Fluid-structure Interactions of Inverted Leaves and Flags

Interactions between fluid flows and elastic bodies are ubiquitous in nature. One such phenomena that is encountered on a daily basis is the flapping and fluttering of leaves in the wind. The fluid-structure interaction that governs the physics of a leaf in the wind is poorly understood at best and has potential applications in biomechanics, vehicle design, and energy conversion. We build upon previous work on the flapping dynamics of inverted flags, which are cantilevered elastic sheets with free leading edge and fixed trailing edge that display unique large amplitude oscillatory behaviors. We model a leaf in the laboratory using modified inverted flags, experimentally probing the governing parameters behind leaf fluttering as well as shedding light on the physics behind the inverted flag phenomena. The behavior of these "inverted leaves" studied here display sensitive dependence on two biomechanically relevant parameters, stem-to-leaf rigidity and stem-to-leaf length. In addition, leaves on a tree are not often found alone. We seek to understand the complex interactions of multiple fluttering and flapping leaves by way of examining the interactions between pairs of inverted flags. Coupling through their flow fields, pairs of inverted flags exhibit striking emergent phenomena. We report these observed dynamical behaviors and the conditions upon which they arise.

Behavior of spherical particles at low Reynolds numbers in a fluctuating translational flow

The behavior of spheres in non-steady translational flow has been studied experimentally for values of Reynolds number from 0.2 to 3000. The aim of the work was to improve our qualitative understanding of particle transport in turbulent gaseous media, a process of extreme importance in power plants and energy transfer mechanisms.

Particles, subjected to sinusoidal oscillations parallel to the direction of steady translation, were found to have changes in average drag coefficient depending upon their translational Reynolds number, the density ratio, and the dimensionless frequency and amplitude of the oscillations. When the Reynolds number based on sphere diameter was less than 200, the oscillation had negligible effect on the average particle drag.

For Reynolds numbers exceeding 300, the coefficient of the mean drag was increased significantly in a particular frequency range. For example, at a Reynolds number of 3000, a 25 per cent increase in drag coefficient can be produced with an amplitude of oscillation of only 2 per cent of the sphere diameter, providing the frequency is near the frequency at which vortices would be shed in a steady flow at the mean speed. Flow visualization shows that over a wide range of frequencies, the vortex shedding frequency locks in to the oscillation frequency. Maximum effect at the natural frequency and lock-in show that a non-linear interaction between wake vortex shedding and the oscillation is responsible for the increase in drag.

Aerodynamics of vertical-axis wind turbines in full-scale and laboratory-scale experiments

Within a wind farm, multiple turbine wakes can interact and have a substantial effect on the overall power production. This makes an understanding of the wake recovery process critically important to optimizing wind farm efficiency. Vertical-axis wind turbines (VAWTs) exhibit features that are amenable to dramatically improving this efficiency. However, the physics of the flow around VAWTs is not well understood, especially as it pertains to wake interactions, and it is the goal of this thesis to partially fill this void. This objective is approached from two broadly different perspectives: a low-order view of wind farm aerodynamics, and a detailed experimental analysis of the VAWT wake.

One of the contributions of this thesis is the development of a semi-empirical model of wind farm aerodynamics, known as the LRB model, that is able to predict turbine array configurations to leading order accuracy. Another contribution is the characterization of the VAWT wake as a function of turbine solidity. It was found that three distinct regions of flow exist in the VAWT wake: (1) the near wake, where periodic blade shedding of vorticity dominates; (2) a transition region, where growth of a shear-layer instability occurs; (3) the far wake, where bluff-body oscillations dominate. The wake transition can be predicted using a new parameter, the dynamic solidity, which establishes a quantitative connection between the wake of a VAWT and that of a circular cylinder. The results provide insight into the mechanism of the VAWT wake recovery and the potential means to control it.

