Global ETD Search

161	On the representation of aerosol-cloud interactions in atmospheric models Barahona, Donifan 01 July 2010 (has links) Anthropogenic atmospheric aerosols (suspended particulate matter) can modify the radiative balance (and climate) of the Earth by altering the properties and global distribution of clouds. Current climate models however cannot adequately account for many important aspects of these aerosol-cloud interactions, ultimately leading to a large uncertainty in the estimation of the magnitude of the effect of aerosols on climate. This thesis focuses on the development of physically-based descriptions of aerosol-cloud processes in climate models that help to address some of such predictive uncertainty. It includes the formulation of a new analytical parameterization for the formation of ice clouds, and the inclusion of the effects of mixing and kinetic limitations in existing liquid cloud parameterizations. The parameterizations are analytical solutions to the cloud ice and water particle nucleation problem, developed within a framework that considers the mass and energy balances associated with the freezing and droplet activation of aerosol particles. The new frameworks explicitly account for the impact of cloud formation dynamics, the aerosol size and composition, and the dominant freezing mechanism (homogeneous vs. heterogeneous) on the ice crystal and droplet concentration and size distribution. Application of the new parameterizations is demonstrated in the NASA Global Modeling Initiative atmospheric and chemical and transport model to study the effect of aerosol emissions on the global distribution of ice crystal concentration, and, the effect of entrainment during cloud droplet activation on the global cloud radiative properties. The ice cloud formation framework is also used within a parcel ensemble model to understand the microphysical structure of cirrus clouds at very low temperature. The frameworks developed in this work provide an efficient, yet rigorous, representation of cloud formation processes from precursor aerosol. They are suitable for the study of the effect of anthropogenic aerosol emissions on cloud formation, and can contribute to the improvement of the predictive ability of atmospheric models and to the understanding of the impact of human activities on climate. Giant CCN Entrainment Cloud-climate interactions Clouds Cloud formation Parameterization Aerosol indirect effect Ice Atmospheric aerosols Cloud physics Clouds Dynamics
162	Detection and elimination of defects during manufacture of high-temperature polymer electrolyte membranes Bhamidipati, Kanthi Latha 02 March 2011 (has links) Defect generation and propagation in thin films, such as separation membranes, can lead to premature or catastrophic failure of devices such as polymer electrolyte membrane fuel cells (PEMFC). It is hypothesized that defects (e.g., air bubbles, pin-holes, and holes) originate during the manufacturing stage, if precise control is not maintained over the coating process, and they propagate during system operation. Experimental and numerical studies were performed to detect and eliminate defects that were induced during slot die coating of high-viscosity (1 to 40 Pa-s), shear-thinning solutions. The effects of fluid properties, geometric parameters and processing conditions on air entrainment and coating windows (limited set of processing conditions for which defect-free coating exists) were studied. When smaller slot gaps and coating gaps were used, relatively small bubbles were entrained in the coated film. The air bubble sizes increased as the viscosity of the coating solution decreased. A semi-empirical model correlating the maximum coating speed to a solution's material properties, geometric parameters and processing conditions was developed. Such a predictive model will enable engineers to determine the maximum coating boundary for shear-thinning and Newtonian solutions within certain constraints. Smaller coating gaps and low-viscosity solutions produced higher coating speeds. The surface tension property of the coating solution provided stability to the coating bead. Therefore, solutions with higher surface tension could be processed at higher coating speeds. PEM Slot die coating Shear-thinning solutions High-viscosity solutions Coating windows Air entrainment Membranes (Technology) Polyelectrolytes Surfaces (Technology) Defects
