CFD Flame Spread Model Validation: Multi-Component Data Set Framework

Wong, William Chiu-Kit

30 July 2012

"Review of the literature shows that the reported correlation between predictions and experimental data of flame spread vary greatly. The discrepancies displayed by the models are generally attributed to inaccurate input parameters, user effects, and inadequacy of the model. In most experiments, the metric to which the model is deemed accurate is based on the prediction of the heat release rate, but flame spread is a highly complex phenomenon that should not be simplified as such. Moreover, fire growth models are usually made up of distinctive groups of calculation on separate physical phenomena to predict processes that drive fire growth. Inaccuracies of any of these “sub-models” will impact the overall flame spread prediction, hence identifying the sources of error and sensitivity of the subroutines may aid in the development of more accurate models. Combating this issue required that the phenomenon of flame spread be decomposed into four components to be studied separately: turbulent fluid dynamics, flame temperature, flame heat transfer, and condensed phase pyrolysis. Under this framework, aspects of a CFD model may be validated individually and cohesively. However, a lack of comprehensive datasets in the literature hampered this process. Hence, three progressively more complex sets of experiments, from free plume fires to fires against an inert wall to combustible wall fires, were conducted in order to obtain a variety of measurements related to the four inter-related components of flame spread. Multiple permutations of the tests using different source fuels, burner size, and source fire heat release rate allowed a large amount of comparable data to be collected for validation of different fire configurations. FDS simulations using mostly default parameters were executed and compared against the experimental data, but found to be inaccurate. Parametric study of the FDS software shows that there are little definitive trends in the correlation between changes in the predicted quantities and the modeling parameters. This highlights the intricate relationships shared between the subroutines utilized by FDS for calculations related to the four components of flame spread. This reveals a need to examine the underlying calculation methods and source code utilized in FDS."

fiber reinforced plastic

FRP

pyrolysis

heat flux

plume velocity

plume temperature

2-D flame spread

flame spread rate

Flame spread

free plume

inert wall

combustible wall panel

fire modeling

CFD

experimental data

dataset

turbulent buoyant fluid flow

gas phase kinetics

flame heat transfer

condensed-phase pyrolysis

Geochemical monitoring of soil pollution from the MWS-5 gold tailings facility on the Farm Stilfontein / Angelique Daniell