The Many Lovers of Jane Austen: Irony & Parody

Master in Literature and Literary Science

A novel brain partition highlights the modular skeleton shared by structure and function

Elucidating the intricate relationship between brain structure and function, both in healthy and pathological conditions, is a key challenge for modern neuroscience. Recent progress in neuroimaging has helped advance our understanding of this important issue, with diffusion images providing information about structural connectivity (SC) and functional magnetic resonance imaging shedding light on resting state functional connectivity (rsFC). Here, we adopt a systems approach, relying on modular hierarchical clustering, to study together SC and rsFC datasets gathered independently from healthy human subjects. Our novel approach allows us to find a common skeleton shared by structure and function from which a new, optimal, brain partition can be extracted. We describe the emerging common structure-function modules (SFMs) in detail and compare them with commonly employed anatomical or functional parcellations. Our results underline the strong correspondence between brain structure and resting-state dynamics as well as the emerging coherent organization of the human brain.

Individuação e inocência: composições com Simondon e Whitehead

A filosofia viveu um tempo de luminosidade crua em que havia contentamento (pelo menos entre os filósofos dignos de serem estudados) com a postulação das condições de possibilidade que cabiam no horizonte que essa luz podia, então, iluminar. Tudo que escapasse desse horizonte era obscuridade, irracionalidade, mera especulação e, pior de todas as ofensas: metafísica. Mas, alguma filosofia do séc. XX encontrou uma outra distribuição de luminosidade que permitiu um pensamento em claro-escuro, em tonalidades nuançadas em que a nitidez absoluta dos contornos se viu fluidificar, em que as figuras puras e sólidas se mostraram como híbridas, nebulosas derramadas, em que os objetos entraram na história e os homens se misturaram com a natureza, em que os movimentos do mundo e as imagens na consciência saíram da dualidade das qualidades primárias e secundárias e se aventuraram em novas perspectivas (aventuras que ainda atravessam desde a fenomenologia até o cinema). É neste cenário de novas distribuições que reaparece a questão da individuação apontando para uma outra concepção do indivíduo, não mais substancial e suporte de qualidades, não mais ancorado nos pares matéria e forma, atual e potencial. Tais pares se revelam insuficientes por não darem conta das impurezas que vêm à tona e das surpreendentes possibilidades inventadas (simbioses, alianças, infecções) e não somente atualizadas a partir de um potencial (filiação, reprodução). Nesse novo modo de compor, o atributo não mais se remete a um predicado qualidade, mas ao acontecimento, não mais às possibilidades latentes, mas à potência a ser inventada nas composições, nas relações constituintes dos diferentes modos de existência. Simondon foi o primeiro filósofo a levar em conta, de modo específico, o indivíduo se inventando em composição, daí ter renovado a questão da individuação e transformado o estatuto da relação. O ser é relação, tal é, com Simondon, a proposição que passa a figurar no centro do pensamento da individuação. Mas se, por um lado, havia essa promoção da relação, por outro lado, parecia não haver a liberação dos modos que, enfim, remetiam a uma natureza dos possíveis. Mesmo não funcionando como princípio, essa natureza parecia capturar os modos num potencial, de tal maneira que um novo humanismo, tão sufocante quanto qualquer outro, acompanhava toda a produção de Simondon. Não à toa, sua narrativa dos diferentes modos se fecha no encontro de uma unidade capaz de suportar o multirealismo dos híbridos que surgiam por toda parte. As metas, os sentidos do devir que povoam a obra de Simondon não seriam os ecos de uma velha moral da pureza, da luminosidade branca?Para escapar desse rebatimento da aventura dos modos em tipos privilegiados de relação que levavam a restaurar a unidade perdida, era preciso se lançar na inocência do processo das inumeráveis atividades de um tecido sem base, jogo de linhas impuras em cruzamentos inventados a cada momento. Nesse sentido: era o pensamento especulativo, expresso em sua própria escrita em zig-zag, de Whitehead já um antídoto aos possíveis rebatimentos da nova filosofia da individuação num mundo por demais reconhecido? É esse o espírito da composição nesse trabalho: a individuação simondoneana com a insistência em se entregar à aventura inocente dos processos se fazendo que se encontra em Whitehead (e nos muitos aliados que foram convocados para que outras músicas se façam ouvir).

