Your search keyword '"Dissipation"' showing total 32 results

1. Modification of Rayleigh dissipation function for numerical simulation of internal damping in rod structures

Author

V. N. Sidorov, E. S. Badina, and D. O. Klimushkin

Subjects

dissipation, damping, damping coefficients, timoshenko beam, material internal friction, finite element method, rayleigh dissipative function, Architecture, NA1-9428, Construction industry, HD9715-9717.5

Abstract

Introduction. The paper proposes a method of accounting for energy dissipation for the Timoshenko beam by constructing a damping matrix based on a modified Rayleigh function in the numerical solution of the problem. In this modification, the velocity of displacements is replaced by the velocities of linear and angular deformations. This approach allows us to take into account energy dissipation due to internal friction in the material when both its volume and shape change. The presented technique is promising in practical calculations of structures when shear stiffness has a significant impact on their stress-strain state.Materials and methods. Several proven methods of energy dissipation accounting are considered, including those that make it possible to take into account the energy loss of a moving structure during friction with the external environment (external damping) and dissipation due to friction in the material of the structure deformed in motion (internal damping). Methods for determining the damping coefficients for each of them are presented. The finite element method is used to calculate rod systems. Damping matrices are derived from the condition of stationarity of the total energy of deformation of a mechanical system in motion, including linear and angular deformation rates.Results. Damping matrices proportional to strain rates obtained on the basis of the modified dissipative Rayleigh function are given. A method for determining the damping coefficient taking into account the rates of angular deformation is proposed.Conclusions. The damping matrices presented in the paper describe the energy dissipation during vibrations of mechanical systems due to internal friction in the material. The internal damping matrix was obtained taking into account the influence of linear and angular deformation rates to simulate the dynamic behaviour of short bending structural elements, the deformation of which is described using the Timoshenko model. The performed dimensional check additionally confirms the correctness of the damping matrix construction. Moreover, the dimension of the proposed shear damping coefficient is the same as that of the widely used viscosity coefficient.

Published

2024

2. Comparative assessment of energy costs of stacker crane movements

Author

Korytov M.S. and Bezrodina A.E.

Subjects

stacker crane, rotary boom, racking, mathematical model, energy, dissipation, Engineering (General). Civil engineering (General), TA1-2040, Chemistry, QD1-999

Abstract

Within the framework of the put forward hypothesis that energy costs of working movements of the links of racking stacker cranes are inextricably linked to the shape of the working area of the warehouse in which the crane operates, to reduce energy costs, it was pro-posed to use a rotating boom in the design of the stacker crane. With the help of program implementations of mathematical models of stacker cranes of traditional bicycle design and the proposed design with a rotating boom, it became possible to determine the average energy costs for all possible movements of loads of the same mass within the corresponding working areas of these designs. For this purpose, systems of differential equations in Cauchy form were developed, where dissipation of energy was taken into account. The total value of work of crane drives during acceleration and braking was determined. The latter were carried out with constant accelerations, and the movement after acceleration — with constant speeds. The developed simulation mathematical models of cranes of traditional design and the proposed design with a rotating boom allow to determine the energy costs in the drives when moving the crane links along the given trajectories. According to the criterion of average total energy costs, adopted for all possible combinations of movements within areas of the same capacity of one hundred square meters, the stacker crane of the proposed design has an advantage over the crane of traditional design. This makes it possible to significantly reduce energy costs when using such cranes in warehouses and hangars. It is reasonable to recommend the use of a stacker crane of the developed design in warehouses of round shape — it will allow to reduce significantly the energy costs when using such cranes in warehouses and hangars.

Published

2024

3. Mathematical model of a stacker crane with a slewing boom

Author

Korytov M.S. and Bezrodina A.E.

Subjects

stacker crane, rotary boom, racking, energy, dissipation, Engineering (General). Civil engineering (General), TA1-2040, Chemistry, QD1-999

Abstract

The widespread use of racking stacker cranes is due to the spread of automated warehouses. Reduction of energy costs when using stacker cranes is one of the main directions of their improvement. The development of mathematical simulation models of stacker cranes allows to determine the energy costs of cargo movement at the stage of design and research. For a new design of the racking crane-stacker, having a rotary boom with a cargo carriage moving along it in the radial direction, a mathematical model in the form of a system of Lagrange differential equations of the second order has been developed. The system of differential equations took into account the energy losses according to the model of viscous friction in the moving links of the boom and the load carriage of the crane. For this purpose, when deriving the differential equations, the Rayleigh function was used, as well as analytical expressions of the potential and kinetic energies of the moving links of the crane, which were differentiated. With the help of typical blocks of the Russian simulation modeling system SimInTech, the obtained system of differential equations was realized in the form of a block diagram. The use of blocks of proportional-integral-differentiating regulators in the simulation model allowed to realize the principle of working out the given trajectory of movement of the crane links, and the numerical integration of the current powers of the boom and carriage drives allowed to determine the accumulated total energy consumption of the drives at a given displacement. The current values of drive powers were determined as products of moments and forces of drives on the speeds of the corresponding links of the boom and carriage. As an example, when running the simulation model, the time dependences of the coordinates of the boom and load carriage of the crane, as well as the moments and forces of the drives, power and work during the movement from a point with zero coordinates to a point with specified coordinates and back. The developed simulation mathematical model is intended to determine the energy costs in the drives of a new design crane with a rotating boom at given displacements of links, as well as, in the future, to verify the control algorithms.

Published

2023

4. The study of the structure and properties of a friction composite material based on an iron matrix

Author

Anna A. Afanaseva, Oleg V. Bashkov, and Valery S. Fadeev

Subjects

composite friction material, grain boundary density, powder metallurgy, friction surface structure, dissipation, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The continuous increase in the speed and load of railway transport operating in a wide range of climatic zones of the Russian Federation creates a need to develop new friction materials with the improved performance properties that can ensure high functioning reliability of the electric switch mechanisms. The paper presents the results of the study of the microstructure, physical, mechanical, and operational properties of a new material for friction inserts based on an iron matrix for the switch gear clutches. The new material composition includes such components as Fe, Cu, BaSO4, SiO2, C, and Zn. The authors propose a technique for selecting materials with the specified performance properties based on the results of the research carried out using the experiment factorial planning. For this purpose, the authors carried out the studies and established a relationship between the values of microstructure indicators, physical, mechanical and operational properties of the materials with different quantitative composition of components. The grain boundary density was proposed as an indicator of the dissipative properties of the material, and the possibility of its application as a structural parameter for evaluating the friction material performance characteristics. To assess the friction material performance characteristics, which determine the possibility of its application as a part of the friction clutches of the electric switch mechanism, the authors proposed a new parameter – the endurance period t. Another service property was the deviation of the friction coefficient Dƒ values in the range of values of the clamping force of the electric switch mechanism. According to the results of bench tests of a new friction material within the friction clutches of the electric switch mechanism, the authors identified a high wear resistance of the material and the possibility of its use in severe climatic conditions. The proposed testing technique allows predicting the performance properties of new materials at the stage of studying the microstructure based on the obtained dependences, which can significantly narrow the search range.