Daniell, Angelique

January 2015

The rehabilitation and restoration of degraded landscapes adjacent to gold tailings disposal facilities (TDFs) that have suffered loss of efficiency through anthropogenic forces has become a primary concern to environmental sciences and management in recent decades. Due to the lack of environmental legislation and enforcement thereof, minimal surface rehabilitation took place on the Mine Waste Solutions (MWS) No. 5 TDF prior to 1992, a commonplace occurrence in South Africa at the time. In 2000, MWS intervened and committed to the rehabilitation of the entire site with profits generated by the reprocessing (extraction of residual gold and uranium) of certain TDFs. However, the adjacent grazing land north of the MWS No. 5 TDF had already been subjected to pollution from the TDF which resulted in a pollution plume on the land. Although it has been inactive since April 2011, the pollution plume can be seen from the north-eastern corner of MWS No. 5 TDF, with a north-eastern/south-western direction on the farm Stilfontein. During dry periods, significant amounts of sulphate salts accumulate on the soil surface on the farm Stilfontein over a distance of at least 3.5 km from the TDF. The presence of sulphate salts in association with gold TDFs is highly common but not particularly common, in the chert-poor dolomites of the Oaktree Formation itself, in which the presence of sulphate salts is a rarity. The primary concern of this study was to determine both the quantitative and extent of the pollution observed on the farm Stilfontein over a period of 30 months via monthly monitoring of the different soil geochemical assessments across twelve fixed points, and quarterly interval assessments of three transect lines. In addition, the study was also concerned with the identification of potential linear structure anomalies associated with the pollution plume and weathered zones (fractures, joints and cavities) in the Oaktree Formation dolomites. These zones may be associated with, or may result in, the pollution extending over the area despite a topography as well as geological dip and strike that is adverse. These features and weathered zones create pathways for groundwater to flow and it was anticipated that, if present, these anomalies and weathered zones may be primary contributing factors to the pollution plume forming in a north-easterly direction and extending over the farm Stilfontein. The MWS No. 5 TDF has a hydraulic pressure head of approximately 40 m; the elevations of the north-eastern corner of the TDF and fixed point (FP) 8 (the farthest FP from the TDF) are 1368 m and 1360 m respectively, falling in close range of each other. It is anticipated that as the TDF material dries, the phreatic water level inside the TDF will lower; causing the pressure exerted by the hydraulic head of the TDF to lower over time, which will eventually end the pollution process on the soil. This study discusses the results of a holistic approach towards the evaluation of soil, vegetation and water pollution by utilizing soil quality parameters and indicators, geohydrology, geophysical surveys, Landscape Function Analysis (LFA) and other means of vegetation assessments. Salt accumulation on the soil surface was common in specific areas from 2010 – 2012. X ray diffraction (XRD) analyses confirmed that the salts originated from the No. 5 TDF due to the similarity in mineralogy. The pH values from the start of the 30-month monitoring period remained neutral to slightly alkaline due to the neutralising effect of the dolomitic bedrock. The electrical conductivity (EC) values of the soil decreased significantly from 2010 to 2014; during dry seasons since 2012, no sulphate salts accumulated on the soil surface. Joints, fractures and cavities were found within the bedrock dolomites which created pathways for the polluted TDF water and groundwater to flow towards the study area. It was also established that there were no adverse effects on the natural vegetation, other than encroachment by Seriphium plumosum which affected the grazing quality (overgrazed sites) of the area. It was therefore concluded that after the TDF became dormant in April 2011, the pollution plume in this area is decreasing in magnitude and severity due the lowering of the phreatic water level inside the TDF to significantly lower levels. Consequently, the decrease of the hydraulic pressure head of the TDF as well as rainwater infiltration and high percolation due to the presence of fractures, joints and cavities in the dolomites resulted in the leaching of the sulphate salts to a significant extent. It was also concluded that while there were no apparent adverse effects of the pollution on the functionality of the land, additional monitoring and maintenance would be required for at least the next five years in order to ensure the continuance of current conditions. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Pollution plume

Gold tailings disposal facility

Adjacent land

Dolomites

Long-term monitoring

Besoedelde area

Goud uitskothoop

Aangrensende landskap

Dolomiete

Lang-termyn monitering

Geochemical monitoring of soil pollution from the MWS-5 gold tailings facility on the Farm Stilfontein / Angelique Daniell