163	Modelling air―water flows in bottom outlets of dams Liu, Ting January 2014 (has links) If air is entrained in a bottom outlet of a dam in an uncontrolled way, the resulting air pockets may cause problems such as blowback, blowout and loss of discharge capacity. In order to provide guidance for bottom outlet design and operation, this study examines how governing parameters affect air entrainment, air-pocket transport and de-aeration and the surrounding flow structure in pipe flows. Both experimental and numerical approaches are used. Air can be entrained into the bottom outlet conduit due to vortex formation at the intake if the intake submergence is not sufficient. The influent of the intake entrance profiles and channel width on the critical submergence were studied in the experiment. The experimental study was performed to investigate the incipient motion of air pockets in pipes with rectangular and circular cross sections. The critical velocity is dependent on pipe slope, pipe diameter, pipe roughness and air-pocket volume. If the pipe is horizontal, air removal is generally easier in a rectangular pipe than in a circular pipe. However, if the pipe is downward-inclined, air removal is easier in a circular pipe. When a bottom outlet gate opens, air can become entrained into the conduit in the gate shaft downstream of the gate. Using FLUENT software, the transient process of air entrainment into a prototype bottom outlet during gate opening is simulated in three dimensions. The simulations show in the flow-pattern changes in the conduit and the amount of air entrainment in the gate shaft. The initial conduit water level affects the degree of air entrainment. A de-aeration chamber is effective in reducing water surface fluctuations at blowout. High-speed particle image velocimetry (HSPIV) were applied to investigate the characteristics of the flow field around a stationary air pocket in a fully developed horizontal pipe flow. The air pocket generates a horseshoe vortex upstream and a reverse flow downstream. A shear layer forms from the separation point. Flow reattachment is observed for large air pockets. The air―water interface moves with the adjacent flow. A similarity profile is obtained for the mean streamwise velocity in the shear layer beneath the air pocket. / <p>QC 20140211</p> Air pocket Air entrainment Bottom outlet Critical velocity Critical submergence CFD Experiment Vortex PIV Two-phase air―water flow
164	クリアランス内で衝突を伴うロータの非線形強制振動と自励振動 (非線形ばね・減衰モデルによる分数調波振動の解析) 稲垣, 瑞穂, INAGAKI, Mizuho, 石田, 幸男, ISHIDA, Yukio, 林, 晃正, HAYASHI, Akimasa 07 1900 (has links) No description available. Rotor Impact Radial Clearance Nonlinear Resonance Entrainment Self-Excited Oscillation Subharmonics Piesewise Linear Spring Hrmonic Balance Method Stability Analysis
165	Rhythmic sensitivity and developmental language disorder in children Richards, Susan Mary January 2017 (has links) Children with Developmental Language Disorder (DLD) have difficulties in acquiring language in the absence of other neurodevelopmental issues (e.g. autism, hearing impairment) and despite growing up in an adequate language-learning environment. Previous characterisations of DLD have focused on grammatical processing, phonological memory or rapid auditory processing. This thesis approaches the language-learning difficulties of children with DLD from a novel perspective by considering the potential contribution made by differing levels of sensitivity to the rhythmic properties of language. Children with DLD have been shown to have reduced sensitivity to some of the acoustic cues present in speech which are thought to be important for rhythmic perception. Since rhythm forms the basis of language processing in early development, poorer sensitivity to language rhythm may result in later language problems. To investigate whether children with DLD demonstrate difficulties in processing language rhythm, this thesis explores five areas of language processing which could be affected by poor rhythmic sensitivity: locating word-boundaries, processing novel words, storing lexical stress patterns, representing sentence level structures and the integration of rhythm and syntax. As part of the investigation, measures were also taken of acoustic threshold sensitivity to see whether task performance related to acoustic sensitivity. A parallel strand of the study investigated whether provision of an entraining rhythm prior to task stimuli could support task performance. Three groups of children participated in the study: children with DLD, age-matched TD children (AMC) and younger, language-matched TD children (YLC). The results indicate that rhythmic manipulation of language stimuli affects task responses across the five language areas under investigation. The findings are then discussed in terms of the contribution made to our understanding of the role of rhythm in language and language disorder.