Published

2022

5. To the question of accounting in the equation of Korteweg – de Vriz of the dissipative term. Part 2

Author

S.O. Gladkov

Subjects

korteweg de vries equation, dissipation, nonlinear transformation, Physics, QC1-999, Mathematics, QA1-939

Abstract

Background. When solving problems, the main character of which is the nonlinear equation of Korteweg de Vries (KdV), it is necessary to understand how calculations should be carried out taking into account the dissipative component. This point is quite relevant, and the main purpose of this report is precisely the analytical representation of the solution of the dissipative equation KdV. Materials and methods. The main method for solving the dissipative equation KdV, which is used in the work, is a formal transition to a new variable, which allows presenting the solution in the form of a soliton in a very compact form. Results and conclusions. The analysis given in the paper makes it possible to automatically take into account attenuation, which can be of a diverse nature depending on the real environment with which the soliton interacts. This result is the main conclusion of this communication.

Published

2022

6. Распространение электрического импульса в конечном интервале идеальной электропроводности и его полное поглощение в конце интервала.

Author

Селезов, И. Т. and Шептилевский, А. В.

Abstract

Copyright of Electronic Processing of Materials / Elektronnaya Obrabotka Materialov is the property of Institute of Applied Physics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

7. Influence of temperature on the dissipative properties of soils.

Author

Petrosjan, T. L.

Subjects

*SOIL creep, *ELASTIC modulus, *SOILS, *ENERGY dissipation, *TEMPERATURE effect

Abstract

In order to study the effect of temperature changes on the dissipative properties of soils, a certain temperature function is introduced under the integral sign in the equation of the theory of heredity and at the same time takes into account the dependence of the elastic modulus on temperature. As a result, on the basis of experimental data on the thermal creep of soils, an expression was obtained for determining the hysteresis energy losses with periodic voltage changes depending on the temperature change. [ABSTRACT FROM AUTHOR]

Published

2021

8. PHYSICAL AND CHEMICAL FEATURES OF DYNAMIC OF POLYMERIC FLUID

Author

Alexander R. Karimov, Mikhail A. Taleysnik, Tat’yana V. Savenkova, Larisa M. Aksenova, and Timofei V. Gerasimov

Subjects

melt, polymers, reynolds number, navier-stokes equation, azimuthal vorticity, dissipation, Food processing and manufacture, TP368-456

Abstract

In order to determine the nature of processes of the dynamic polymer flow with simple chemical reactions in two-dimensional cylindrical geometry, objects — a sugar melt and a high molecular weight fraction of glutenin of flour — were chosen in the hydrodynamic description, which were investigated on a rotational rheometer HAAKE RotoVisco 1 and the Moisture Analyzer OHAUS MB23. The nonlinear dynamics of a viscous flow of a compressible, homogeneous liquid with chemical reactions is considered. A nonstationary exact solution of the Poiseuille type is obtained. This solution is used to investigate the effect of viscosity and chemical reactions of the first order on the characteristics of the nonequilibrium dynamic states of the system. The present results of the joint research of the specialists of the All-Union Research Institute of the Confectionery Industry and the MEPhI are a continuation of the work on the formation of structures in food disperse systems and indicate that similar features can also be manifested in real flows of polymer liquids in various industrial installations.

Published

2018

9. LIQUID LAYERS MOTION INVESTIGATION

Author

Victor V. Trepachev

Subjects

liquid layers, support column, load force, internal wave, dissipation, diffraction, interfacial tension, hard cover approaching., Mechanics of engineering. Applied mechanics, TA349-359

Abstract

The diffraction motion of two layers of the incompressible heavy liquid around the vertical circular support column is investigated. The hard cover approaching is used to distinguish internal wave alone. The research data are extended to the utmost scope of the wave motion of the liquid layers of both the field studies and lab tests.

Published

2018

10. Long-term strength curves generated by the nonlinear Maxwell-type model for viscoelastoplastic materials and the linear damage rule under step loading

Author

Andrew V Khokhlov

Subjects

viscoelastoplasticity, creep curves, damage, failure criteria, dissipation, creep rupture, creep lifetime, long-term strength curves, superplasticity, Mathematics, QA1-939

Abstract

The nonlinear Maxwell-type constitutive relation with two arbitrary material functions is formulated for viscoelastoplastic materials and studied analytically in uni-axial case to reveal capabilities of the model and its applicability scope. Its coupling with a number of fracture criteria is analyzed in order to simulate creep rupture under constant and piecewise-constant loading and to compare creep life estimates arising as a result. The limit strain criterion, the critical dissipation criterion and two proposed new families of failure criteria taking into account a strain history (i.e. a whole creep curve) are considered. Long-term strength curves equations generated by each one of the four chosen failure criteria are derived. Their general qualitative properties are analyzed and compared to each other under minimal restrictions on material functions of the constitutive relation. It is proved that qualitative properties of all theoretic long-term strength curves coincide with basic properties of typical test long-term strength curves of viscoelastoplastic materials. For every failure criteria considered herein, rapture time under step-wise loading is evaluated for arbitrary material functions and compared to the lifetime yielding from the linear damage accumulation rule (i.e. “Miner’s rule”). General formulas for cumulative damage (“Miner’s sum”) deviations from unity are obtained for all failure criteria coupled with the nonlinear Maxwell-type constitutive relation. Their dependences on material functions and loading program parameters are examined. In particular, it is proved that the linear damage rule is exactly valid for the critical dissipation criterion whatever material functions, number of loading steps and stress levels are chosen. On the contrary, for the limit strain criterion, the linear damage rule is never valid for two-step loading and cumulative damage at rapture instant is greater or less than unity depending on the sign of stress jump.