Quem foi Colombo? A questão étnico-racial nos livros didáticos de história: a descrição do colonizador após as leis 10639/03 e 11645/08

A presente dissertação se propõe a contribuir para as análises dos processos ligados à implementação das leis 10639/03 e 11645/08. Questionamo-nos acerca dos desdobramentos do imperativo das leis nos livros didáticos de história, sobretudo, no uso do conceito de colonizador no processo de explicação da relação entre diferentes povos e culturas nas coleções da disciplina história. Como estão descritas essas relações? Há mudanças institucionalizadas pelo PNLD ou pelas leis: que descrições de significados culturais, políticos os sujeitos implicados nos eventos de ocupação do território americano são apresentados nos manuais de ensino de história? Buscamos entender quais as relações de colonialidade do saber se estabelecem na sistematização dos conteúdos de história, tendo em vista que os atos de colonização envolvem dinâmicas que se chocam com as premissas hierárquicas simplificadas nos processos de ensino de história na escola de acordo com as descrições dos livros didáticos. As maneiras pelas quais o colonizador é rotulado como conquistador, supervalorizando a dimensão europeia do processo e subvalorizando os referenciais da cultura local representados nos povos pré-colombianos são problematizadas nessa dissertação sob duas perspectivas: (1) a superficialização das relações hierárquicas nos processos de colonização, dessa forma, inscrita no feixe de possibilidades que corrobora com as estratégias de perpetuação das simplificações das funções dos atores sociais no período colonial descritas nos manuais didáticos de história; (2) ou como reação prática ou simplista, como estratégia que modifica a realidade histórica social ao sabor das conveniências políticas, suas relações de poder e desenvolvimento de políticas públicas. A pesquisa fundamentou-se na análise de uma coleção de livro didático de história para o ensino médio (1 ao 3 anos) mais usadas efetivamente nas escolas públicas do município de Cabo Frio, Estado do Rio de Janeiro. A pesquisa delimita dois eixos, o primeiro, por meio da análise do histórico das legislações 10639/03 e 11645/08, leis nas quais são baseadas as regulamentações sobre o ensino étnico-racial e grande parte das discussões sobre ações afirmativas no Brasil; um segundo, no qual se estabeleceu investigação aos sentidos atribuídos ao que se define como colonizador e a percepção de quais são as descrições classificadas como colonialidade do saber histórico nos livros didáticos. Tal discussão sobre o colonizador pode contribuir na reflexão crítica sobre a institucionalização do saber histórico escolar do livro didático e de normalização nacional como os PNLDs, quanto às disputas de poder que ocorrem entre os atores políticos no processo de justificativa histórica das políticas públicas como as ações afirmativas.

Adolescente infrator: as práticas restaurativas (mediação) e a nova Lei do Sistema Nacional de Atendimento Socioeducativo (SINASE) na cidade do Rio de Janeiro

Este estudo, intitulado Adolescente infrator: A mediação prevista na nova Lei do Sistema Nacional de Atendimento Socioeducativo (SINASE) na cidade do Rio de Janeiro trata da mediação na vertente transformativa, com o objetivo de permitir nova ótica sobre a conduta infratora e as consequências dos atos no mundo social. Esta forma de atuação, dentre outros benefícios, pode evitar o desgaste jurisdicional, na medida em que os casos selecionados a partir de suas características passam a ser operados por especialistas em composição pacífica de conflitos, com a perspectiva de seres humanos que necessitam da inter-relação no convívio social. Os mediadores trabalham com os adolescentes em conflito com a lei, seus pais e as vítimas. Destarte, verificando as circunstâncias favoráveis à mediação, passa-se ao diálogo para alcançar um acordo, mantendo-se o centro da intervenção no conflito e na relação dos conflitantes, incentivando a capacitação para a negociação a partir do reconhecimento do direito do outro, produzindo a transformação interna dos litigantes que causará, como efeito desejado, a dissolução do conflito. A princípio os mediadores devem atuar apenas em fatos de menor potencial ofensivo, como agressões leves e outros conflitos entre adolescentes. Com o passar do tempo e o aperfeiçoamento da prática, é possível abarcar outras classes de prática infracional, a exemplo de pequenos furtos. Para tanto, na fase de pesquisa, tentando-se explicar a mediação transformadora a partir das referências teóricas publicadas em livros ou obras congêneres, utilizou-se a técnica bibliográfica; na fase da redação, ordenou-se o material coletado, segundo a lógica necessária à elaboração de um trabalho científico. O método a presidir este estudo foi o dedutivo, na medida em que parte da análise geral das crianças e dos adolescentes, em especial aqueles em conflito com a lei, para depois apresentar a teoria geral da mediação e em seguida, numa abordagem mais particular, enfrentar as questões envolvendo a mediação no Sistema Nacional de Atendimento Socioeducativo (SINASE) para, ao final, defender que é preciso desvendar o marco normativo que autoriza a prática da mediação como instrumento de resolução de questões relacionadas com o adolescente em conflito com a lei, para identificar a natureza jurídica desse modelo de mediação e, ao final, a título de sugestão, desenhar seu procedimento não estabelecido pela lei material que a prevê, qual seja, a Lei n 12.594, de 18 de janeiro de 2012. O grande desafio é establecer a metodologia adequada para que a autocomposição de conflito seja restaurativa ao adolescente infrator e aos integrantes desse conflito instaurado. O resgate do meio social abalado com a prática infracional é tão importante quanto a conscientização do adolescente. A pretensão é sugerir um marco normativo que posicione o procedimento da mediação como instrumento de ligação do indivíduo adolescente infrator, com o ambiente social onde está inserido, e com o formalismo processual que vem afastando o Poder Judiciário de sua função social de dizer o direito e fazer justiça.