166	Caractérisation d’un décollement turbulent sur une rampe : entraînement et lois d’échelle / Characterisation of a turbulent separation over a ramp : entrainment and scaling laws Stella, Francesco 24 November 2017 (has links) Les décollements turbulents massifs sont des phénomènes communs qui peuvent causer des pertes et de nuisances aérodynamiques importantes dans les écoulements industriels, par exemple à l’arrière d’une aile d’avion. Ce travail contribue à leur compréhension par l’analyse phénoménologique d’un décollement turbulent, représentatif d’un grand nombre d’écoulements réels. Le premier objectif est d’identifier les lois d’échelle des décollements turbulents, notamment en rapport avec les caractéristiques de l’écoulement à l’amont de la rampe. Un deuxième objectif est l’analyse, à grande et à petite échelle, des mécanismes de transport de fluide qui pilotent le fonctionnement des décollements. A cet effet, une approche originale est proposée, basée sur une description expérimentale et analytique de la couche cisaillée décollée et des interfaces turbulentes qui la délimitent. Nos résultats suggèrent que les lois d’échelle du décollement varient de façon complexe selon l’interaction de la couche limite à l’amont, de la couche cisaillée et de l’écoulement potentiel extérieur. La taille du décollement est liée à l’intensité de l’entraînement turbulent de masse dans la couche cisaillée, qui à son tour dépend de la turbulence dans la couche limite, bien à l’amont du point de décollement. Cette dépendance pourrait s’appliquer à toute la gamme d’échelles turbulentes responsables du transport de masse. Ces observations montrent clairement le rôle de la couche cisaillée dans le fonctionnement des décollements massifs et suggèrent la faisabilité de stratégies de contrôle nouvelles, de type retro-action ou prédictif, basée sur l’entrainement turbulent. / Massive turbulent separations are common phenomena that can cause sizeable aerodynamical losses and detrimental effects in industrial flows, for example on airplane wings. This work contributes to their understanding with a phenomenological analysis of a canonical turbulent separation, representative of a large number of real flows. The first objective is to identify the scaling laws of turbulent separations, in particular with respect to their dependencies on the characteristics of the flow upstream of the ramp. A second objective is the analysis, both at large and small scale, of the transfert mechanisms that drive the functioning of separated flows. To this end, a new approach is proposed, centered on the experimental and analytical description of the separated shear layer and of the turbulent interfaces that bound it. Our results suggest that the scaling laws of the separated flow vary in a complex way, in function of the interaction of the incoming boundary layer, the separated shear layer and the free-stream. The size of the separation is related to the intensity of turbulent mass entrainment within the shear layer, which in turn depends on the turbulence in the incoming boundary layer, well upstream of the separation point. This dependency might apply over the entire range of turbulent length scales that are responsible for mass transfer. These observations clearly show the role of the shear layer in the functioning of massive separation. They also suggest the feasibility of new control strategies, both of feedback and feed-forward type, based on turbulent entrainment. Décollement turbulent Couche cisaillée décollée Entraînement Lois d’échelle Turbulent separation Separated shear layer Entrainment Scaling laws 532.052 7
167	Formula??o e caracteriza??o de pastas espumadas por incorpora??o de ar e estabilizantes minerais Lima, Marco Ant?nio Batista de 08 February 2011 (has links) Made available in DSpace on 2014-12-17T14:08:50Z (GMT). No. of bitstreams: 1 MarcoABL_DISSERT.pdf: 3031485 bytes, checksum: ee9422376e7cb63c045cc578494d0199 (MD5) Previous issue date: 2011-02-08 / Cementing operations may occur at various stages of the life cycle of an oil well since its construction until its definitive abandonment. There are some situations in which the interest zones are depleted or have low fracture pressure. In such cases, the adoption of lowdensity cement slurries is an efficient solution. To this end, there are basically three ways to reduce the density of cement slurries: using microspheres, water extending additives or foamed cement. The objective of this study is to formulate, to study and to characterize lowdensity foamed cement, using an air entrainment surfactant with vermiculite or diatomite as water extenders and stabilizers. The methodology consists on preparation and evaluation of the slurries under the American Petroleum Institute (API) and the Brazilian Association of Technical Standards (ABNT) guidelines. Based on calculated densities between 13 and 15 ppg (1.559 and 1.799 g/cm3), the slurries were prepared with fixed surfactant concentration, varying the concentrations of vermiculite and diatomite and were compared with the base slurries. The results of