Published

2016

11. HIGH SPEED CUTTING TOOL SURFACE MORPHOLOGY WHEN TURNING BT20 TITANIUM ALLOY

Author

Mr. Vladimir A. Kim, Mr. Fevzi Y. Yakubov, and Mr. Chingiz F. Yakubov

Subjects

Kew words: surface projection, cutter, turning, the process material, mesostructure, dissipation, runout, destruction, deformation, tension, General Works

Abstract

The secondary structures formed on working surfaces of the cutting wedge have the mesostructural morphology and function in the dissipative mode. The article provides the analysis of the cutting tool working surfaces projection received by means of a scanning electronic microscope that shows the mechanism of secondary mesostructures forming and working. It is shown that the dissipative activity of secondary structures is defined by the structural morphology of the cutting tool working surfaces at the mesolarge-scale level and is connected with internal friction within mesoobject boundaries.

Published

2016

12. СТРОЕНИЕ И СВОЙСТВА НАНОРАЗМЕРНЫХ И МЕЗОСКОПИЧЕСКИХ МАТЕРИАЛОВ Теплові флюктуації електромагнетного поля в ПВХ, наповненому мікро- та нанодисперсним графітом.

Author

Колупаєв, Б. Б., Колупаєв, Б. С., Левчук, В. В., Максимцев, Ю. Р., and Сідлецький, В. О.

Abstract

Copyright of Metallophysics & Advanced Technologies / Metallofizika i Novejsie Tehnologii is the property of G.V. Kurdyumov Institute for Metal Physics, N.A.S.U and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

13. CONTRIBUTION OF RESONANCE SCATTERING OF QUASI-TWOAND THREE-DIMENSIONAL MOBILE CARRIERS TO DISSIPATION OF CLASSICAL CYCLOTRON RESONANCE CURVE

Author

Т. Т. Muratov

Subjects

cyclotron resonance, dissipation, resonance scattering, asymptotic formulas, History of Russia. Soviet Union. Former Soviet Republics, DK1-4735, Psychology, BF1-990

Abstract

Получены асимптотические формулы для уширения кривой поглощения классического циклотронного резонанса (ЦР) в условиях резонансного рассеяния электронов на атомах примеси. Расчеты проведены с учетом распределения Максвелла. Оценки показывают, что возможный виртуальный уровень (~ 0,4 мэВ) в квазидвумерных полупроводниках на порядок меньше чем в объемных (порядка мэВ), это указывает на то, что область температур соответствующих резонансному рассеянию электронов в квазидвухмерных полупроводниках менее 1K. 2D полуширина линии поглощения достигает максимума при 0,2 K. Зафиксирована температурная щель (0,2 ÷ 0,62) K в спектре поглощения, это указывает на то, что более совершенная теория уширения требует учета рассеяния электронов на приповерхностных акустических фононах, 2D ионах примеси и квантовых поправок.

Published

2014

14. LIQUID LAYERS MOTION INVESTIGATION

Author

Victor V. Trepachev

Subjects

liquid layers, support column, load force, internal wave, dissipation, diffraction, interfacial tension, hard cover approaching., Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The diffraction motion of two layers of the incompressible heavy liquid around the vertical circular support column is investigated. The hard cover approaching is used to distinguish internal wave alone. The research data are extended to the utmost scope of the wave motion of the liquid layers of both the field studies and lab tests.

Published

2011

15. Modeling and analysis of the dissipation processes of micromechanical beam resonators

Subjects

thermoelastic dissipation, ����������������������������������������, MEMS, PML, anchor losses, ����������������, ��������������������������������������������, quality factor, resonator, dissipation, ������������������������������������, �������������������������������� ����������������������������������������, ������������������������������������������������ ����������������������������������������

Abstract

������������������������ ������������������������ ������������������������������������ ������������������������������������������������ ������������������������������������ ����������������������������������������, ������������������������������������������ ���� ������������������������������ ���������������������������������� ������������������������������ ������������������������������������������ . ������������������������, ���������������������������� �������������������������������� ���� �� ������������ ������������������������: 1. ������������������������������������������������ ���� ������������������������ �������������������������������������������������� ���������������������������� �������������������������������� ���� ������������������������������������������������ ����������������������������������������. 2. ������������������������������������ ���������������������������������������������������� ������������������������������������ ����������������������������������������. 3. ������������������������������������ ���������������������������������� �������������������������������������������� ���� ������ ������������������������������������ ���� �������������������������������������������������������� ������������������������������������. 4. ������������������������������������������������ ���������������������������� PML ������������ �������������������� ���� ������������������������������������������������ ������������������������������������. 5. ������������������������������������������������ �������������������������������� ������������������������ �������������������������������������������� ���� �������������������������������������������� �������� ����������������-������������������������ ����������������������������. ���� �� ������������ ������������������������ ���������������� �������������������������������� ������������������������������������������������������������������������ �������������������������������� �������������������������������������������� ������������������������������������ ������������������������������ �������������������������������������������� ���� �������������������������������������������� �������� ������������������������������������������������������ ���� �������������������������������������������������� ���������������������������������������� ����������������������������. ������������������������������������ ������������������������������������ �������������������������������������������������� ���� ���������������������������������� ���������������������������������������� �������������������������������������������� �������� ���������������������������� �������������������������������������������� �������������� �������������������� �������������������������������������������� ���� �������������������������������������������� �������� ������ ����������������������������������������. ������������������������������������ ������������������������������������������������ �������������������������������������������� ���� ������������������������������������ ����������������������������-�������������������������������������������� ���������������������������� Comsol Multiphysics. �������������������������������� ���������������������������� �������������������������������������������� ������������ ������������������������������������������������ ���������������������������������� ������������������������������������������������������ ���������������������������������������� �������������������������������������������� ������������ ���������������������������������������� �������������������� �������������������������������� ���� ������������������������������������������������ ����������������������������������������., This work is devoted to the study of the dissipation processes occurring in micromechanical beam resonators. The research set the following goals: 1. Research and analysis of analytical models of anchor and thermoelastic dissipation. 2. Numerical simulation of dissipation processes. 3. Processing of numerical results and their comparison with analytical solutions. 4. Exploring the properties of PML for problems with infinite domains. 5. Investigation of the total Q-factor values depending on the system parameters. In the course of the work, the properties of the Q-factor of vibrations of beam resonators were clearly demonstrated, depending on the geometric and temperature parameters of the system. Comparisons of analytical and numerical calculations of the Q-factor on the example of resonators of two types of bonds, depending on their parameters, are given. Numerical studies were carried out in the Comsol Multiphysics finite element analysis program. The Q-factor graphs are obtained for varying the various geometric parameters of the resonators with the joint account of the anchor and thermo-elastic dissipation.