The effect of timing of tagging on streamer-tag recapture rates for American lobster (Homarus americanus)

Streamer tags are commonly used to study the ecology and population biology of the American lobster (Homarus americanus). Aquarium observations suggest that streamer tag loss, either through tag-induced mortality or tag shedding, is related to the molt stage of the lobster at the time of tagging, and the molting event itself. Tag-induced mortality, where lobsters did not molt, occurred within eleven and sixteen days following tagging for lobsters tagged in postmolt (4%) and late premolt (10%) stages, respectively; whereas no lobsters tagged in early premolt or intermolt stages died. Taginduced mortality at time of molting was observed for lobsters tagged in late premolt stage (11%), and tag shedding was observed for lobsters tagged both in early (25%) and late premolt (11%) stages, but was significantly higher (P=0.014) for lobsters tagged in early premolt stages. Autopsies revealed that lobsters died mainly of organ perforations (hepato-pancreas and pericardial sac) following the tagging process, and rupture of the dorsal thoraco-abdominal membrane during the molting process. The total tag loss was estimated at 4% for lobsters tagged after molting, and 27% and 31% for lobsters tagged in early and late premolt stages, respectively. There was no tag loss for lobsters tagged in the intermolt stage during four months of laboratory observations (July−October). To minimize streamer tag loss, lobsters should be tagged during the intermolt or postmolt stage. Based on field studies, recapture rates for lobsters tagged in premolt stage are always lower than those of lobsters tagged in postmolt stage. Furthermore, recapture rates during the second year, for lobsters that molt in the year following tagging, were drastically reduced, and no lobster was recaptured after four years at large. Finally, to account for tag loss during the first year at large, a minimal adjustment of 24.9% (SD 2.9%) and 4.4% (SD 1.6%) for the recapture rate of lobsters tagged immediately before and after the molting season, respectively, is recommended. Adjustments beyond one year at large are not recommended for the American lobster at this time.

Compressor wake/leading-edge interactions at off design incidences

In this paper, the effects of wake/leading-edge interactions were studied at off-design conditions. Measurements were performed on the stator-blade suction surface at midspan. The leading-edge flow-field was investigated using hotwire micro-traverses, hotfilm surface shear-stress sensors and pressure micro-tappings. The trailing-edge flow-field was investigated using hotwire boundary-layer traverses. Unsteady CFD calculations were also performed to aid the interpretation of the results. At low flow coefficients, the time-averaged momentum thickness of the leading-edge boundary layer was found to rise as the flow coefficient was reduced. The time-resolved momentum-thickness rose due to the interaction of the incoming rotor wake. As the flow coefficient was reduced, the incoming wakes increased in pitch-wise extent, velocity deficit and turbulence intensity. This increased both the time-resolved rise in the momentum thickness and the turbulent spot production within the wake affected boundary-layer. Close to stall, a drop in the leading-edge momentum thickness was observed in-between wake events. This was associated with the formation of a leading-edge separation bubble in-between wake events. The wake interaction with the bubble gave rise to a shedding phenomenon, which produced large length scale disturbances in the surface shear stress. Copyright © 2008 by ASME.