plastic viscosity, yield point and gel strength and the compressive strength for 24 h showed that the slurries presented suitable rheology and mechanical strength for cementing operations in oil wells, and had their densities reduced between 8.40 and 11.89 ppg (1.007 and 1.426 g/cm3). The conclusion is that is possible, under atmospheric conditions, to obtain light weighted foamed cement slurries with satisfactory rheological and mechanical properties by means of air entrainment and mineral additions with extenders and stabilizers effects. The slurries have great potential for cementing operations; applicability in deep wells, in low fracture gradient formations and in depleted zones and bring cost savings by reducing the cementing consumption / As opera??es de cimenta??o podem ocorrer em diversas etapas do ciclo de vida de um po?o, desde a sua constru??o at? seu abandono definitivo. H? situa??es em que as zonas de interesse se apresentam depletadas ou com baixa press?o de fratura. Nesses casos, a ado??o de pastas cimentantes de baixa densidade constitui solu??o eficiente. Para tanto, h? basicamente tr?s maneiras de reduzir a densidade de pastas de cimento: usando microesferas, aditivos estendedores de ?gua ou pastas espumadas. O objetivo deste trabalho ? formular, estudar e caracterizar pastas cimentantes espumadas de baixa densidade, utilizando um surfactante incorporador de ar juntamente com adi??es de vermiculita ou diatomita como estendedores e estabilizantes. A metodologia do trabalho consiste na prepara??o e avalia??o das pastas por meio de procedimentos adotados pelo American Petroleum Institute (API) e pela Associa??o Brasileira de Normas T?cnicas (ABNT). Partindo de densidades calculadas entre 13 e 15 lb/gal (1,559 e 1,799 g/cm3), as pastas foram preparadas com dosagem fixa do surfactante, variando as concentra??es de vermiculita e diatomita e foram comparadas com pastas base. Os resultados dos ensaios que determinam viscosidade pl?stica, limite de escoamento e for?as g?is, bem como os de resist?ncia ? compress?o para tempos de 24 h mostraram que as pastas apresentaram reologia e resist?ncia mec?nica adequadas para opera??es de cimenta??o em po?os de petr?leo, al?m de terem suas densidades reduzidas entre 8,40 e 11,89 lb/gal (1,007 e 1,426 g/cm3). Conclui-se que ? poss?vel, sob condi??es atmosf?ricas, obter pastas cimentantes espumadas de baixa densidade com propriedades reol?gicas e mec?nicas satisfat?rias, por meio de incorpora??o de ar e adi??es minerais com efeitos estendedores e estabilizantes. As pastas possuem grande potencial para opera??es de cimenta??o, t?m aplicabilidade em po?os profundos, forma??es de baixo gradiente de fratura e zonas depletadas e trazem redu??es de custo pela diminui??o do consumo de cimento Cimenta??o Pastas espumadas Incorpora??o de ar Vermiculita Diatomita Cemeting Foamed cement Air entrainment Vermiculite Diatomite CNPQ::ENGENHARIAS
168	Sincronização fótica e não fótica dos ritmos circadianos em roedores subterrâneos (Ctenomys aff. knighti) e roedores modelo de laboratório (Mus musculus) / Photic and non-photic synchronization of the circadian rhythms in subterranean rodents (Ctenomys aff. knighti) and laboratory model rodents (Mus musculus) Danilo Eugênio de França Laurindo Flôres 03 October 2016 (has links) Nosso grupo de pesquisa estuda ritmos circadianos em um roedor subterrâneo do gênero Ctenomys, o tuco-tuco. Nesta tese, apresentarei dados sobre sincronização fótica e não-fótica dos ritmos circadianos em tuco-tucos, e sobre sincronização não-fótica em camundongos. Investigamos a sincronização fótica em tuco-tucos por meio de uma abordagem conjunta de campo e laboratório. Inicialmente medimos o ciclo claro/escuro natural percebido por animais mantidos em áreas cercadas em campo, utilizando aparelhos light loggers que registraram continuamente o padrão temporal diário da exposição à luz. Em seguida, foi aplicado um modelo desse padrão de exposição à luz em laboratório, para testar o seu potencial como um sincronizador fótico dos ritmos circadianos dos tuco-tucos. O modelo consistiu em pulsos de luz aplicados uma vez por dia em diferentes momentos aleatórios. Apesar de carregar o mínimo de informação temporal, esse regime luminoso foi um sincronizador eficiente em muitos casos, tal como previsto anteriormente a partir de simulações computacionais de um oscilador matemático. Os resultados revelam que a sincronização de osciladores circadianos é ainda mais robusta do que se imaginava. Nosso segundo conjunto de experimentos avaliou a sincronização não-fótica em tuco-tucos, os quais são herbívoros, expostos a ciclos diários de disponibilidade de alimentos. Semelhante a outras espécies de roedores, tuco-tucos desenvolveram uma atividade antecipatória ao alimento, expressa diariamente antes da alimentação. Houve, no entanto, grande variabilidade inter-individual na expressão da atividade antecipatória, provavelmente relacionada com diferenças nas respostas metabólicas à restrição temporal do alimento. O trabalho final foi uma colaboração com o Dr. Shin Yamazaki, sobre sincronização