Daniell, Angelique

January 2015

The rehabilitation and restoration of degraded landscapes adjacent to gold tailings disposal facilities (TDFs) that have suffered loss of efficiency through anthropogenic forces has become a primary concern to environmental sciences and management in recent decades. Due to the lack of environmental legislation and enforcement thereof, minimal surface rehabilitation took place on the Mine Waste Solutions (MWS) No. 5 TDF prior to 1992, a commonplace occurrence in South Africa at the time. In 2000, MWS intervened and committed to the rehabilitation of the entire site with profits generated by the reprocessing (extraction of residual gold and uranium) of certain TDFs. However, the adjacent grazing land north of the MWS No. 5 TDF had already been subjected to pollution from the TDF which resulted in a pollution plume on the land. Although it has been inactive since April 2011, the pollution plume can be seen from the north-eastern corner of MWS No. 5 TDF, with a north-eastern/south-western direction on the farm Stilfontein. During dry periods, significant amounts of sulphate salts accumulate on the soil surface on the farm Stilfontein over a distance of at least 3.5 km from the TDF. The presence of sulphate salts in association with gold TDFs is highly common but not particularly common, in the chert-poor dolomites of the Oaktree Formation itself, in which the presence of sulphate salts is a rarity. The primary concern of this study was to determine both the quantitative and extent of the pollution observed on the farm Stilfontein over a period of 30 months via monthly monitoring of the different soil geochemical assessments across twelve fixed points, and quarterly interval assessments of three transect lines. In addition, the study was also concerned with the identification of potential linear structure anomalies associated with the pollution plume and weathered zones (fractures, joints and cavities) in the Oaktree Formation dolomites. These zones may be associated with, or may result in, the pollution extending over the area despite a topography as well as geological dip and strike that is adverse. These features and weathered zones create pathways for groundwater to flow and it was anticipated that, if present, these anomalies and weathered zones may be primary contributing factors to the pollution plume forming in a north-easterly direction and extending over the farm Stilfontein. The MWS No. 5 TDF has a hydraulic pressure head of approximately 40 m; the elevations of the north-eastern corner of the TDF and fixed point (FP) 8 (the farthest FP from the TDF) are 1368 m and 1360 m respectively, falling in close range of each other. It is anticipated that as the TDF material dries, the phreatic water level inside the TDF will lower; causing the pressure exerted by the hydraulic head of the TDF to lower over time, which will eventually end the pollution process on the soil. This study discusses the results of a holistic approach towards the evaluation of soil, vegetation and water pollution by utilizing soil quality parameters and indicators, geohydrology, geophysical surveys, Landscape Function Analysis (LFA) and other means of vegetation assessments. Salt accumulation on the soil surface was common in specific areas from 2010 – 2012. X ray diffraction (XRD) analyses confirmed that the salts originated from the No. 5 TDF due to the similarity in mineralogy. The pH values from the start of the 30-month monitoring period remained neutral to slightly alkaline due to the neutralising effect of the dolomitic bedrock. The electrical conductivity (EC) values of the soil decreased significantly from 2010 to 2014; during dry seasons since 2012, no sulphate salts accumulated on the soil surface. Joints, fractures and cavities were found within the bedrock dolomites which created pathways for the polluted TDF water and groundwater to flow towards the study area. It was also established that there were no adverse effects on the natural vegetation, other than encroachment by Seriphium plumosum which affected the grazing quality (overgrazed sites) of the area. It was therefore concluded that after the TDF became dormant in April 2011, the pollution plume in this area is decreasing in magnitude and severity due the lowering of the phreatic water level inside the TDF to significantly lower levels. Consequently, the decrease of the hydraulic pressure head of the TDF as well as rainwater infiltration and high percolation due to the presence of fractures, joints and cavities in the dolomites resulted in the leaching of the sulphate salts to a significant extent. It was also concluded that while there were no apparent adverse effects of the pollution on the functionality of the land, additional monitoring and maintenance would be required for at least the next five years in order to ensure the continuance of current conditions. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Pollution plume

Gold tailings disposal facility

Adjacent land

Dolomites

Long-term monitoring

Besoedelde area

Goud uitskothoop

Aangrensende landskap

Dolomiete

Lang-termyn monitering

Diviser par zéro : art poétique et lecteur anticipé dans l’œuvre chantée de Plume Latraverse

Desroches, Raphaël

04 1900

Ce mémoire porte sur l’œuvre chantée de Michel Latraverse, dit Plume. Nous y définissons le projet esthétique de cet auteur-compositeur-interprète en nous questionnant sur l’auditeur anticipé dans ses chansons. D’une part, nous constatons que Latraverse mise sur une forme d’hybridité quand il se définit en tant qu’artiste. L’hétérogénéité de ses influences lui permet d’explorer un grand nombre de styles musicaux et d’aborder une multitude de sujets. Dans ses textes, il cherche le beau à travers la simplicité et la bassesse du quotidien. Cependant, il tend malgré tout à exposer la laideur du monde en développant un réflexe d’exclusion qui n’épargne personne, brisant par le fait même toutes les solidarités. D’autre part, à l’aide des théories de la lecture, nous montrons que Latraverse, en puisant à la fois aux cultures savante et populaire, et malgré ses réflexes d’exclusion, rend possible un rapprochement entre des lecteurs aux compétences parfois très inégales. À la fin, nous concluons que Plume Latraverse opère un rabaissement systématique de l’humain afin d’en ramener l’existence à sa plus simple expression, physique et corporelle. C’est ainsi qu’il crée une communauté du bas où chacun a sa place et au sein de laquelle l’exclusion n’est plus possible. / The object of this master’s dissertation is the musical work of Michel Latraverse, also known as Plume. By identifying the anticipated listener of this singer-songwriter’s songs, we will define his aesthetic project. We will first note how Latraverse, when defining himself as an artist, relies on a certain hybridity. His influences are diverse and varied, and thus allow him to explore different musical styles and topics. His writings explore beauty within every day life’s simplicity and commonness. However, by putting forth an exclusion reflex from which no one is safe, Latraverse also tends to expose life’s ugliness. We will then show, using reader-response criticism theories, how Latraverse draws from both popular and learned cultures and thus, in spite of his exclusion reflex, allows readers of sometimes very different proficiency to reconcile. All this will allow us to conclude that Plume Latraverse systematically belittles man in order to bring him back to his most humble physical and corporal expression. He thus creates a community of the lowly where each find their place and where exclusion is no longer possible.