Published

2021

16. Investigation of natural raw materials turbulent flow structure in pipelines at confuser-diffuser section

Author

Kharlamov, Sergey Nikolaevich and Fatyanov, Dmitriy Sergeevich

Subjects

пристеночное течение, Materials Science (miscellaneous), near-wall flow, Reynolds stress, гидродинамика, Management, Monitoring, Policy and Law, Curvature, турбулентные потоки, конфузорно-диффузорные соединения, Waste Management and Disposal, трубопроводы, численное моделирование, Turbulence, turbulence, mathematical modeling, confuser-diffuser connections, pipeline, Mechanics, Dissipation, природное сырье, Geotechnical Engineering and Engineering Geology, турбулентность, Pipeline transport, Fuel Technology, numerical modeling, Eddy, Turbulence kinetic energy, hydrodynamics, поперечное сечение, Economic Geology, Shear flow, Geology, математическое моделирование

Abstract

Актуальность работы вызвана необходимостью: понимания механизмов перестройки гидро-динамических, тепловых и диффузионных процессов, сопровождающих течение углеводородных вязких сред; уяснения характера их взаимодействия в ограниченных внутренних областях под действием комплексных эффектов, сопровождающих течение в сложных трубопроводах; выработки эффективных решений по оптимальному управлению транспорта природного сырья и повышения надежности функционирования энерго-напряженных узлов трубопроводов. Объектом исследования являются пристеночные потоки капельных и газообразных углеводородных сред в конструктивных элементах внутренних систем, часто встречаемых в инженерных приложениях, в частности, нефтегазовой, химико-технологической и тепло-энергетической отраслях промышленности. Такие элементы представляют собой участки коротких или протяженных трубопроводов с криволинейной поверхностью стенки в форме, подобной соединительным узлам или секциям переменного по длине поперечного сечения конфузорно-диффузорного типа. Причем течения в них осложнены эффектами влияния кривизны линий тока, пространственной деформацией, изменениями динамической структуры и давления. Цель: уяснение неопределенностей, особенностей и закономерностей течений, а также возможности применения современных моделей турбулентности к прогнозу процессов в трубопроводах с секциями конфузорно-диффузорного типа; детальное исследование изменений "тонкой" структуры сложного сдвигового течения; выдача рекомендаций в практику расчета пристеночных потоков в указанных гидро-динамических конфигураций и интенсивных режимах работы оборудования. Методы: теоретические и практические методы математического моделирования и численного исследования пространственных турбулентных течений, особенностей изменений их пульсационной структуры по схемам (моделям) с большим числом уравнений - RANS-модели турбулентности, включающие опорную динамическую двух-параметрическую базу. Выбор последней зависит от представлений: с какой степенью она способна воспроизвести статистические корреляции либо параметры сложного движения, локальные свойства (интегральный масштаб, кинетическую энергию, скорость ее диссипации и т. д.) вихря; учитывает ли неоднородный и анизотропный характер изменений структуры потока из-за деформационных эффектов, возбуждаемых переменным давлением и градиентами рейнольдсовых напряжений. Результаты. Проанализированы особенности турбулентных течений углеводородных вязких сред в трубопроводах, включающих соединительные элементы конфузорно-диффузорного типа. Изучены возможности популярных в расчетах сложных сдвиговых течений вязких сред в трубопроводах с криволинейной границей стенки многопараметрические статистические модели турбулентности второго порядка, реализуемые в высоко- и низко-рейнольсовых версиях. Обнаружено, что лучшее описание интенсивности течений и размеров рециркуляционных зон в трубопроводах дают k-kl[omega]/kL- и RSM-kL-модели, как более консервативные и устойчивые к возмущениям, идущим со стенок трубопровода. Поэтому включение их в опорную базу для RSM-модели вполне целесообразно. Расчетами выявлено существование второй зоны отрывного течения. Показано, что наибольшие изменения турбулентной кинетической энергии турбулентности, нормальных компонент тензора напряжений Рейнольдса локализованы в зоне взаимодействия сдвигового слоя с возвратным и прямоточным оторвавшимся течением, а генерация - вблизи точки отрыва. Соответствие расчетов структуры подобных течений данным других авторов позволяет утверждать, что понимание процессов, прогноз интенсивности динамических нагрузок в локальных зонах присоединения потока к стенкам по представленным моделям не приведет к аварийности функционирования оборудования и обеспечит оптимальное управление транспортировкой сырья по трубопроводам. The relevance of the research is caused by the need to understand the mechanisms of restructuring hydrodynamic, thermal and diffusion processes accompanying the flow of hydrocarbon viscous media; to explain the nature of their interaction in limited internal areas under the action of complex effects accompanying the flow in complex pipelines; to develop effective solutions for optimal control of natural raw material transport and improvement of reliability of operation of pipelines energy-stressed nodes. The object of the research is the near-wall flows of drop and gaseous hydrocarbon media in structural elements of internal systems often encountered in engineering applications, in particular, oil and gas, chemical and thermal power industries. Such elements are sections of short or extended pipelines with curved wall surface in the form similar to connecting units or sections of confuser-diffuser type varying in length. Streams are complicated by effects of curvature of flow lines, spatial deformation, changes in dynamic structure and pressure. The aim of the work is to understand uncertainties, peculiarities and patterns of flows, as well as the possibility of applying modern models of turbulence to forecast the processes in pipelines at confuser-diffuser sections; to study in detail the changes in the "fine" structure of the complex shear flow; to give recommendations in calculating practice of near-wall flows in the specified hydrodynamic configuration and intensive operation modes of the equipment. Methods: theoretical and practical methods of mathematical modeling and numerical investigation of spatial turbulent flows, peculiarities of changes in their pulsation structure according to schemes (models) with a large number of equations - RANS-models of turbulence, including a dynamic two-parameter base. The choice of the latter depends on the representations: to reproduce statistical correlations or parameters of complex flows, local turbulent properties (integral scale, kinetic energy, dissipation, etc.) of the eddies; to take into account the non-uniform and anisotropic nature of changes in flow structure due to deformation effects excited by variable pressure and Reynolds stresses gradients. Results. The authors have analyzed the features of turbulent flows of hydrocarbon of viscous media in pipelines including connecting elements of confuser-diffuser type and studied the possibilities of complex shear flows of viscous media, popular in calculations of the pipelines at the curved wall boundary, multi-variable statistical models of second-order turbulence, implemented in high- and low-Reynolds versions. It has been found that a better description of the intensity and size of the recirculation zones of the pipelines is given by the k-kl[omega]/kL- and RSM-kL models as being more conservative and resistant to perturbations coming from the walls of the pipeline. Therefore, it is appropriate to include them as the base for the RSM-model. Calculations revealed the existence of a second separated flow zone. It is shown that the greatest changes of turbulent kinetic energy of turbulence, normal components of Reynolds stresses tensor are located in the zone of interaction of shear layer with return and straight-flow separated flow, and the generation is near the separated point. The compliance of calculations of the structure of similar flows with the data of other authors allows stating that understanding of processes, forecast of intensity of dynamic loads in local zones of flow connection to walls according to the presented models will not lead to emergency operation of equipment and will ensure optimal control of transportation of raw materials by pipelines.

