System Stability (system + stability)

Distribution by Scientific Domains


Selected Abstracts


Studies on Regime Transition, Operating Range and System Stability in a Liquid-Solid Circulating Fluidized Bed

CHEMICAL ENGINEERING & TECHNOLOGY (CET), Issue 4 2009
P. Natarajan
Abstract In the present work, the variations in the solids circulation rate and solids holdup were analyzed to study the behavior of a liquid-solid circulating fluidized-bed (LSCFB) regime. The results confirm the existence of two regions in the regime of LSCFB. A new concept of critical liquid velocity, jlc, is proposed in the present work for demarcation between region,1 and region,2, which is found to be a constant value of about 1.3,ut for all particles considered. The operating range of the LSCFB regime is obtained for the various particles and a correlation is developed from the data to estimate the maximum total liquid velocity. The predicted maximum liquid velocity was compared with the experimental values and found to be in good agreement within ±9,%. The effects of total liquid velocity, particle size and density on the stable operating range are discussed. Analysis of the experimental results shows that stable operation prevails both in region,1 and region,2. [source]


Computation of time delay margin for power system small-signal stability

EUROPEAN TRANSACTIONS ON ELECTRICAL POWER, Issue 7 2009
Saffet AyasunArticle first published online: 19 JUN 200
Abstract With the extensive use of phasor measurement units (PMU) in the wide-area measurement/monitoring systems (WAMS), time delays have become unavoidable in power systems. This paper presents a direct and exact method to compute the delay margin of power systems with single and commensurate time delays. The delay margin is the maximum amount of time delay that the system can tolerate before it becomes unstable for a given operating point. First, without using any approximation or substitution, the transcendental characteristic equation is converted into a polynomial without the transcendentality such that its real roots coincide with the imaginary roots of the characteristic equation exactly. The resulting polynomial also enables us to easily determine the delay dependency of the system stability and the sensitivities of crossing roots with respect to time delay. Then, an expression in terms of system parameters and imaginary root of the characteristic equation is derived for computing the delay margin. The proposed method is applied to a single-machine-infinite bus (SMIB) power system with an exciter. Delay margins are computed for a wide range of system parameters including generator mechanical power, damping and transient reactance, exciter gain, and transmission line reactance. The results indicate that the delay margin decreases as the mechanical power, exciter gain and line reactance increase while it increases with increasing generator transient reactance Additionally, the relationship between the delay margin and generator damping is found be relatively complex. Finally, the theoretical delay margin results are validated using the time-domain simulations of Matlab. Copyright © 2008 John Wiley & Sons, Ltd. [source]


Energy functions for FACTS devices with an energy-storage system

EUROPEAN TRANSACTIONS ON ELECTRICAL POWER, Issue 5 2007
V. Azbe
Abstract An energy-storage system (ESS) can provide additional capabilities for FACTS devices in dynamic power-flow control, and in this way improve electric-power system stability. In order to assess their influence on the system's dynamic behavior or to determinate the device's control strategy using direct methods, proper energy functions for these devices are needed. In this paper the energy functions for the whole spectrum of FACTS devices with an ESS have been developed. For each of the devices various energy functions were proposed according to the control strategy applied. The energy functions were constructed as additional terms that can be added to any existing structure-preserving energy function (SPEF). Tests within a single-machine infinite-bus system proved the correctness of the proposed energy functions. The application of new energy functions was demonstrated on the problem of transient-stability assessment. Copyright © 2006 John Wiley & Sons, Ltd. [source]


Energy functions analysis in voltage collapse

EUROPEAN TRANSACTIONS ON ELECTRICAL POWER, Issue 4 2001
F. Jurado
Time-domain approach examines the behaviour of the system, one determines whether stability has been maintained or lost. In contrast to the time-domain approach, direct methods determine system stability based on energy functions. The basis of direct methods for the stability assessment of a system is knowledge of the stability region. During the last decade, many researches have thoroughly analysed the use of energy functions for the direct stability assessment of networks. Energy function analysis offers a different geometric view of voltage collapse. The Transient Energy Function, a technique based on Lyapunov stability theory and originally developed for direct stability analysis of power systems, has been successfully used as a voltage stability index for collapse studies. In this paper the simulation results are on the IEEE 173-bus test system. [source]


Nuclear power plant communications in normative and actual practice: A field study of control room operators' communications