Plume Latraverse

chanson québécoise

lecture

culture populaire

hybridité

communauté du bas

Quebec song

reading

popular culture

hybridity

community of the lowly

Navier/Stokes/Direct Simulation Monte Carlo Modeling of Small Cold Gas Thruster Nozzle and Plume Flows

Nanson III, Richard A

24 April 2002

This study involves the modeling of small cold-gas (N2) thrusters nozzle and plume flows, their interactions with spacecraft surfaces and the induced pressure environment. These small cold-gas thrusters were used for pitch, yaw and roll control and were mounted on the bottom of the conical Environmental Monitor Payload (EMP) suborbital spacecraft. The pitch and yaw thrusters had 0.906 mm throat diameter and 4.826 mm exit diameter, while the roll thrusters had 1.6 mm throat diameter and 5.882 mm exit diameter. During thruster firing, at altitudes between 670 km and 1200 km, pressure measurements exhibited non-periodic pulses (Gatsonis et al., 1999). The pressure sensor was located inside the EMP and was connected to it's sidewall with a 0.1-m long, 0.022-m diameter tube and the pressure pulses appeared instantaneously with the firings for thrusters without a direct line-of-sight with the sensor entrance. Preliminary analysis showed that the plume of these small EMP thrusters undergoes transition from continuous to rarefied. Therefore, nozzle and plume simulations are performed using a combination of Navier-Stokes and Direct Simulation Monte Carlo codes. This study presents first a validation of the Navier-Stokes code Rampant used for the continuous EMP nozzle and plume simulations. The first Rampant validation example involves a two-dimensional axisymetric freejet expansion and is used to demonstrate the use of Bird's breakdown parameter. Results are compared favorably with those of Bird (1980) obtained through the method of characteristics. The second validation example involves three-dimensional plume simulations of a NASA thruster. This nitrogen nozzle has a throat diameter of 3.18 mm, an exit diameter of 31.8 mm, half-angle of 20 degrees, stagnation temperature of 699 K, stagnation pressure of 6,400 Pa. Simulation results are compared favorably with previous Navier-Stokes and Direct Simulation Monte Carlo numerical work. The third validation example involves three-dimensional simulations of Rothe's (1970) nozzle that has a throat diameter of 2.5 mm, an exit diameter of 20.3 mm, half-angle of 20 degrees, operating at stagnation temperature of 300 K and pressure of 1975 Pa. Numerical results also compared favorably to experimental data. The combined Navier-Stokes/DSMC approach and the EMP simulation results are presented and discussed. The continuous part of the EMP nozzle and plume flow is modeled using the three-dimensional Navier-Stokes Rampant code. The Navier-Stokes domain includes the geometry of the nozzle and the EMP base until transition of the continuous flow established by Bird's breakdown parameter. The rarefied part of the plume flow is modeled using the Direct Simulation Monte Carlo code DAC. Flowfield data obtained inside the breakdown surface from the Navier-Stokes simulation are used as inputs to the DSMC simulations. The DSMC domain includes the input surface and the EMP spacecraft geometry. The combined Navier-Stokes/DSMC simulations show the complex structure of the plume flow as it expands over the EMP surfaces. Plume reflection and backflow are demonstrated. The study also summarizes findings presented by Gatsonis et al. (2000), where the DSMC predictions at the entrance of the pressure sensor are used as inputs to a semi-analytical model to predict the pressure inside the sensor. It is shown that the pressure predictions for the pitch/yaw thrusters are close to the measurements. The plume of a pitch or yaw thruster reaches the pressure sensor after expanding on the EMP base. The pressure predicted for the roll thruster is larger that the measured. This is attributed to the uncertainty in the roll thruster location on the EMP base resulting, in the simulation, in a component of direct flow to the sensor.