Published

2020

17. ФОРМИРОВАНИЯ УПОРЯДОЧЕННЫХ ДЕФЕКТНЫХ СТРУКТУР В КРИСТАЛЛАХ НИОБАТА ЛИТИЯ РАЗЛИЧНОГО ХИМИЧЕСКОГО СОСТАВА ПРИ НЕРАВНОВЕСНЫХ ПРОЦЕССАХ РАЗЛИЧНОЙ ПРИРОДЫ

Subjects

неравновесные процессы, диссипация, non-equilibrium processes, lithium niobate, dissipation, ниобат лития

Abstract

В кристаллах ниобата лития при неравновесных процессах различной природы обнаружено возникновение упорядоченных дефектных структур, вид которых зависит от природы и энергии воздействия, а также от состава монокристалла. Образование упорядоченной дефектной структуры происходит не только в месте непосредственного воздействия (лазерного излучения, механического напряжения и т. п.), но и в некоторой пространственной области вокруг него., In lithium niobate crystals of different composition at nonequilibrium processes of different nature, we have detected appearance of ordered structures of defects, the shape of which depends on nature and energy of the action and the crystal composition. Formation of ordered system of defects occurs not only in the point of the outer force action, but also in some area around it., №1 (2019)

Published

2019

18. HIGH SPEED CUTTING TOOL SURFACE MORPHOLOGY WHEN TURNING BT20 TITANIUM ALLOY

Author

Yakubov Fevzi Ya, Chingiz F. Yakubov, and Vladimir A. Kim

Subjects

Surface (mathematics), Morphology (linguistics), Materials science, Cutting tool, Kew words: surface projection, Metallurgy, cutter, mesostructure, deformation, Titanium alloy, runout, lcsh:A, General Medicine, dissipation, destruction, tension, the process material, turning, lcsh:General Works

Abstract

The secondary structures formed on working surfaces of the cutting wedge have the mesostructural morphology and function in the dissipative mode. The article provides the analysis of the cutting tool working surfaces projection received by means of a scanning electronic microscope that shows the mechanism of secondary mesostructures forming and working. It is shown that the dissipative activity of secondary structures is defined by the structural morphology of the cutting tool working surfaces at the mesolarge-scale level and is connected with internal friction within mesoobject boundaries.

Published

2016

19. [Untitled]

Author

Ovshinov, Aleksey

Subjects

nonlinearity of development, fluctuation, social order, chaos, synergetic, attractors, cosmos, dissipation, infinite space, Nonlinear Sciences::Chaotic Dynamics, thermodynamics, cosmogony, bifurcation, derivatives, entropy, chasm

Abstract

A significant role of the archaic ideas about the chaos phenomenon in the structure of consciousness makes clear the importance of the term «chaos» in social philosophy and sociology. In recent decades, in science the destruction of the classical mechanism occurred and such theories as quantum physics, non-equilibrium thermodynamics, statistical physics, and particularly synergy were developed. They became the main reasons for the increased attention to the paradigm of chaos. Modern science tries to understand how the order emerges out of chaos and to develop the theory of synergy. In the article the attempt to analyze the process of transformation of chaos into social order with the synergistic approach.

Published

2018

20. Социальный порядок и хаос – динамическое равновесие (синергетический подход)

Subjects

флуктуация, диссипация, бифуркация, хаос, бездна, бесконечное пространство, social order chaos, attractors, infinite space, космос, thermodynamics, аттракторы, the nonlinearity of development, нелинейность развития, chasm, социальный порядок, энтропия, синергетика, fluctuation, synergetic, cosmos, dissipation, дериваты, cosmogony, bifurcation, derivatives, космогония, entropy, термодинамика

Abstract

Существенная роль архаического представления о феномене «хаос» в структуре сознания делает понятным то значение, которое термин «хаос» имеет в социальной философии и социологии. В последние десятилетия в науке произошло разрушение классического механизма и получили развитие такие теории, как квантовая физика, неравновесная термодинамика, статистическая физика и особенно синергетика, которые стали основными причинами возросшего внимания к парадигме хаоса. Современная наука пытается понять, как возникает порядок из хаоса, и развивает теорию синергетики. В статье предпринята попытка анализа процесса трансформации хаоса в социальный порядок с использованием синергетического подхода., The significant role of archaic ideas about the phenomenon of “chaos” in the structure of consciousness makes clear the meaning of the term «chaos» in social philosophy and sociology. In recent decades, science was the destruction of the classical mechanism and such theories as quantum physics, non-equilibrium thermodynamics, statistical physics, and particularly synergy developed, which were the main reasons for the increased attention to the paradigm of chaos. Modern science tries to understand how order emerges out of chaos and views the theory of synergy. In the article the attempt of analysis of the process of transformation of chaos to social order with the use of a synergistic approach.