não-fótica em camundongos do tipo selvagem e camundongos mutantes com ablação genética do relógio circadiano. Ciclos diários de alimentos palatáveis e de corrida em roda induziram ritmicidade autossustentada em camundongos mutantes arrítmicos, que não expressavam os genes Period, componentes importantes da maquinaria molecular que gera os ritmos circadianos nas células. Estes resultados sugerem a existência de novos osciladores circadianos que respondem a sinais diários de recompensa. Enquanto espécies modelo de laboratório, tais como o camundongo, podem trazer informações valiosas sobre os mecanismos fisiológicos, as espécies selvagens como o tuco-tuco podem nos dar pistas sobre o significado ecológico dos fenômenos circadianos / Our research group studies circadian rhythms in a subterranean rodent from the genus Ctenomys, the tuco-tuco. In this thesis, I will present data on photic and non-photic synchronization of circadian rhythms in tuco-tucos, as well as a study on non-photic synchronization in the laboratory mouse. Natural photic synchronization in tuco-tucos was verified with field and laboratory approaches. We initially measured the natural light/dark cycle experienced by tuco-tucos in semi natural field enclosures, by means of automatic light logger devices that continuously recorded the daily temporal pattern of light exposure. Next, a model of this light exposure pattern was applied to tuco-tucos in the laboratory, to test its potential as a photic synchronizer of the circadian rhythms. The model consisted of single light pulses applied once a day at varying random times. Despite the minimal timing information, this light regimen was a successful synchronizer in many instances, as predicted from previous computer simulations of a mathematical oscillator. These results revealed that the synchronization of circadian oscillators is even more robust than previously thought. Our second set of experiments evaluated the non-photic synchronization in the herbivorous tuco-tucos, by exposing animals to daily cycles of food availability. Similar to other rodent species, tuco-tucos in this protocol developed a circadian food anticipatory activity (FAA) right before the daily feeding time. However, there was great interindividual variability in FAA expression, likely related to differences in the metabolic responses to time-restricted feeding. The final work was a collaboration with Dr. Shin Yamazaki from the University of Texas Southwestern Medical Center, regarding non-photic synchronization in wildtype and mutant mice with genetic disruption of the circadian clock. Daily cycles of palatable food and wheel running induced self-sustaining rhythmicity in arrhythmic mutant mice, which do not express the Period genes, key components of the molecular machinery responsible for circadian rhythm generation within the cells. These results suggest the existence of novel circadian oscillators responsive to daily rewarding signals. While model laboratory species such as the mouse can bring valuable information on physiological mechanisms, wild species like the tuco-tuco can give us insights into the ecological meaning of circadian phenomena Arrastamento Campo e laboratório Light logger Recompensa,Gene Period Restrição alimentar Entrainment Field and laboratory Light logger Period gene Restricted feeding Reward
169	Pós-efeitos da sincronização em campo e a fase de atividade do roedor subterrâneo tuco-tuco (Rodentia: Ctenomyidae) / Aftereffects of field entrainment and the activity phase of the subterranean rodent tuco-tuco (Rodentia: Ctenomyidae) Barbara Mizumo Tomotani 09 December 2011 (has links) Os tuco-tucos de Anillaco (Ctenomys cf. knighti) são roedores subterrâneos noturnos quando colocados em ciclo claro-escuro no laboratório. Com o interesse de se investigar o quanto um animal subterrâneo se expõe à luz, foi realizado um experimento de observação contínua em campo durante as horas claras do dia. Três indivíduos, um em cada estação, foram observados em uma arena semi-natural. Essas observações revelaram que os tuco-tucos não apenas saíam freqüentemente durante as horas claras do dia, como também apresentavam atividades robustas de forrageamento e remoção de terra de seus túneis. Uma vez que não se tinha conhecimento da atividade abaixo da terra ou durante à noite, foram examinados os pós-efeitos do arrastamento em campo para se investigar se o ritmo estaria sincronizado em campo e o quanto da atividade observada correspondia à atividade total do animal. Os pós-efeitos foram acessados pela transferência dos animais observados diretamente da arena para condições constantes. Surpreendentemente os animais exibiram uma atividade robusta concentrada na fase correspondente à noite ambiental sem transientes e sem traços da atividade diurna previamente observada em campo. Esse padrão foi observado em outros 10 animais trazidos dessa vez diretamente do campo e colocados em condições constantes. Além disso, não foram observadas diferenças na fase de atividade de animais com e sem acesso a rodas de atividade. Portando, nosso estudo com esses