Improved Analysis Method for Wave-Induced Pipeline Stability on Sandy Seabed

The existing Det Norske Veritas DNV Recommended Practice RP E305 for pipeline on-bottom stability is mainly based on the pipe–soil interaction model reported by Wagner et al. in 1987, and the wake model reported by Lambrakos et al. in 1987, to calculate the soil resistance and the hydrodynamic forces upon pipeline, respectively. Unlike the methods in the DNV Practice, in this paper, an improved analysis method is proposed for the on-bottom stability of a submarine pipeline, which is based on the relationships between Um/ gD 0.5 and Ws / D2 for various restraint conditions obtained by the hydrodynamic loading experiments, taking into account the coupling effects between wave, pipeline, and sandy seabed. The analysis procedure is illustrated with a detailed flow chart. A comparison is made between the submerged weights of pipeline predicted with the DNV Practice and those with the new method. The proposed analysis method may provide a helpful tool for the engineering practice of pipeline on-bottom stability design.

Surface-waves, stability, and scattering for a lined duct with flow

We consider a straight cylindrical duct with a steady subsonic axial flow and a reacting boundary (e.g. an acoustic lining). The wave modes are separated into ordinary acoustic duct modes, and surface modes confined to a small neighbourhood of the boundary. Many researchers have used a mass-spring-damper boundary model, for which one surface mode has previously been identified as a convective instability; however, we show the stability analysis used in such cases to be questionable. We investigate instead the stability of the surface modes using the Briggs-Bers criterion for a Flügge thin-shell boundary model. For modest frequencies and wavenumbers the thin-shell has an impedance which is effectively that of a mass-spring-damper, although for the large wavenumbers needed for the stability analysis the thin-shell and mass-spring-damper impedances diverge, owing to the thin shell's bending stiffness. The thin shell model may therefore be viewed as a regularization of the mass-spring-damper model which accounts for nonlocally-reacting effects. We find all modes to be stable for realistic thin-shell parameters, while absolute instabilities are demonstrated for extremely thin boundary thicknesses. The limit of vanishing bending stiffness is found to be a singular limit, yielding absolute instabilities of arbitrarily large temporal growth rate. We propose that the problems with previous stability analyses are due to the neglect of something akin to bending stiffness in the boundary model. Our conclusion is that the surface mode previously identified as a convective instability may well be stable in reality. Finally, inspired by Rienstra's recent analysis, we investigate the scattering of an acoustic mode as it encounters a sudden change from a hard-wall to a thin-shell boundary, using a Wiener-Hopf technique. The thin-shell is considered to be clamped to the hard-wall. The acoustic mode is found to scatter into transmitted and reflected acoustic modes, and surface modes strongly linked to the solid waves in the boundary, although no longitudinal or transverse waves within the boundary are excited. Examples are provided that demonstrate total transmission, total reflection, and a combination of the two. This thin-shell scattering problem is preferable to the mass-spring-damper scattering problem presented by Rienstra, since the thin-shell problem is fully determined and does not need to appeal to a Kutta-like condition or the inclusion of an instability in order to avoid a surface-streamline cusp at the boundary change.

Linear Stability Analysis of Convection in Two-Layer System with an Evaporating Vapor-Liquid Interface

Classical theories have successfully provided an explanation for convection in a liquid layer heated from below without evaporation. However, these theories are inadequate to account for the convective instabilities in an evaporating liquid layer, especially in the case when it is cooled from below. In the present paper, we study the onset of Marangoni convection in a liquid layer being overlain by a vapor layer.A new two-sided model is put forward instead of the one-sided model in previous studies. Marangoni-Bénard instabilities in evaporating liquid thin layers are investigated with a linear instability analysis. We define a new evaporation Biot number, which is different from that in previous studies and discuss the influences of reference evaporating velocity and evaporation Biot number on the vapor-liquid system. At the end, we explain why the instability occurs even when an evaporating liquid layer is cooled from below.