CFD

Computational Fluid Dynamics

Plume

Nozzle

DSMC

Numerical Modelling

Plumes (Fluid dynamics)

Mathematical models

Nozzles (Fluid dynamics)

Mathematical models

Navier-Stokes equations

Monte Carlo method

Thermal instabilities in a yield-stress fluid : from the laboratory to the planetary scale / Instabilités thermiques dans un fluide à seuil : de l'échelle du laboratoire à celle de la planète

Massmeyer, Anna

27 May 2013

Des panaches sont connus pour migrer à travers le manteau ductile et quasi-Newtonien ; alors que les dikes se fracturent et se propagent dans la lithosphère solide. Cependant, la lithosphère est en fait visco-élastique. Afin de déterminer ce qui se passe dans ce cas complexe, nous avons réalisé une étude expérimentale et numérique sur le développement de panaches thermiques dans des solutions aqueuses de Carbopol, un gel de polymères formant un réseau continu d'éponges microscopiques. Ce fluide est rhéofluidifiant et présente un seuil de contrainte σ₀, de sorte que l'écoulement ne se produit que si la contrainte locale dépasse cette valeur critique σ₀. En dessous de cette valeur, le fluide agit comme un solide élastique. Les propriétés rhéologiques des solutions peuvent être systématiquement ajustées en variant la concentration de Carbopol. Le dispositif consiste en une source locale de chaleur de puissance constante placée au centre d'une cuve cubique. Selon la valeur du rapport entre la contrainte d'origine thermique et la contrainte seuil, Y₀, on peut observer trois régimes différents. A faible Y₀<Yc₁, aucun mouvement n'est détecté ; tandis que pour Yc₁<Y₀<Yc₂ une cellule se développe, puis évolue vers un panache pour Y₀>Yc₂. Nous montrons que les paramètres critiques (Yc₁,Yc₂) dépendent fortement de la géométrie du chauffage. Des mesures simultanées de température et de champs de vitesse montrent que la morphologie du panache ressemble à un doigt, contrairement à la forme de champignon rencontrée dans les fluides newtoniens. Utilisant des simulations numériques avec une description purement visqueuse, où la rhéologie du fluide est décrite par un modèle de Herschel-Bulkley régularisé, sont suffisantes pour rendre compte de la dynamique du panache. Une étude détaillée des paramètres indiquent que la dynamique du panache est gouvernée par la compétition entre la contrainte seuil, la contrainte induite par la flottabilité et les contraintes visqueuses. Nous avons identifié deux paramètres adimensionnés : le paramètre seuil Ψ comparant la contrainte induite par la flottabilité et la contrainte seuil, et le nombre de Bingham Bi comparant la contrainte seuil et les contraintes visqueuses. Un panache ne peut s'élever que si les deux paramètres sont supercritiques, i.e. la contrainte induite par la flottabilité et les contraintes visqueuses sont plus importantes que la contrainte seuil. Par conséquent, le panache peut s'arrêter avant d'atteindre la surface. Des lois d'échelles dans le conduit du panache ont été déterminées pour la vitesse, la température et la taille de la région cisaillée en régime permanent. Elles décrivent raisonnablement le comportement du conduit bien que seul l'effet rhéofluidifiant soit pris en compte. L'application de ces paramètres adimensionnés à la Terre contraignent significativement la limite de plasticité du manteau et de la lithosphère. La contrainte seuil maximale qui permet à une instabilité thermique de pénétrer dans la lithosphère ou le manteau supérieur est entre 100 kPa et 100 MPa, et elle dépend fortement de la taille et de l'anomalie de densité de l'intrusion. / Plumes are known to migrate through the ductile quasi-Newtonian mantle, while dikes fracture and propagate through the solid lithosphere. However, depending on the timescale, the lithosphere presents solid as well as viscous properties. To determine what happens in the complex case, where instabilities propagate through a visco-elastic matrix, we performed a combined study of laboratory experiments and numerical simulations. Here we investigate the development of thermal plumes in aqueous solutions of Carbopol, a polymer gel, forming a continuous network of micrometric sponges. This fluid is shear thinning and has a yield-stress σ₀, whereby flow occurs only if the local stress exceeds this critical value σ₀. Below this value, the fluid acts as an elastic solid. The rheological properties of the solutions can be systematically varied by varying the Carbopol concentration. The setup consists of a localized heat-source operated at constant power, placed at the centre of a square tank. Depending on the ratio of the thermally induced stresses and the yield stress, Y₀, three different regimes may be obtained. For low Y₀<Yc₁ no motion occurs, whereas for Yc₁<Y₀<Yc₂ a cell develops, that evolves into a plume for Y₀>Yc₂. We show that the critical parameters (Yc₁,Yc₂) strongly depend on the geometry of the heating. Combined temperature and velocity field measurements show that the morphology of the plume resembles a finger, contrary to the mushroom-like shape encountered in Newtonian fluids. Numerical simulations using a purely viscous description, where the rheology of the fluid is described by a regularized Herschel-Bulkley model, are sufficient to capture the plume dynamics. A detailed parametric study shows that the plume dynamics are governed by the interplay between yield stress, buoyancy induced stress and viscous stresses. We identify two non-dimensional parameters: the yield parameter Ψ comparing the buoyancy induced stress to the yield stress, and the Bingham number Bi comparing the yield stress to the viscous stresses. We show that a plume can rise only if both parameters are supercritical, i.e. if buoyancy induced stress and viscous stresses each overcome the yield stress. Therefore the plume may come to a halt before it reaches the surface. We propose scaling laws for the plume stem velocity, temperature and the size of the shear zone in the steady state. We show that the scaling laws describe the behaviour in the plume stem reasonably well, if the yield stress is neglected and only the shear thinning behaviour is taken into account. Applying the non-dimensional parameters to Earth places severe constraints on the strength of mantle and lithosphere. The maximum strength that allows for thermal instabilities to penetrate the lithosphere or upper mantle is in between 100 kPa and 100 MPa, and strongly depends on the size and buoyancy of the anomaly.