Penetration of sodium chloride during prolonged salting of fish

This work deals with adsorption of salt and expulsion of moisture in Synagris japonicus, Sciaenids sp. and Lactarius lactarius during prolonged salting. The fish used in this study were procured fresh and handled immediately. They were gutted, gilled, cleaned well and salted. Results indicated that larger salt proportions and higher temperature of salting both accelerate the rates of absorption of salt and shedding of moisture by fish muscle during salt curing.

The nonlinear heat release response of stratified lean-premixed flames to acoustic velocity oscillations

This paper analyzes the forced response of swirl-stabilized lean-premixed flames to high-amplitude acoustic forcing in a laboratory-scale stratified burner operated with CH4 and air at atmospheric pressure. The double-swirler, double-channel annular burner was specially designed to generate high-amplitude acoustic velocity oscillations and a radial equivalence ratio gradient at the inlet of the combustion chamber. Temporal oscillations of equivalence ratio along the axial direction are dissipated over a long distance, and therefore the effects of time-varying fuel/air ratio on the response are not considered in the present investigation. Simultaneous measurements of inlet velocity and heat release rate oscillations were made using a constant temperature anemometer and photomultiplier tubes with narrow-band OH*/CH* interference filters. Time-averaged and phase-synchronized CH* chemiluminescence intensities were measured using an intensified CCD camera. The measurements show that flame stabilization mechanisms vary depending on equivalence ratio gradients for a constant global equivalence ratio (φg=0.60). Under uniformly premixed conditions, an enveloped M-shaped flame is observed. In contrast, under stratified conditions, a dihedral V-flame and a toroidal detached flame develop in the outer stream and inner stream fuel enrichment cases, respectively. The modification of the stabilization mechanism has a significant impact on the nonlinear response of stratified flames to high-amplitude acoustic forcing (u'/U∼0.45 and f=60, 160Hz). Outer stream enrichment tends to improve the flame's stiffness with respect to incident acoustic/vortical disturbances, whereas inner stream stratification tends to enhance the nonlinear flame dynamics, as manifested by the complex interaction between the swirl flame and large-scale coherent vortices with different length scales and shedding points. It was found that the behavior of the measured flame describing functions (FDF), which depend on radial fuel stratification, are well correlated with previous measurements of the intensity of self-excited combustion instabilities in the stratified swirl burner. The results presented in this paper provide insight into the impact of nonuniform reactant stoichiometry on combustion instabilities, its effect on flame location and the interaction with unsteady flow structures. © 2011 The Combustion Institute.

Experimental study of homogenisation in grid turbulence

Turbulence statistics have been measured immediately downstream of a regular grid made of round rods with rod spacing M. 2D-2C PIV was used to analyse a measurement area of 14M x 4M in the down and cross-stream directions respectively. The relevant Reynolds number span the range Re M = U ∞M/ν = 5 500 - 16 500. The Reynolds shear stresses recorded on two parallel measurement planes differently located relative to the grid exhibit significant discrepancies over the first 5M, but have completely homogenised in the cross-stream direction by x/M = 7. The downstream evolution of the two-point velocity correlation functions shows a progressive loss of coherence and a clear trend towards the expected isotropic behavior. The same conclusions apply to measurements taken in the wake of another regular grid made of square rods. Changes in the vortex shedding pattern from the grid were observed at the lowest Reynolds number, with two of the four rod wakes captured shedding in phase with each other but in anti-phase with a third one. The impact of this early flow coherence on the turbulence statistics did not persist due to the homogenisation process.