Application of Three-Dimensional Discrete Element Face-to-Face Contact Model with Fissure Water Pressure to Stability Analysis of Landslide in Panluo Iron Mine

Three-dimensional discrete element face-to-face contact model with fissure water pressure is established in this paper and the model is used to simulate three-stage process of landslide under fissure water pressure in the opencast mine, according to the actual state of landslide in Panluo iron mine where landslide happened in 1990 and was fathered in 1999. The calculation results show that fissure water pressure on the sliding surface is the main reason causing landslide and the local soft interlayer weakens the stability of slope. If the discrete element method adopts the same assumption as the limit equilibrium method, the results of two methods are in good agreement; while if the assumption is not adopted in the discrete element method, the critical phi numerically calculated is less than the one calculated by use of the limit equilibrium method for the same C. Thus, from an engineering point of view, the result from the discrete element model simulation is safer and has more widely application since the discrete element model takes into account the effect of rock mass structures.

Stress reduction and bond stability during thermal annealing of tetrahedral amorphous carbon

A comprehensive study of the stress release and structural changes caused by postdeposition thermal annealing of tetrahedral amorphous carbon (ta-C) on Si has been carried out. Complete stress relief occurs at 600-700°C and is accompanied by minimal structural modifications, as indicated by electron energy loss spectroscopy, Raman spectroscopy, and optical gap measurements. Further annealing in vacuum converts sp3 sites to sp2 with a drastic change occurring after 1100°C. The field emitting behavior is substantially retained up to the complete stress relief, confirming that ta-C is a robust emitting material. © 1999 American Institute of Physics.

Evaluación preliminar de sesenta y tres lineas avanzadas de frijol común (Phaseolus vulgaris L.) de grano color negro en la Estación Experimental La Compañía, Carazo

El experimento fue establecido en la estación experimental “La Compañía”, San Marcos, Departamento de Carazo, Nicaragua, durante la época de postrera (Octubre-Diciembre) de 2003, con los objetivos de identificar genotipos de frijol común (Phaseolus vulgaris L) con mejores resultados en cuanto a rendimiento, evaluar las principales características fenológicas y determinar la incidencia y severidad de las principales enfermedades. Las líneas estudiadas provienen del vivero de adaptación centroamericano de grano negro (VIDAC-Negro-2003). Se utilizó un testigo, la variedad Guaymí; el diseño empleado fue el de ensayo preliminar, el cual consistió en un surco por línea de 3m de longitud con el testigo intercalado cada 9 surcos. Los análisis estadísticos realizados a los datos fueron: media, desviación estándar, coeficiente de variación, distribución de frecuencias y correlaciones Pearson. Entre los caracteres evaluados se midieron 13 variables, 3 sobre fenología, hábito de crecimiento, cinco sobre el rendimiento y sus componentes y enfermedades, entre las cuales se evaluaron mustia hilachosa y mancha de la hoja. Se observaron amplios rangos de comportamiento sobre fenología, rendimiento y sus componentes y enfermedades. Respecto a las variables fenológicas se observaron rangos de 33 a 40 dds en el número de días a floración, los días a madurez fisiológica oscilaron entre 63 y 72 dds y los días a cosecha entre 70 y 83 dds. Respecto al hábito de crecimiento las líneas fueron en su totalidad indeterminadas (IIa y IIb), en su mayoría IIb. En cuanto a los componentes del rendimiento el número de vainas por planta osciló entre 1 y 15.6, el número de granos por vaina entre 3.1 y 6.5, las plantas cosechadas entre 8 y 40 y el peso de 100 granos entre 12.31 y 30.25 g. Respecto al rendimiento relativo osciló entre 7.86205.88 %, encontrándose 15 líneas que superaron al testigo. La mayoría de los materiales presentaron severidad a mustia hilachosa con valores de 1 a 6, para mancha de la hoja la severidad osciló entre 2 y 5.

Caracterización y evaluación de siete genotipos de frijol común grano color rojo (Phaseolus vulgaris L.) en la Estación Experimental La Compañía, Carazo, 2004-2005