animais subterrâneos pode contribuir com elementos ecológicos nas discussões recentes sobre o significado da atividade diurna em animais que são noturnos segundo a fase do oscilador / South American subterranean rodents (Ctenomys cf. knighti), commonly known as tuco-tucos, display robust, nocturnal, wheel-running rhythms under a light-dark condition. To verify whether these subterranean and nocturnal animals ever expose themselves to light in the field, individual animals were continuously observed during light hours in a semi-natural enclosure that was constructed in their natural habitat. Observations during different seasons revealed that tuco-tucos not only emerged aboveground during daylight hours but also that their light exposure was due to robust diurnal activities of foraging and soil removal. Because of the lack of access to these animals´ subterranean and nocturnal activities in the field, the aftereffects of field entrainment were examined instead to verify the contribution of the previously observed diurnal behaviors to the total daily activity. This examination was achieved by transferring the observed animals from a field enclosure to constant laboratory conditions. Surprisingly, tuco-tucos exhibited robust activity concentrated in the phase corresponding to the external night without any trace of transients or of the diurnal activity that was observed in the enclosure. This pattern was also replicated when the aftereffects of the field entrainment of other animals trapped directly from the field were measured in the laboratory. Furthermore, no difference was detected in the activity measured with and without access to a running wheel. Our study of a wild subterranean species in its natural habitat can contribute novel ecological elements to the recently debated issue of the meaning of day-activity displayed by nocturnal rodents in the field Arena semi-natural Arrastamento Ctenomys Exposição à luz Pós-efeito Subterrâneo Aftereffects Ctenomys Entrainment Light-exposure Semin-natural enclosure Subterranean
170	Air in pulp and papermaking processes Stoor, T. (Tuomas) 10 May 2006 (has links) Abstract A pulp suspension consists of water, fibres, fines, fillers and chemicals, but air or other gases are also present in practically all pulping processes either in dissolved form or as bubbles. Dissolved gases seldom disturb the processes, but they are readily converted to gaseous form when conditions change. The gas bubbles affect the properties of the pulp suspension, reduce the accuracy of certain measurements, interfere with the runability of the papermachine and detract from the quality of the end-product. Gases are removed from the process by either mechanical or chemical means, resulting in increased investments and operational costs. The aim of this work was to study the behaviour of gas in pulp and papermaking processes with laboratory, pilot-scale and mill-scale experiments. Five main areas of the research can be identified: 1. Occurrence of gases in pulp and paper mill processes, 2. Dissolution, precipitation and hold-up of gases in the pulp suspension and mill water, 3. Effects of gases on certain consistency measurements, centrifugal pumping and operation of the hydrocyclone. 4. Measurement of the gas content of the pulp suspension by compression, radiometric, microwave and sonar methods and 5. Removal of gases with a centrifugal pump equipped with vacuum pump or hydrocyclone equipped light reject removal. The results show that the dissolution and precipitation of gas is strongly dependent on the pulp and water properties. Dissolved and colloidal material reduces the solubility potential of gas, but also accelerates the precipitation of dissolved gases in gaseous form. The hold-up of precipitated gas bubbles was found to be much more pronounced in hydrophobic mechanical pulps than in lignin-free chemical pulps. The accuracy of consistency measurements was affected by free gas in the pulp suspension, requiring special attention when assessing the results. The operation of pressure screens and hydrocyclones was affected only at high volumes of free gas in the feed suspension. According to the experiments, a reliable gas content measurement can be achieved by in-line radiometric, microwave or sonar methods, and also by the off-line compression method if a representative sample is obtained. A centrifugal pump equipped with a gas removing unit is designed mainly to ensure undisturbed pumping, whereas its gas removal efficiency remains quite low, especially with small bubbles and at a low gas content. The gas removal efficiency of a hydrocyclone equipped with light reject removal is good, but decreases with small precipitated bubbles. These results offer new information of the behaviour of the gas in pulp suspensions and white water and underline the importance of the bubble generation mechanism in this context. air content air entrainment bubbles consistency measurements deaeration dissolution gas content measurements gas removal precipitation pulp suspensions

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