Convection

Carbopol

Diapirisme

Panache

Simulations numériques

Expériences de laboratoire

Modèle de Herschel-Bulkley

Contrainte seuil

Convection

Carbopol

Diapirism

Plume

Numerical simulations

Laboratory experiments

Herschel-Bulkley model

Yield-stress

Bio-Optical Variability of Surface Waters in the Northeastern Gulf of Mexico

Nababan, Bisman

11 April 2005

Bio-optical variability of surface waters in Northeastern Gulf of Mexico (NEGOM) was examined using satellite and in situ data. Relatively high chlorophyll-a concentration (chl>=1 mg m-3) and high colored dissolved organic mater (ag443>=0.1 m-1) were generally observed inshore, near major river mouths, and in plumes of Mississippi River water that extended offshore during the three consecutive summer seasons (1998, 1999, and 2000). River discharge dominated chlorophyll-a concentration variability inshore, particularly near major river mouths. Strong interannual variability in chlorophyll-a concentration was observed inshore from Escambia to Tampa Bay region during the winter to spring transition, which was different in 1998 compared to the winter to spring transition in 1999 and 2000. This was related to higher fresh water discharge during the 1997-1998 El Niño-Southern Oscillation event as well as strong upwelling in spring 1998. The Mississippi plume extended >500 km southeast of the Mississippi delta and up to the Florida Keys was observed for the periods extending over 14 weeks between May and September every year of the study. In general, ag443 covaried linearly and inversely with salinity inshore during spring and fall, indicating conservative mixing. The NEGOM salinity-ag443 relationship of fall 1998, i.e., Salinity=36.59-29.86*ag443 (n=8771, r2=0.86; 0.01<=ag443<=0.52, 16 <=S<=36), served as the best predictor of NEGOM salinity based on in situ ag443 observations for spring and fall seasons from all years (<3% mean percentage errors; corresponding to <1.03 psu). This may help estimate salinity from satellite ocean color data, but further testing using data from multiple years is needed to improve such relationship. While river discharge was an important source of colored dissolved organic matter (CDOM), phytoplankton blooms also contributed to CDOM formation in the NEGOM. Using a pigment index of phytoplankton taxonomic groups, the variability in biomass proportion of microphytoplankton explained up to 76% of the variability of the average of normalized phytoplankton absorption coefficients (545, 625, and 673 nm). The clorophyll-specific absorption coefficient, a*ph(440), varies by a factor of 7 (0.02-0.15 m2mg-1). Particle size and pigment composition played important roles in determining a*ph(440) variability. This must be accounted for in chlorophyll-a concentration algorithms based on aph.