El presente ensayo se realizó en el centro experimental La Compañía, San Marcos Departamento de Carazo, Nicaragua en la época de primera (junio–agosto del 2004), con el fín de caracterizar y evaluar el comportamiento de 7 genotipos de frijol rojo, proporcionadas por el Programa Internacional de Viveros de Adaptación y Rendimiento, del Centro Internacional de Agricultura Tropical (CIAT) , en coordinación con el Instituto Nicaragüense de Tecnología Agropecuaria (INTA). Fue establecido un diseño de bloques completamente al azar con tres repeticiones; el tamaño de la muestra fue de 10 plantas para caracteres cuantitativos y para los cualitativos se basó en el aspecto de predominancia de caracteres. Se realizó el análisis de varianza y la separación de medias por Tukey al 95% de confianza para las variables del rendimiento y sus componentes; así como la media, desviación estándar y coeficiente de variación para caracteres relacionados al desarrollo y crecimiento. Fueron evaluados 18 caracteres cuantitativos y 15 cu alitativos. De acuerdo con los resultados la semilla se clasificó como pequeña, con forma ovoidea, alargada ovoidea y arriñonada recta en el lado del hilo, esta última con mayor frecuencia; el grano presentó color, rojo claro con testa brillante y rojo marrón oscuro con testa intermedio, predominan do el color rojo claro con testa brillante. Los análisis estadísticos indican que solo dos genotipos difirieron estadísticamente en cuanto al rendimiento, obteniendo el mayor valor el SRC 1-12-1-43 con 2203.9 kg ha -1 , no mostrando diferencias estadísticas las demás variables relacionadas. Todos los genotipos mostraron hábito de crecimiento arbustivo indeterminado (IIb). Respecto a las variables fenológicas se observaron rangos de 36 a 38 dds para el número de días a floración, los días a madurez fisiológica oscilaron entre 62 y 68 dds y los días a cosecha entre 66 y 72 dds, ubicándose de esta manera como materiales precoces. Todos los materiales presentaron daños de las enfermedades mustia hilachosa ( Thanatephorus cucumeris Frank) y mancha angular ( Isariopsis griseola Sacc) con niveles de severidad intermedia con excepción de los genotipos SRC 1-12-1-43 y MPN 103-25, que mostraron susceptibilidad a la mustia hilachosa; sin embargo estos alcanzaron los mayores rendimientos.

Surface Stability of Epitaxial Elastic Films by Casimir Force

We investigate the morphological stability of epitaxial thin elastic films on a substrate by the Casimir force between the film surface and a flat plate. Critical undulation wavelengths are derived for two different limit conditions. Consideration of the Casimir force in both limit cases decreases the critical wavelength of the surface perturbation.

Noise and stability in giant-chirp oscillators mode-locked with a nanotube-based saturable absorber

We compare experimental results showing stable dissipative-soliton solutions exist in mode-locked lasers with ultra-large normal dispersion (as large as 21.5 ps2), with both the analytic framework provided by Haus' master-equation and full numerical simulations. © 2010 Optical Society of America.

Glass Transition and Thermal Stability of Hard Magnetic Bulk NdAlFeCo Metallic Glass

Glass transition and thermal stability of bulk Nd60Al10Fe20Co10 metallic glass were investigated by means of dynamic mechanical thermal analysis (DMTA), differential scanning calorimetry (DSC), X-ray diffraction (XRD) and scanning electronic microscopy (SEM). The glass transition temperature, not revealed by DSC, is alternatively determined by DMTA via storage modulus E' and loss modulus E" measurement to be 498 K at a heating rate of 0.167 K s (-1). The calculated reduced glass transition temperature (T-g/T-m) is 0.63. The large value of T-g/T-m of this alloy is consistent with its good glass-forming ability. The crystallization process of the metallic glass is concluded as follows: amorphous --> amorphous + metastable FeNdAl phase --> amorphous + primary delta-FeNdAl phase --> primary delta-phase + eutectic delta-phase + Nd3Al + Nd3Co. The appearance of hard magnetism in this alloy is ascribed to the presence of amorphous phase with highly relaxed structure. The hard magnetism disappeared after the eutectic crystallization of the amorphous phase. (C) 2002 Elsevier Science B.V. All rights reserved.

Evaluación de dieciseis genotipos de frijol comun de color negro (Phaseolus vulgaris, L.) en epoca de apante, Yasica Sur, San Ramón, Matagalpa