Published

2017

21. Анализ и оптимизация явных разностных схем высоких порядков для реализации этапа адвекции метода решеточных уравнений Больцмана

Subjects

диссипация, Polynomial, Advection, Lattice Boltzmann methods, устойчивость, dissipation, stability, Dissipation, Stability (probability), метод расщепления, Stability conditions, lattice Boltzmann method, splitting method, Applied mathematics, dispersion, дисперсия, Dispersion (water waves), метод решеточных уравнений Больцмана, Mathematics, Parametric statistics

Abstract

Статья посвящена анализу и оптимизации явных разностных схем для решения уравнений переноса, возникающих на этапе адвекции метода расщепления по физическим процессам. Метод может применяться как для решеточных уравнений Больцмана, так и при решении кинетических уравнений общего вида. Рассматриваются схемы второго-четвертого порядков аппроксимации. Для уменьшения эффектов численных диссипации и дисперсии используются схемы с параметром. С использованием метода фон Неймана и полиномиальной аппроксимации границ областей устойчивости получены условия устойчивости схем в виде неравенств на значения параметра Куранта. Оптимальные значения параметра для регулирования диссипативных и дисперсионных эффектов предлагается находить посредством решения задач минимизации функций максимума. Схемы с оптимальными значениями параметра применяются при решении тестовых задач - для одномерного и двумерного уравнений переноса, а также при применении метода расщепления к решению задачи о течении в каверне с подвижной крышкой., This paper is devoted to the analysis and optimization of explicit finite-difference schemes for solving the transport equations arising at the advection stage in the method of splitting into physical processes. The method can be applied to the lattice Boltzmann equations and to the kinetic equations of general type. The second-to-fourth order schemes are considered. In order to minimize the effect of numerical dispersion and dissipation, the parametric schemes are used. The Neumann method and the polynomial approximation of the boundaries of stability domains are employed to obtain the stability conditions in the form of inequalities imposed on the Courant parameter. The optimal values of the parameter used to control the dissipation and dispersion effects are found by minimizing the maximum function. The schemes with optimal parameters are applied for the numerical solution of 1D and 2D advection equations and for the problem of lid-driven cavity flow., ВЫЧИСЛИТЕЛЬНЫЕ МЕТОДЫ И ПРОГРАММИРОВАНИЕ: НОВЫЕ ВЫЧИСЛИТЕЛЬНЫЕ ТЕХНОЛОГИИ, Выпуск 3 2017

Published

2017

22. On prognostication ability of active geosystems: metastability and steady transitions instead of attractors

Author

V.N. Shuman

Subjects

Nonlinear system, Character (mathematics), Relation (database), Computer science, Process (engineering), Attractor, Structure (category theory), dynamic systems, seismicity, spontaneous emissions, prognostication ability of geosystems, seismoelectromagnetism, transitional processes, autostructures, systems with noise, Statistical physics, Dissipation, Exponential function

Abstract

Some details and special features are under considerations of undertaken experimental and theoretical studies related to prognosticated ability and forecast of geo-systems dynamics which were paid not enough attention but, possibly, might have crucial importance for definition of future studies in this area. According to the ideas of nonlinear dynamics of spatial-temporal processes and systems new capabilities and new approaches to their solutions are being discussed. Crucial dynamic objects of such an approach are meta-stability and steady transitions, and, in addition, to metastable images in phase spaces of the system do not respond the attractors but transitional sets of paths. Active role of geo-medium and its specific dynamic conditions generated by cooperative behavior of its elements and subsystems is underlined. More appropriate definition is formed of seismic process and possible mechanisms of generation of spontaneous emissions of different character, associated with transitional dissipation, more justified from both their physical interpretation and simulation. On this base and taking into account overall criteria, which guarantee the emergence of critical dynamics and discovered lately new nonlinear dynamic regimes in spread active (excited) systems actual problems are discussed of diagnostics and prognostication capability of geosystems, special role and the influence of noises of different character on the active structured geosystems admitting self-organized critical behavior and processes of formation exponential spectra of capacity is noticed. In addition, standing apart of widely declared theses of 70-80 th of last century, and unlike the strange-attractor approach, the basic attention is paid to effects of noises and fluctuations upon large-scale dynamics of geosystems. As a result the problem of local forecast in up-to-date definition may be considered as a study of a response of active (excitable) structured geomedium on multifrequency spontaneous fluctuations and external actions. Attention is paid to some special features and essential factors of formation of focal zones and evolution processes, known from observations and solutions of basal equations of nonlinear dynamics. Strong relation of spontaneous emissions of lithosphere with dynamics of auto-structures and their complexes is underlined. In addition, blocky-hierarchic heterogeneous structure of lithosphere determines not only spatial characteristics of the fields of spontaneous emissions but also, to significant extent, their temporal and energetic characteristics.

Published

2016

23. Tradition in the long view of transitive time

Author

Sylantyeva, V. I.

Subjects

TRADITION, ЧЕХОВ АНТОН ПАВЛОВИЧ (1860-1904), ЛИТЕРАТУРНЫЕ ТРАДИЦИИ, ДИССИПАТИВНОСТЬ, ENTROPY FLUCTUATION, NONEQUILIBRIUM, ХУДОЖЕСТВЕННОЕ СОЗНАНИЕ, ФЛУКТУАЦИЯ, НЕРАВНОВЕСНОСТЬ, ЛИТЕРАТУРНЫЕ ЖАНРЫ, РУССКИЕ ПИСАТЕЛИ, ЛИТЕРАТУРНОЕ ТВОРЧЕСТВО, ХАОС, TRANSITIONAL TIME, РУССКАЯ ЛИТЕРАТУРА XIX В, ЛИТЕРАТУРОВЕДЕНИЕ, CHAOS, ЭНТРОПИЯ, DISSIPATION

Abstract

В статье поставлен вопрос об особенностях наследования традиции в периоды "слома эпох" и перехода от одной формы художественного отражения мира к другой. Вопросы переходного художественного сознания возникают периодически, в современной литературе это демонстрирует постмодернизм. Для характеристики таких периодов часто используют терминологию и понятийный ряд, предложенный синергетиками.. The article raises the question of the specific peculiarities of tradition inheritance in periods of "the turn of the ages" and the transition from one form of artistic world reflection to another. The problems of artistic consciousness transition occur periodically; in modern literature, it is represented by postmodernism.

