7,222 research outputs found
Classification of Processes by the Lyapunov exponent
This paper deals with the problem of the discrimination between wellpredictable and not-well-predictable time series. One criterion for the separation is given by the size of the Lyapunov exponent, which was originally defined for deterministic systems. However, the Lyapunov exponent can also be analyzed and used for stochastic time series. Experimental results illustrate the classification between well-predictable and not-well-predictable time series. --
A local defect resonance for linear and nonlinear ultrasonic thermography
An efficient wave-defect interaction is the key to a high thermal response of flaws in ultrasonic thermography. To selectively enhance defect vibrations a concept of local defect resonance is developed and applied to ultrasonic activation of defects. The frequency match between the defect resonance frequency and the probing ultrasonic wave results in a substantial rise of a local defect temperature. The defect resonance is accompanied by depletion of the excitation frequency vibration due to nonlinear frequency conversion to higher harmonics. The local generation of higher frequency components provides a high thermal defect response in such an acoustically nonlinear thermography mode
Turbulent Fluid Flow Over Aerodynamically Rough Surfaces Using Direct Numerical Simulations
Incompressible turbulent fluid flow in aerodynamically rough channels is investigated
using direct numerical simulations. A comprehensive database of simulation
data for rough surfaces with different topographical properties has been developed
for 17 industrially relevant rough surface samples. It includes numerous commonlyseen
industrial rough surfaces such as concrete, graphite, carbon-carbon composite
and ground, shotblasted and spark-eroded steel. Other surfaces such as cast, filed
and gritblasted steel are also studied, along with replicas of ship propeller surfaces
eroded by periods of service. The Reynolds number considered is ReĎ = 180, for
which the flow is in the transitionally rough regime. A study with variable δ/Sq ratio
while keeping S
+
q
constant, where Sq is the root mean squared roughness height,
is conducted for one of the samples with the mean profiles showing convergence
for δ/Sq >â 25. A Reynolds number dependence study is conducted for two of the
samples with ReĎ up to 720 showing a more complete range up to the fully rough
flow regime, allowing the equivalent sandgrain roughness height, ks
to be computed.
A correlation based on the frontal and wetted roughness area is found to be superior
to the surface skewness in predicting âU
+ based on the topographic surface
parameters
Comparing Time Series from Experiments with and without Spiralling
In this paper we compare data from BTA deep-hole drilling experiments conducted according to an experimental design, which had to be repeated due to the development of spiralling in all experiments in the first repetition. We compare the time series of the drilling torque and the bending moment with respect to the development of the maximal Lyapunov-Exponent and the overall relevant frequencies and the relevant frequencies on sections of the process. --
Employment and Unemployment in Russia from Microeconomic Perspective
The Economic Transition and Integration (ETI) Project at the International Institute for Applied Systems Analysis (IIASA) has built on the institute's tradition of promoting collaborative research between East and West. The ETI Project's proven ability in dealing with issues pertaining to the transformation from central planning to market economies has been valuable for policy-makers and scientists alike. As a result, the government of the Russian Federation turned in 1992 to the ETI Project to organize a series of seminars and provide reports on topics of concern to the government. The Ford Foundation and Pew Charitable Trusts have generously provided financial support for the seminar series.
This report summarizes the contribution of participants at a seminar held at IIASA on 23-25 June 1994 "Employment and Unemployment in Russia from a Microeconomic Perspective." This workshop was an attempt to deepen the understanding of and unveil some of the mysteries in Russian employment and unemployment. Topics ranged from the demographics of employment to the lack of unemployment despite severe output declines, and from in-depth studies of certain sectors and industries to comparisons with some Central European employment circumstances. More specifically, seminar participants presented papers and had discussions in five research areas: recent developments in employment and unemployment, adjustments in the use of labor, case studies, the experience of East European countries in unemployment concentrated to regions and sectors, and finally future prospects of employment.
This wide array of paper presentations and discussions was enhanced by the willingness of workshop participants from Russia, Central and Eastern Europe, and the West to share their experiences and engage each other with provocative thoughts. Through this iterative process, the workshop was successful in shedding light on the empirical facts of employment and unemployment, better understand some mysteries surrounding facets of this data, and in the end make some valuable speculation about the future of employment and unemployment in Russia
Restructuring and Recovery of Output in Russia
The Economic Transition and Integration (ETI) Project at the International Institute for Applied Systems Analysis (IIASA) has built on the institute's tradition of promoting collaborative research between East and West. The ETI Project's proven ability in dealing with issues pertaining to the transformation from central planning to market economies has been valuable for policy-makers and scientists alike. As a result, the government of the Russian Federation turned in 1992 to the ETI Project to organize a series of seminars and provide reports on topics of concern to the government. The Ford Foundation and Pew Charitable Trusts have generously provided financial support for the seminar series.
This report summarizes the contribution of participants at a seminar held at IIASA on 9-11 June 1994, "Restructuring and Recovery of Output in Russia". This workshop had several goals: to understand the root causes and effects of the recent enormous output decline in Russia, to assess the amount of restructuring that has occurred in Russia, and to develop a path of restructuring for recovery of output in Russia. Insights into this broad agenda were made through seminar sections on macroeconomics and public policy, enterprise behavior, unemployment, and domestic and international competition. Under the rubric of these topics, seminar participants presented papers and had discussions ranging from the role of subsidies to measurement problems, from output to employment decline and their relationship to regulation and trade issues. When available, comparisons to the transition experiences of Central European countries were used.
