Effects of Fracture Geometry on Contaminant Transport

Cianflone, Sean Philip Leonard

20 November 2015

An invasion percolation (IP) model was used to illustrate the effects of gravity on DNAPL migration into a horizontal water saturated fracture. While gravity is typically neglected in the conventional approach, this work demonstrated that gravity should often be included when modelling DNAPL invasion in water saturated fractures and provides an equation estimating the difference in invasion pattern between simulations including or neglecting gravity. The IP model was further utilized to examine the invasion of DNAPL saturated fractures by water. These simulated experiments focus on cases where covariance (COV), the ratio of the mean of the aperture field to the standard deviation of the aperture field) as well as when the fracture is inclined or declined from horizontal. Results show that when COV is greater than 0.1, then DNAPL will always remain in the fracture after waterflooding. Furthermore, fracture angles below -15 degrees permit the complete removal of DNAPL, while fractures oriented at higher angles do not. In order to study the transport of particles in water saturated fractures, physical experiments measuring the transport of 0.046 um and 0.55 um microspheres were undertaken on fractures where the geometry could be imported into a computer for comparative simulation analysis. Results demonstrated that during advection, particles generally travel at less than the velocity of the surrounding fluid. As well, hydrodynamic effects such as shear were shown to influence the effluent concentrations by increasing dispersion. Finally, the physical geometry of the fracture was shown to influence the particle pathway during transport and can limit the chances of particles adhering to a fracture wall, thus reducing dispersion and increasing peak concentration. The combined results of these studies show that fracture geometry has a significant effect on the mechanisms of transport in saturated fractures. / Thesis / Doctor of Philosophy (PhD) / This thesis describes the transport of contaminants in rock fractures in the environment. Specifically, the transport of denser than water liquids that are immiscible in water and particles are modelled and analysed. This work used experiments in order to calibrate these models for analysis. It was found that the local geometry of the fracture walls heavily influences the invasion pattern of immiscible dense fluids as well as the retention of the fluids after waterflooding (a first step in remediation). Particle transport was found to be heavily affected by the local geometry in the fracture, specifically lowering the likelihood of attachment to fracture walls limiting the filtration effects, and thus allowing greater contaminants to exit the fracture. Ultimately, these results lead to a greater understanding of the mechanisms of transport in fractured media.

hydrology

contaminant transport

DNAPL

particle

modelling

invasion percolation

Development of in vitro models of invasion for the pharmacological investigation of small molecule inhibitors of tumour progression. Development and validation of a 3-dimensional tumour spheroid invasion model to evaluate the pharmacological effects of novel small molecule β3 integrin antagonists.

Zraikat, Manar Saleh Ali

January 2015

Tumour dissemination is a major reason for failure of therapy for many tumour types therefore there is a requirement for novel targets & therapies. The αIIbβ3 and αvβ3 integrins have been demonstrated to have significant involvement at many stages of the tumour dissemination process including, tumour cell adhesion, migration, metastasis and angiogenesis, and thus the β3 integrins are a potential target for therapeutic antagonism with small molecules. Because of the clear interaction between the different integrin types, targeting integrins as a therapeutic strategy requires targeting more than one integrin type. Consequently, the ICT is developing a group of novel new αIIbβ3 and αvβ3 integrin dual antagonists. One of the main challenges is having a relevant, validated experimental model that expresses these integrins. The aim of the work presented here is to develop and validate an in vitro αIIbβ3 and αvβ3 integrin expressing assay of tumour cell invasion. The spheroid invasion assay has the advantage over standard monolayer transwell chamber invasion assays of being a 3-dimensional assay, and thus mimics better the cell-cell interactions and architecture that are present in a tumour compared to the monolayer-based assay. A panel of human cancer cell lines known to express one of the molecular targets of interest, αvβ3 integrin was evaluated for the ability to form spheroids and to invade through collagen matrices. One glioma cell line, U87-MG, demonstrated consistent spheroid formation and invasion and was thus selected for further studies. Optimum conditions were established for use of U87-MG in the invasion assay, and the assay was validated using a known inhibitor of invasion, LiCl and known β3 antagonist, cRGDfV. Subsequently a group of novel small molecule β3 antagonists were evaluated at nontoxic concentrations using the assay. Both LiCl and cRGDfV inhibited spheroid invasion through the gel in a dose-dependent manner, thus validating the assay. Furthermore, when the novel small molecule β3 antagonists were evaluated using the model, a dose and time dependent reduction in U87-MG spheroids invasion in collagen was observed. In further work initial steps were taken to construct a cell line which expresses both αIIbβ3 and αvβ3 integrin to use in the model to assess for dual integrin antagonism. In conclusion, this work has established a validated assay which has been utilised for some compounds to evaluate a group of novel small molecule β3 integrin antagonists with encouraging results.

Monsters Like Us: Reexamining “Invasion of the Body Snatchers” Through the Decades

Norton, Elizabeth Harmon

05 1900

The purpose of this paper is to examine the multiple versions of "Invasion of the Body Snatchers" in concert and determine the reason for their continued presence in the American cultural landscape. To do so I will look at the novel and four films and examine the context in which they were created. In reexamining the novel and films, a central theme begins to emerge: interiority. Fear in "Invasion of the Body Snatchers" moves from an external to an internal threat. The bodily locus of the monstrous other has been re-purposed and re-projected outward. The internal nature of the monstrous threat is displayed in the narrative’s use of production and distribution, mental health professionals, pseudo-families, and the vilification of sleep. Finally, this paper will examine the studio influence on the various films and their impact on the relative endings.

Invasion of the Body Snatchers

fear

1950s

1970s

1990s

2000s

American literature

Finney, Jack. Body snatchers

Invasion (Motion picture)

Body snatchers (Motion picture)

Fear in literature

Fear in motion pictures

Application of in-situ spectroscopic techniques to the study of electrochemical processes

Sandifer, Marnita Elizabeth

January 1995

No description available.

Chemistry, Physical

salmonella typhimurium

intestinal epithelial cells

invasion locus.

Erythrocyte Biology and its Impact on <i>Plasmodium vivax</i> Invasion

Scheetz, Emily

16 July 2008

No description available.

Biomedical Research

Parasitology

Plasmodium vivax

erythrocyte

malaria

parasite invasion

reticulocyte

Revised Correlations of the Ordovician (Katian, Richmondian) Waynesville Formation of Ohio, Indiana and Kentucky

Aucoin, Christopher D.

January 2014

No description available.

Geology

Cincinnatian

Epibole

Brachiopods

Richmondian Invasion

Sequence Stratigraphy

Regional Truncation

Inhibition of Cell Invasion by Targeting PLD

Farkaly, Terry C.

16 December 2010

No description available.

Molecular Biology

PLD

cell invasion

inhibition

lipase activity

mtln3

Positive and negative regulators of tumorigenesis and/or metastasis

Datar, Ila

January 2015

No description available.

Biomedical Research

Biochemistry

Predicting the Effects of Emerald Ash Borer on Hardwood Swamp Forest Structure and Composition in southern Michigan

Bowen, Anna Kate Miller

10 August 2015

No description available.

Biology

Botany

Ecology

Invasion Biology

Emerald Ash Borer

Community dynamics

Influence of Sphingosine 1-Phosphate receptor subtypes on glioblastoma multiforme malignant behavior

Young, Nicholas Adam

20 September 2007

No description available.

sphingosine 1-phosphate

glioma

glioblastoma multiforme

invasion

sphingolipids

cancer