Published

2016

24. Simulation of frictional energy dissipation in a fiber contact subjected to normal and tangential oscillation

Author

A. Butz, J. Zhang, and Qiang Li

Subjects

Frictional energy, Materials science, Solid-state physics, Oscillation, 02 engineering and technology, Surfaces and Interfaces, Mechanics, Dissipation, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Aspect ratio (image), 020303 mechanical engineering & transports, Classical mechanics, 0203 mechanical engineering, Mechanics of Materials, General Materials Science, ДИССИПАЦИЯ ЭНЕРГИИ ТРЕНИЯ, КОНТАКТ ВОЛОКОН, МЕТОД РЕДУКЦИИ РАЗМЕРНОСТИ, КОЭФФИЦИЕНТ ТРЕНИЯ, Fiber, 0210 nano-technology, Constant (mathematics), Coefficient of friction

Abstract

This paper presents a numerical study on the frictional contact between two crossed fibers subject to both normal and tangential oscillation. The results from simulation using the method of dimensionality reduction show that the frictional energy dissipation increases firstly with coefficient of friction, and then almost symmetrically decreases to a constant. The fiber aspect ratio has an important effect on the energy dissipation and this effect becomes more significant for larger coefficient of friction. The simulation results for very large coefficient of friction show a good agreement with the analytical solution for the case of infinite coefficient of friction.

Published

2015

25. Identification of the impulse load on a visco-elastic beam

Subjects

диссипация, Voigt model, сосредоточенная нагрузка, identification, минимизация, minimization, dissipation, concentrated load, модель Фойгта

Abstract

Работа представляет решение задачи по идентификации положения и амплитудного значения импульсной сосредоточенной нагрузки, воздействующей на шарнирно закрепленную балку. Решение построено как на модели балки Кирхгофа, так и на модели Тимошенко, с учетом диссипации энергии колебаний на основе соотношений Фойгта. Процедура идентификации предполагает минимизацию некоторой целевой функции, позволяющей на первом этапе определить приближенное положение точки приложения нагрузки, а на втором – вычислить ее приближенное амплитудное значение. При проведении численного эксперимента исходные данные были взяты с результатов моделирования методом конечных элементов колебаний балки, обусловленных импульсной нагрузкой. Показано, что использование модели Тимошенко обеспечивает более близкий к истинному значению результат идентификации с приемлемой для инженерной практики точностью. In this work the problem of identifying the position and the amplitude value of the pulse concentrated load acting on a hinged beam is solved. The solution is based on both the Kirchhoff beam model and the Timoshenko model, taking into account the energy dissipation through vibrations based on the Voigt ratios. The identification procedure involves minimizing a target function, which makes it possible to determine an approximate position of the point of the load application at the first stage of the procedure, and to calculate an approximate value of the load amplitude at its second stage. The initial data for the numerical experiment are obtained by modeling the vibrations of a beam under an impulse load by the finite element method. It is shown that the result of the load identification obtained by using the Tymoshenko model is closer to the true value than the result obtained by using the Kirchhoff model, with the accuracy acceptable for engineering practice.

Published

2015

26. About modeling of strong disturbances in a soil mass (on an example of the porous environment)

Author

Ruben Z. Kamalyan and Samvel R. Kamalyan

Subjects

lcsh:Social Sciences, lcsh:H, strong disturbance, efficiency, Astrophysics::High Energy Astrophysical Phenomena, detonation products, dissipation, contained explosion

Abstract

The main effects of underground explosion are considered. The fallacy of constructing a model of a contained explosion on the basis of the adiabatic expansion of detonation products scheme is shown.

Published

2011

27. Quality assessment of coordinated holes in mechanical engineering by statistical methods

Subjects

модель, model, characteristic, размер, dissipation, hole, size, indicators, methods, coefficient, отверстие, методы, рассеивание, quality, показатели, обработка, характеристика, коэффициент, machining

Abstract

В статье рассмотрены основные подходы при оценивании качества координированных отверстий с помощью статистических методов. Предложена новая модель для процесса оценивания показателей качества точности координированных отверстий при механической обработке. Получены числовые характеристики для модели оценивания качества точности координированных отверстий с помощью статистических методов машиностроении. The main approaches to the quality assessment of coordinated holes using statistical methods were considered in the paper. The main methods in estimating the accuracy of coordinated sizes were analyzed. The basic characteristics of quality indicators of coordinated holes in the mechanical engineering were examined. Aspects of the accuracy of coordinated holes as a complex indicator were considered. The basic causes of errors in coordinated-hole making during machining were identified. Regulated quality indicators of the accuracy of coordinated sizes in hole making were considered. Analysis of the data of coordinated-hole making was carried out by the Pearson's chi-squared test. A new model for the evaluation of quality indicators of the accuracy of coordinated holes in machining was proposed. Numerical characteristics for the model of quality assessment of the accuracy of coordinated holes using statistical methods in the mechanical engineering and other industries were obtained.

Published

2014

28. Характер диссипации пульсирующего газового потока

Subjects

GAS FLOW, ГАЗОВЫЙ ПОТОК, МОДЕЛИРОВАНИЕ, MODELING, ACOUSTIC INTENSITY, ПУЛЬСАЦИЯ, ДИССИПАЦИЯ, ЧАСТОТА, СИЛА ЗВУКА, FREQUENCY, DISSIPATION

Abstract

Диссипация пульсирующего газового потока касается системы пульсационного сжигания топлива. Пульсационное сжигание является одним из наиболее перспективных направлений в экономии топлива, однако в черной металлургии оно не нашло пока достаточно широкого применения. Поэтому на данном этапе для внедрения пульсационного сжигания целесообразно выбирать объекты исследования, отличающиеся большим потреблением топлива и возможностью варьирования процессом без ущерба для конечного результата. Таким процессом является термообработка сталеразливочных ковшей. Приведены результаты экспериментального исследования диссипации пульсирующего газового потока применительно к пульсационному сжиганию топлива в процессах сушки и разогрева сталеразливочных ковшей. Результаты исследований позволяют подобрать частоты пульсаций, на которых следует ожидать наиболее эффективную работу системы пульсационного сжигания топлива. В частности по резонансным частотам (сушка — 37 Гц, разогрев — 50 Гц), рекомендованы следующие давления пульсирующего потока: • при сушке ковша 0,14 0,18 МПа, причем более стабильную эффективность обеспечивает давление 0,18 МПа; • при разогреве ковша 0,16 0,18 МПа. Dissipation of pulsation gas flow is connected to the system of fuel pulsation combustion. Pulsation combustion is one of the more perspective direction in the fuel economy, however at the iron-and-steel industry it wasn’t found quite wide using. That’s why on this stage for the pulsation com-bustion is reasonable to use the researching objects, which differ by the huge fuel using and possi-bilities of modify the process without damage for the final result. That process is a casting ladle heat treatment. Experimental researches results of pulsating gas flow dissipation applicable to fuel pulsating combustion during casting ladle drying and heating were presents. Research results allow to chose pulsating frequency on which the most effective system work of fuel pulsating combustion necessary wait. Particularly on the resonance frequencies (drying — 37 Hz, heating — 50 Hz), are recommended the next pressures of pulsating flow: • during drying of ladle is 0,14-0,18 MPa, besides the pressure 0,18 MPa provides more stable efficiency; • during heating of ladle is 0,16-0,18 MPa Keywords: pulsing, gas flow, dissipation, frequency, acoustic intensity, modeling.