El presente ensayo se realizó en Yasica Sur, San Ramón, Matagalpa, en época de apante del 23 de Noviembre del 2002 al 24 de Febrero del 2003, con el objetivo de evaluar el comportamiento agronómico de 16 genotipos de fríjol común de grano color negro (Phaseolus vulgaris L.) a las condiciones de la localidad, a fin de encontrar alternativas de materiales genéticos para pequeños y medianos productores de frijol común. Para el estudio se utilizó un diseño experimental unífactorial en bloques completos al azar (B.C.A) con 4 repeticiones y 16 tratamientos. Los resultados de campo se procesaron mediante el programa sistema análisis estadístico (SAS V.8), la prueba de rango múltiple de Tukey al 0.01 por ciento de error para las variables evaluadas y correlación de Person para las mismas variables. Con base en los datos obtenidos se puede afirmarque, los componentes del rendimiento grano por vainas, vainas plantas y peso de 100 granos presentaron diferencias significativas; sin embargo, la variable del rendimiento de los genotipos no muestra diferencias significativas entre sí. El análisis de correlación múltiple efectuado a las variables fenológicas mostró diferencias significativas en días a flor, madurez fisiológica y días a cosechas. Los principales hábitos de crecimiento que se presentaron entre los materiales fueron indeterminados IIb y IIIb, a diferencia del genotipo B2059 con hábito indeterminado Ib. Los genotipos evaluados con relación a enfermedades fúngicas mostraron resistencia a Roya (Uromyces appendiculatus. Pers.Unger.), Mancha angular (Isariopsis griseolas Sacc) y Tizón bacteriano o bacteriosis común (Xanthomonas campestrispv.phaseoli). .

Perturbation of the stability of amyloid fibrils through alteration of electrostatic interactions.

The self-assembly of proteins and peptides into polymeric amyloid fibrils is a process that has important implications ranging from the understanding of protein misfolding disorders to the discovery of novel nanobiomaterials. In this study, we probe the stability of fibrils prepared at pH 2.0 and composed of the protein insulin by manipulating electrostatic interactions within the fibril architecture. We demonstrate that strong electrostatic repulsion is sufficient to disrupt the hydrogen-bonded, cross-β network that links insulin molecules and ultimately results in fibril dissociation. The extent of this dissociation correlates well with predictions for colloidal models considering the net global charge of the polypeptide chain, although the kinetics of the process is regulated by the charge state of a single amino acid. We found the fibrils to be maximally stable under their formation conditions. Partial disruption of the cross-β network under conditions where the fibrils remain intact leads to a reduction in their stability. Together, these results support the contention that a major determinant of amyloid stability stems from the interactions in the structured core, and show how the control of electrostatic interactions can be used to characterize the factors that modulate fibril stability.

Uniform stability of a particle approximation of the optimal filter derivative

Sequential Monte Carlo methods, also known as particle methods, are a widely used set of computational tools for inference in non-linear non-Gaussian state-space models. In many applications it may be necessary to compute the sensitivity, or derivative, of the optimal filter with respect to the static parameters of the state-space model; for instance, in order to obtain maximum likelihood model parameters of interest, or to compute the optimal controller in an optimal control problem. In Poyiadjis et al. [2011] an original particle algorithm to compute the filter derivative was proposed and it was shown using numerical examples that the particle estimate was numerically stable in the sense that it did not deteriorate over time. In this paper we substantiate this claim with a detailed theoretical study. Lp bounds and a central limit theorem for this particle approximation of the filter derivative are presented. It is further shown that under mixing conditions these Lp bounds and the asymptotic variance characterized by the central limit theorem are uniformly bounded with respect to the time index. We demon- strate the performance predicted by theory with several numerical examples. We also use the particle approximation of the filter derivative to perform online maximum likelihood parameter estimation for a stochastic volatility model.

Stability Of Adhesion Clusters And Cell Reorientation Under Lateral Cyclic Tension

This work is motivated by experimental observations that cells on stretched substrate exhibit different responses to static and dynamic loads. A model of focal adhesion that can consider the mechanics of stress fiber, adhesion bonds, and substrate was developed at the molecular level by treating the focal adhesion as an adhesion cluster. The stability of the cluster under dynamic load was studied by applying cyclic external strain on the substrate. We show that a threshold value of external strain amplitude exists beyond which the adhesion cluster disrupts quickly. In addition, our results show that the adhesion cluster is prone to losing stability under high-frequency loading, because the receptors and ligands cannot get enough contact time to form bonds due to the high-speed deformation of the substrate. At the same time, the viscoelastic stress fiber becomes rigid at high frequency, which leads to significant deformation of the bonds. Furthermore, we find that the stiffness and relaxation time of stress fibers play important roles in the stability of the adhesion cluster. The essence of this work is to connect the dynamics of the adhesion bonds (molecular level) with the cell's behavior during reorientation (cell level) through the mechanics of stress fiber. The predictions of the cluster model are consistent with experimental observations.