Kelvin-Helmholtz-like instabilities in turbulent flows over complex surfaces

Riblets are small surface protrusions aligned with the flow direction, which confer an anisotropic roughness to the surface [6]. We have recently reported that the transitional-roughness effect in riblets, which limits their performance, is due to a Kelvin–Helmholtz-like instability of the overlying mean flow [7]. According to our DNSs, the instability sets on as the Reynolds number based on the roughness size of the riblets increases, and coherent, elongated spanwise vortices begin to develop immediately above the riblet tips, causing the degradation of the drag-reduction effect. This is a very novel concept, since prior studies had proposed that the degradation was due to the interaction of riblets with the flow as independent units, either to the lodging of quasi-streamwise vortices in the surface grooves [2] or to the shedding of secondary streamwise vorticity at the riblet peaks [9]. We have proposed an approximate inviscid analysis for the instability, in which the presence of riblets is modelled through an average boundary condition for an overlying, spanwise-independent mean flow. This simplification lacks the accuracy of an exact analysis [4], but in turn applies to riblet surfaces in general. Our analysis succeeds in predicting the riblet size for the onset of the instability, while qualitatively reproducing the wavelengths and shapes of the spanwise structures observed in the DNSs. The analysis also connects the observations with the Kelvin–Helmholtz instability of mixing layers. The fundamental riblet length scale for the onset of the instability is a ‘penetration length,’ which reflects how easily the perturbation flow moves through the riblet grooves. This result is in excellent agreement with the available experimental evidence, and has enabled the identification of the key geometric parameters to delay the breakdown. Although the appearance of elongated spanwise vortices was unexpected in the case of riblets, similar phenomena had already been observed over other rough [3], porous [1] and permeable [11] surfaces, as well as over plant [5,14] and urban [12] canopies, both in the transitional and in the fully-rough regimes. However, the theoretical analyses that support the connection of these observations with the Kelvin–Helmholtz instability are somewhat scarce [7, 11, 13]. It has been recently proposed that Kelvin–Helmholtz-like instabilities are a dominant feature common to “obstructed” shear flows [8]. It is interesting that the instability does not require an inflection point to develop, as is often claimed in the literature. The Kelvin-Helmholtz rollers are rather triggered by the apparent wall-normal-transpiration ability of the flow at the plane immediately above the obstructing elements [7,11]. Although both conditions are generally complementary, if wall-normal transpiration is not present the spanwise vortices may not develop, even if an inflection point exists within the roughness [10]. REFERENCES [1] Breugem, W. P., Boersma, B. J. & Uittenbogaard, R. E. 2006 J. Fluid Mech. 562, 35–72. [2] Choi, H., Moin, P. & Kim, J. 1993 J. Fluid Mech. 255, 503–539. [3] Coceal, O., Dobre, A., Thomas, T. G. & Belcher, S. E. 2007 J. Fluid Mech. 589, 375–409. [4] Ehrenstein, U. 2009 Phys. Fluids 8, 3194–3196. [5] Finnigan, J. 2000 Ann. Rev. Fluid Mech. 32, 519–571. [6] Garcia-Mayoral, R. & Jimenez, J. 2011 Phil. Trans. R. Soc. A 369, 1412–1427. [7] Garcia-Mayoral, R. & Jimenez, J. 2011 J. Fluid Mech. doi: 10.1017/jfm.2011.114. [8] Ghisalberti, M. 2009 J. Fluid Mech. 641, 51–61. [9] Goldstein, D. B. & Tuan, T. C. 1998 J. Fluid Mech. 363, 115–151. [10] Hahn, S., Je, J. & Choi, H. 2002 J. Fluid Mech. 450, 259–285. [11] Jimenez, J., Uhlman, M., Pinelli, A. & G., K. 2001 J. Fluid Mech. 442, 89–117. [12] Letzel, M. O., Krane, M. & Raasch, S. 2008 Atmos. Environ. 42, 8770–8784. [13] Py, C., de Langre, E. & Moulia, B. 2006 J. Fluid Mech. 568, 425–449. [14] Raupach, M. R., Finnigan, J. & Brunet, Y. 1996 Boundary-Layer Meteorol. 78, 351–382.

On the two classes of global primary modal instability in laminar separation bubbles

The self-excited global instability mechanisms existing in flat-plate laminar separation bubbles are studied here, in order to shed light on the causes of unsteadiness and three- dimensionality of unforced, nominally two-dimensional separated flows. The presence of two known linear global mechanisms, namely an oscillator behavior driven by local regions of absolute inflectional instability and a centrifugal instability giving rise to a steady three- dimensionalization of the bubble, is studied in a series of model separation bubbles. Present results indicate that absolute instability, and consequently a global oscillator behavior, does not exist for two-dimensional bubbles with a peak reversed-flow velocity below 12% of the free-stream velocity. However, the three-dimensional instability becomes active for recirculation levels as low as urev ≈ 7%. These findings suggest a route to the three-dimensionality and unsteadiness observed in experiments and simulations substantially different from that usually found in the literature, in which two-dimensional vortex shedding is followed by three-dimensionalization.