Chlorophyll-a

Color dissolved organic matter

Mississippi river plume

Phytoplankton absorption

Detritus absorption

Chlorophyll-specific absorption

Salinity

Seawifs

Cyclonic and anticyclonic eddies

Packaging effect

Pigment composition

American Studies

Arts and Humanities

Amplification de l'énergie d'une source VUV cohérente à 125 nm dans une plume d'ablation de mercure

Philippet, Laurent

12 November 2009

Ce travail est consacré à l'étude d'une technique originale basée sur l'ablation laser du mercure liquide dans le but d'augmenter l'efficacité de conversion d'une source VUV cohérente à 125 nm. Ce rayonnement est obtenu par somme de fréquences résonnante à deux photons (6s 1S0 -> 7s 1S0) dans une vapeur de mercure à température ambiante. Les paramètres expérimentaux tels que la géométrie de la plume d'ablation, l'énergie des faisceaux fondamentaux, la densité d'énergie du laser d'ablation et la pression d'un gaz neutre (ici l'argon qui permet de confiner la plume) ont été optimisées et ont amené une amplification d'un ordre de grandeur (jusqu'à deux ordres de grandeur pour des intensités réduites) soit une énergie de 250 nJ. Afin de mieux comprendre les phénomènes physiques mis en jeu, une caractérisation complète de la plume a été menée grâce à des expériences d'imagerie et de spectroscopie résolues en temps. La luminescence propre de la plume ainsi que la fluorescence induite par l'absorption de deux photons (sur la raie 6s 1S0 -> 7s 1S0) nous ont permis de connaître la composition de la plume, d'estimer sa température, les vitesses des différentes espèces et la densité d'atomes à l'état fondamental. Un étalonnage réalisé à partir du signal de somme de fréquences a permis d'obtenir une cartographie du nombre absolu d'atomes de mercure dans l'état fondamental. Nous avons également montré que la manipulation du faisceau VUV est rendue plus simple dans une boîte à gants (ici remplie d'argon) que dans le vide. Une structure périodique, de 100 µm de pas, a été réalisée par lithographie sur du PMMA et des premiers pas vers la lithographie par interférométrie ont été franchis.

[PHYS] Physics

Source VUV

Mélange à quatre ondes

Plume d'ablation de mercure

Imagerie résolue en temps

Spectroscopie résolue en temps

Fluorescence induite par laser

Boîte à gants

Lithographie

DYNAMIQUE DU RIFTING CONTINENTAL DE 30 Ma A L'ACTUEL DANS LA PARTIE SUD EST DU TRIANGLE AFAR. TECTONIQUE ET MAGMATISME DU RIFT DE TADJOURA ET DES DOMAINES DANAKIL ET D'ALI SABIEH, REPUBLIQUE DE DJIBOUTI.