This wide array of paper presentations and discussions was moved to greater depth by the intense willingness of workshop participants from Russia, Central and Eastern Europe, and the West to share their experiences and engage each other with provocative thoughts. Through this process, the workshop was able to move toward a better understanding of what has occurred to output decline and restructuring as well as what the best path to further restructuring and output recovery will be for Russia's future
Classification of Processes by the Lyapunov exponent
This paper deals with the problem of the discrimination between well-predictable and not-well-predictable time series. One criterion for the separation is given by the size of the Lyapunov exponent, which was originally defined for deterministic systems. However, the Lyapunov exponent can also be analyzed and used for stochastic time series. Experimental results illustrate the classification between well-predictable and not-well-predictable time series
Characterization of a continuous-flow reactor for solar UV water disinfection
Lack of access to safe water is a common problem in many developing countries (UNICEF/WHO, 2011). Fortunately, solar ultraviolet (UV) radiation is abundantly available in many of these same areas, and it has been used to accomplish disinfection of drinking water by processes that involve no electrical power, such as solar water disinfection (SODIS). However, conventional SODIS systems are limited by batch processing and exclusion of UVB radiation, which is the most germicidally-active portion of the UV spectrum (Coohill and Sagripanti, 2008). To address these limitations, a continuous-flow solar UV disinfection system was developed to amplify ambient solar UV radiation, while including the UVB portion of the spectrum. With knowledge of the inactivation characteristics of target microbes and ambient spectral irradiance, community-scale, continuous-flow solar UV disinfection systems can be designed. This same information will inform the design of process control devices for these systems that will ensure adequate disinfection.
To address these needs, dose-response experiments were conducted in the UVB range to develop action spectra for two bacteria (Salmonella typhimurium LT2, Vibrio harveyi) and a protozoan parasite, Cryptosporidium parvum. The bacteria were selected as surrogates for the organisms that cause typhoid fever and cholera, respectively. C. parvum was studied because it is known to cause cryptosporidiosis, which together with the two selected bacteria, account for a large fraction of waterborne disease outbreaks in developing countries (GEMS, 2013). UV dose-response experiments were carried out between 254 nm to 330 nm using three different collimated beam sources. The range of wavelengths used for these experiments was selected to allow overlap with previously published work for each of these microbes, while at the same time extending measured action spectra across the entire UVB spectrum.
Measurements of UVB spectral irradiance from the USDA UVB Monitoring Network were compared with simulations of UVB spectral irradiance using the Tropospheric Ultraviolet and Visible Radiation Model (TUV) for West Lafayette, Indiana. The TUV model was used to simulate incident, ambient solar spectral irradiance at locations corresponding to planned implementation of the CPC reactor, including Eldoret, Kenya and Port-Au-Prince, Haiti. Integration of measured action spectra with simulated spectral irradiance indicated that peak antimicrobial effectiveness occurs around 320 nm â 330 nm for all three target microbes. This suggests that process control should be based on real-time measurements of UV radiation in this wavelength range.
A raytracing program (Photopia, LTI Optics) was then used to simulate amplification of solar spectral irradiance within the CPC system using the results of TUV simulations as input. Output from the raytracing simulation illustrated the fluence rate distribution throughout the inner tube of the CPC, based on amplification of the input power within the reactor. Integration of these results with computational fluid dynamics (CFD) will allow for future simulations of the inactivation responses of all three microbes in the CPC system at any given location
To Live to Be a Hundred Is Your Privilege
These days if you aren\u27t a malnourished child of school or preschool age you are apt to feel neglected.
The United States Children\u27s Bureau is giving much help to the mothers of today so that their children may live long and well. We are apt to review our welfare accomplishment with much satisfaction. I hear it said: Is not the infant mortality rate much lower now, and has not the average span of life been lengthened in the last decade from thirty; three years to forty-five years? Science surely has done much to increase the chances to live twelve years
Mean flow instabilities of two-dimensional convection in strong magnetic fields
The interaction of magnetic fields with convection is of great importance in astrophysics. Two well-known aspects of the interaction are the tendency of convection cells to become narrow in the perpendicular direction when the imposed field is strong, and the occurrence of streaming instabilities involving horizontal shears. Previous studies have found that the latter instability mechanism operates only when the cells are narrow, and so we investigate the occurrence of the streaming instability for large imposed fields, when the cells are naturally narrow near onset. The basic cellular solution can be treated in the asymptotic limit as a nonlinear eigenvalue problem. In the limit of large imposed field, the instability occurs for asymptotically small Prandtl number. The determination of the stability boundary turns out to be surprisingly complicated. At leading order, the linear stability problem is the linearisation of the same nonlinear eigenvalue problem, and as a result, it is necessary to go to higher order to obtain a stability criterion. We establish that the flow can only be unstable to a horizontal mean flow if the Prandtl number is smaller than order , where B0 is the imposed magnetic field, and that the mean flow is concentrated in a horizontal jet of width in the middle of the layer. The result applies to stress-free or no-slip boundary conditions at the top and bottom of the layer
- âŚ