Published

2014

29. Стаціонарне деформування оболонки з пружним з'єднанням шарів

Subjects

УДК 539.3, Dissipation, inertiality of the interlayer, Furie transform, Дисипація, инерціальність прошарку, перетворення Фур’є, Диссипация, инерциальность прослойки, преобразование Фурье

Abstract

Obtained a stationary solution of the problem of motion nonaxisymmetric normal load along an infinitely long two-layer cylindrical shell with a thin elastic coupling. The influence of the dissipative properties of the layer at a picture of the stress-strain state of structures is investigated, Получено стационарное решение задачи о движении неосесимметричной нормальной нагрузки вдоль бесконечно длинной двухслойной цилиндрической оболочки с тонким упругим соединением. Исследовано влияние диссипативных свойств прослойки на картину напряженно–деформированного состояния конструкции, Отримано стаціонарне рішення задачі про рух невісесиметричного нормального навантаження вздовж нескінчено довгої двошарової циліндричної оболонки з тонким пружним з'єднанням. Досліджено вплив дисипативних властивостей прошарку на картину напружено-деформованого стану конструкції

Published

2012

30. Axiomatics of the phenomenon of the friction as main methodology of its studying

Author

Fedorov, S.

Subjects

диссипация, дисипація, friction, энергия, 621.891,536,531.43, трансформация, рух, деформація, трение, factor of a friction, коэффициент трения, движение, transformation, deformation, трансформація, balance, аксіома, dissipation, деформация, баланс, тертя, коефіцієнт тертя, axiom, енергія, movement, аксиома, energy

Abstract

У статті розглядаються можливості аксіоматичного методу аналізу процесу тертя. Обговорюються деякі вихідні аксіоми тертя, притаманні сучасним знанням трибології. Пропонуються аксіоми, що випливають з аналізу істоти тертя як глобального, балансового феномена трансформації руху (енергії) як такого. Розглядаються уявлення про пластичну деформації як основному механізмі трансформації та дисипації енергії. Пропонується термодинамічний аналіз процесу тертя і його основні висновки. Розглядається фізична суть коефіцієнта тертя, як основного параметра процесу тертя. Purpose. In a modern tribology for the last some decades were created more than ten independent scientific directions. All this complicates the engineering analysis of a friction process as most the general phenomenon of the nature. Approach. On the basis of the all-round analysis of models of a friction process the general are revealed most. These models are considered as initial axioms of a friction process. The conclusion is drawn on expediency of application of the thermodynamic analysis of a friction process, as process of elastic-plastic deformation of a solids surface layer. Structural-energy interpretation of process of plastic deformation and friction process is given. The generalized energy equations of friction process are received. The conclusion is drawn on a community of the equations of energy balance of a friction. The equations of energy balance of a friction allow to interpret particular models of a friction. The physical sense of a sliding friction coefficient is considered. It is shown that the friction coefficient is the main and most informative parameter of a friction process. Findings. The thermodynamic analysis of a friction process allows to present it as a basis of an axiomatic method. Such approach possesses property of the general axiomatics of a friction when it is possible to form chains of strict proofs of the separate parties of a friction process. Originality. The analysis of a friction process from positions of the equations of energy balance showed high efficiency at the solution of a wide number of practical tasks. В статье рассматриваются возможности аксиоматического метода анализа процесса трения. Обсуждаются некоторые исходные аксиомы трения, присущие современным знаниям трибологии. Предлагаются аксиомы, вытекающие из анализа существа трения как глобального, балансового феномена трансформации движения (энергии) как такового. Рассматриваются представления о пластической деформации как основном механизме трансформации и диссипации энергии. Предлагается термодинамический анализ процесса трения и его основные выводы. Рассматривается физическое существо коэффициента трении как основного параметра процесса трения.

Published

2012

31. Стационарное деформирование оболочки с упругим соединением слоев

Subjects

диссипация, двухслойные оболочки, inertiality of the interlayer, преобразование Фурье, dissipation, инерциальность прослойки, Furie transform

Abstract

Получено стационарное решение задачи о движении неосесимметричной нормальной нагрузки вдоль бесконечно длинной двухслойной цилиндрической оболочки с тонким упругим соединением. Исследовано влияние диссипативных свойств прослойки на картину напряженно–деформированного состояния конструкции. Obtained a stationary solution of the problem of motion nonaxisymmetric normal load along an infinitely long two-layer cylindrical shell with a thin elastic coupling. The influence of the dissipative properties of the layer at a picture of the stress-strain state of structures is investigated.

Published

2012

32. Lévy-based spatial-temporal modelling, with applications to turbulence

Author

Jürgen Schmiegel and Ole E. Barndorff-Nielsen

Subjects

Basis (linear algebra), Stochastic process, Generalization, General Mathematics, Mathematical analysis, Dissipation, Type (model theory), Field (geography), law.invention, law, Intermittency, Statistical physics, Scaling, Mathematics

Abstract

This paper involves certain types of spatial-temporal models constructed from Levy bases. The dynamics is described by a field of stochastic processes , on a set of sites , defined as integrals where denotes a Levy basis. The integrands are deterministic functions of the form , where has a special form and is a subset of . The first topic is OU (Ornstein-Uhlenbeck) fields , which represent certain extensions of the concept of OU processes (processes of Ornstein-Uhlenbeck type); the focus here is mainly on the potential of for dynamic modelling. Applications to dynamical spatial processes of Cox type are briefly indicated. The second part of the paper discusses modelling of spatial-temporal correlations of SI (stochastic intermittency) fields of the form This form is useful when explicitly computing expectations of the form which are used to characterize correlations. The SI fields can be viewed as a dynamical, continuous, and homogeneous generalization of turbulent cascades. In this connection an SI field is constructed with spatial-temporal scaling behaviour that agrees with the energy dissipation observed in turbulent flows. Some parallels of this construction are also briefly sketched.

Published

2004