Ahmed Daoud, Mohamed

19 June 2008

Les résultats acquis au cours de ce travail à propos (i) des basaltes récents du Golfe de Tadjoura et (ii) les séries synrift initiales des domaines Ali Sabieh et Danakil apportent de nouvelles contraintes sur, repectivement, la cinématique récente du Rift Tadjoura et celle, plus ancienne, des zones marginales de la dépression Afar. Mais, ils apportent aussi des éléments permettant de discuter, à une échelle plus vaste, certains aspects de la dynamique du rift Afar, sensu lato.<br />- L'étude structurale des basaltes récents (2.8-1.1 Ma) des marges du Golfe de Tadjoura nous conduit à interpréter la structure générale du rift Tadjoura en termes d'hémi-graben, à vergence sud, développé au-dessus de traps antérieurs, et accommodant une extension estimée à 25-30%. L'âge décroissant des structures vers la partie axiale, immergée, du dispositif reflète la concentration progressive des déformations au cours du temps. L'analyse géométrique et statistique des populations de failles exposées le long des deux flancs de l'hémi-graben met en évidence, au niveau du système extensif méridional, un gradient croissant de déformation vers l'W, en direction de la zone transverse d'Arta. Ce dispositif est attribué au blocage frontal de la propagation des structures axiales du Golfe contre une discontinuité mécanique pré-existante. Dans le modèle cinématique proposé, le transfert de l'extension depuis le rift Tadjoura vers la zone du Ghoubbet s'effectue, non pas par l'intermédiaire de structures en échelon, mais par un saut de rift (en sénestre) de part et d'autre de cette discontinuité sub-méridienne à polarité ‘Mer Rouge'.<br />- L'étude structurale et géochimique/géochronologique des séries volcaniques d'Ali Sabieh et de leur substratum mésozoïque démontre les faits suivants :<br /> . Les ensembles volcaniques initiaux se mettent en place entre 26-19 Ma (complexe intrusif-effusif d'Ali Sabieh), cad. environ 6 Ma après les traps éthiopiens et yemenites qui n'ont donc pas d'équivalents dans ce secteur intermédiaire. <br /> . La partie intrusive du complexe magmatique est interprétée en termes de laccolithe dont la mise en place provoque la structuration antiformale de la couverture mésozoïque, puis son démantelement partiel, sous forme d'enclaves, lors d'un processus de ‘block stoping'.<br /> . L'antiforme d'Ali Sabieh implique jusqu'aux séries acides Mablas (15-11 Ma) et il est scéllé, sur ses flancs, par les basaltes Somali (7.2-3.0 Ma) et du Dalha (8.6-3.8 Ma). <br />- Un tout autre mécanisme est proposé pour l'édification des reliefs Danakil qui résultent de mouvements verticaux beaucoup plus jeunes, postérieurs (ou synchrones) des Basaltes Stratoïdes, et d'origine probablement tectonique, en liaison avec le rifting Tadjoura et/ou Asal.<br />- Ces résultats ont aussi des implications sur la dynamique de l'ensemble du dispositif Afar, et de nouvelles hypothèses sont proposées au sujet (i) du sens de propagation des axes de rift récents-actifs recoupant la dépression Afar et de leur appartenance aux systèmes Golfe d'Aden ou Mer Rouge, (ii) de la distribution spatiale du magmatisme initial (à 30 Ma), de type trap, au niveau de deux sous-provinces, séparées par un domaine amagmatique, et (iii) de l'évolution du domaine Danakil et de la nature de sa limite orientale avec la Mer Rouge, considérée comme une discontinuité héritée de premier ordre, de part et d'autre de laquelle les mécanismes de l'extension sont dominés par des processus, soit magmatiques (W), soit tectoniques (E).

Afar

Rift de Tadjoura

Failles

Propagation de rift

Extension

Danakil

Ali Sabieh

Laccolite

Doming

Manteau appauvri

Plume

Elements majeurs et en traces

L'altération des komatiites

Lahaye, Yann

03 February 1995

Dans le but de tester la capacité des komatiites à préserver leur composition géochimique et isotopique (Sr,Nd, 0) primaire, caractéristique du manteau archéen, les coulées basaltiques et komatiitiques des ceintures de roches vertes de l'Abitibi et de Barberton ont été étudiées. . Les komatiites peu altérées ont des compositions géochimiques compatibles avec le fractionnement de l'olivine; seuls les éléments alcalins sont mobilisés. Dans les komatiites plus altérées, les concentrations en High Field Strength Element (HFSE) par rapport aux Terres Rares (REE) produisent des anomalies variables à l'intérieur des coulées. Ces anomalies sont produites par le fractionnement des phases mantelliques de haute pression eVou la mobilité de ces éléments par les fluides hydrothermaux. ' Les mobilités géochimiques et les perturbations tardives des systèmes isotopiques (Sr, Nd, 0) à l'échelle de la roche totale sont expliquées par des processus d'échange isotopique et par le fractionnement tardif des éléments en traces. Afin de déterminer la composition isotopique initiale de ces coulées * komatiitiques, les compositions isotopiques en Néodyme et Oxygène ont été * mesurées sur des minéraux primaires. A partir de ces données, il apparait que la source des komatiites d'Alexo (Abitibi) à une valeur ENd(T) supérieure à celle obtenue sur les basaltes. Ces différences isotopiques en neodyme s'intègrent dans un modèle de plume mantellique pour la genèse des komatiites. De même, les pyroxènes de Barberton de la formation de Weltevreden ont une valeur ENd (T) systématiquement supérieure ou égale aux valeurs obtenues sur roche totale dans les autres formations. Les principaux facteurs qui contrôlent les mobilités géochimiques dans les komatiites altérées sont (1) la* composition du fluide, (2) leurs faibles concentrations initiales en éléments en traces, (3) la nature des phases secondaires qui concentrent les éléments en traces et (4) leur texture.

Manteau archéen

komatiite

hydrothermalisme

mobilité

échange isotopique

plume mantellique

éléments en traces

Sm-Nd

Rb-Sr