and displacement measurements has been found. Image analysis was shown to be a viable method in further understanding of frost heave mechanisms. Shortcomings and disadvantages of utilizing the theoretical equations as well as the image analysis techniques were discussed. Potential remedies for overcoming the drawbacks associated with each approach are suggested. The work is concluded by discussing the potential improvements, planned upgrades (addition of pore pressure transducers) and the future experiments to be conducted.

Cold Regions Soil Mechanics

Frost Action

Frost Depth

Frost Heave

Heat Flow in Soils

Ice Lens Formation

Image Analysis

Laboratory Freezing Test

Geotechnical Engineering

Geoteknik

Post-Depositional Effects Modifying the Relationships between Stable Isotopes and Air Temperature in an Alpine Ice Core

Ihle, Alexander C.

January 2021

No description available.

Earth

Environmental Science

Geography

Geology

Paleoclimate Science

ice core

Ortles

paleoclimate

Italy

Alps

post depositional effects

EISModel

pollen chronology

red reflectance

ice lens

2003 European Heatwave

d18O

Laboratory Investigations of Frost Action Mechanisms in Soils

Dagli, Deniz

January 2017

Phase change of the water in the soil skeleton under cold climate conditions (also known as frost action in soils) affects soil properties and can be responsible for serious alterations in a soil body; causing damages (due to the volumetric expansion known as frost heave) to structures on or below the ground surface such as foundations, roads, railways, retaining walls and pipelines, etc. In order to improve the current design methods for roads against frost action, the Swedish Transport Administration (Trafikverket) has initiated a research program. The main goals of the program are to revise the existing frost heave estimation methods and improve the frost susceptibility classification system for subgrade soils. Literature was reviewed to gather the details of different freezing test equipment around the world and to identify common trends and practices for laboratory freezing tests. Based on the literature review and the collaboration with the University of Oulu, Finland an experimental apparatus was assembled for studying frost action in the laboratory. A detailed description of the experimental apparatus is given. Top to down freezing of specimens (of 10cm height and diameter) can be monitored while keeping track of water intake, vertical displacements (heave) and the temperature profile within the sample. Loads can be applied at the top of the sample to study the effects of overburden. Moreover, the test setup was modified with a camera system to have the option of recording the experiments. Disturbed samples of two different soil types were tested. Experiments with fixed and varying temperature boundary conditions were conducted to assess the validity of the assumptions for the frost heave estimation methods currently in use in Sweden. To this end, a qualitative relationship between frost heave and heat extraction rates based on theoretical equations was established. It was shown that there is a significant difference between the preliminary findings of the experimental work and the current system being used in Sweden to quantify heave. Image analysis techniques were used on two experiments that were recorded by the camera system. Image recording and correlation analyses provided detailed information about frost front penetration and ice lens formation(s) under varying temperature boundary conditions. Thawing has also been regarded in further studies. Results of the image analyses were compared to readings from conventional displacement measurements during the same test. Significant agreement between the results of image analyses and displacement measurements has been found. Image analysis was shown to be a viable method in further understanding of frost heave mechanisms. Shortcomings and disadvantages of utilizing the theoretical equations as well as the image analysis techniques were discussed. Potential remedies for overcoming the drawbacks associated with each approach are suggested. The work is concluded by discussing the potential improvements, planned upgrades (addition of pore pressure transducers) and the future experiments to be conducted. / Modellering av tjällossningsförlopp vid vägdimensionering

Cold Regions Soil Mechanics

Frost Action

Frost Depth

Frost Heave

Heat Flow in Soils

Ice Lens Formation

Image Analysis

Laboratory Freezing Test

Geotechnical Engineering

Geoteknik

Namrzavost nestmelených směsí vozovek pozemních komunikací / The frost susceptibility of unbound mixtures to pavements

Surá, Kateřina

January 2016

The thesis is focused on the analysis of the theoretical part of the unbound mixtures, their implementation and compliance. Further deals with determining the extent frost susceptibility direct and indirect method in the Czech Republic and the Member States of the European Union. The practical part is focused on the performance of tests on selected samples of unbound mixtures for which was gradually increased the content of fine particles and that direct and indirect method of determining the rate of frost susceptibility and also the evaluation of direct methods of particular customized way, which does not impose the appropriate standard. At the conclusion of the work is carried out an evaluation of the samples and comparison of the different methods with each other.