HUMAN FACTORS AND ERGONOMICS IN MANUFACTURING & SERVICE INDUSTRIES, Issue 1 2007
Paulo V.R. Carvalho
The safety and availability of sociotechnical critical systems still relies on human operators, both through human reliability and human ability to handle adequately unexpected events. In this article, the authors focus on ergonomic field studies of nuclear power plant control room operator activities, and more specifically on the analysis of communications within control room crews. They show how operators use vague and porous verbal exchanges to produce continuous, redundant, and diverse interactions to successfully construct and maintain individual and mutual awareness, which is paramount to achieve system stability and safety. Such continuous interactions enable the operators to prevent, detect, and reverse system errors or flaws by anticipation or regulation. This study helps in providing cues for the design of more workable systems for human cooperation in nuclear power plant operation. © 2007 Wiley Periodicals, Inc. Hum Factors Man 17: 43,78, 2007. [source]


Passivity-based sliding mode control for nonlinear systems

INTERNATIONAL JOURNAL OF ADAPTIVE CONTROL AND SIGNAL PROCESSING, Issue 9 2008
Ali J. Koshkouei
Abstract Passivity with sliding mode control for a class of nonlinear systems with and without unknown parameters is considered in this paper. In fact, a method for deriving a nonlinear system with external disturbances to a passive system is considered. Then a passive sliding mode control is designed corresponding to a given storage function. The passivity property guarantees the system stability while sliding mode control techniques assures the robustness of the proposed controller. When the system includes unknown parameters, an appropriate updated law is obtained so that the new transformed system is passive. The passivation property of linear systems with sliding mode is also analysed. The linear and nonlinear theories are applied to a simple pendulum model and the gravity-flow/pipeline system, respectively. Copyright © 2008 John Wiley & Sons, Ltd. [source]


An indirect adaptive pole-placement control for MIMO discrete-time stochastic systems

INTERNATIONAL JOURNAL OF ADAPTIVE CONTROL AND SIGNAL PROCESSING, Issue 7 2005
Wen-Shyong Yu
Abstract In this paper, an indirect adaptive pole-placement control scheme for multi-input multi-output (MIMO) discrete-time stochastic systems is developed. This control scheme combines a recursive least squares (RLS) estimation algorithm with pole-placement control design to produce a control law with self-tuning capability. A parametric model with a priori prediction outputs is adopted for modelling the controlled system. Then, a RLS estimation algorithm which applies the a posteriori prediction errors is employed to identify the parameters of the model. It is shown that the implementation of the estimation algorithm including a time-varying inverse logarithm step size mechanism has an almost sure convergence. Further, an equivalent stochastic closed-loop system is used here for constructing near supermartingales, allowing that the proposed control scheme facilitates the establishment of the adaptive pole-placement control and prevents the closed-loop control system from occurring unstable pole-zero cancellation. An analysis is provided that this control scheme guarantees parameter estimation convergence and system stability in the mean squares sense almost surely. Simulation studies are also presented to validate the theoretical findings. Copyright © 2005 John Wiley & Sons, Ltd. [source]


Linear quadratic optimal sliding mode flow control for connection-oriented communication networks

INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL, Issue 4 2009
Przemys, aw Ignaciuk
Abstract In this paper, a new sliding mode flow controller for multi-source connection-oriented communication networks is proposed. The networks are modelled as discrete time, nth-order systems. On the basis of the system state space description, novel sliding mode controllers with linear quadratic (LQ) optimal and sub-optimal switching planes are designed. The control law derivation focuses on the minimization of the LQ cost functional and solving the resultant matrix Riccati equation. Closed-loop system stability is demonstrated, and conditions for no data loss and full bottleneck link bandwidth utilization in the network are presented and strictly proved. To the best of our knowledge, this paper presents the first attempt to design a discrete time sliding mode flow control algorithm for connection-oriented communication networks. Copyright © 2008 John Wiley & Sons, Ltd. [source]


Use of different buffers for detection and separation in determination of physio-active components in oolong tea infusion by CZE with amperometric detection

JOURNAL OF SEPARATION SCIENCE, JSS, Issue 9 2010
Zhiyong Yang
Abstract With a view of simultaneous determination of physio-active ingredients in oolong tea infusion: sugars, amino acids, epigallocatechin gallate and ascorbic acid, a novel CZE with amperometric detection method was studied. Operated in a wall-jet configuration, 100,mmol/L NaOH was used in detecting cell to lead the electrocatalysis oxidation behaviors of the analytes on a 300,,m diameter copper-disc electrode (working electrode), while in separating capillary, a mild alkaline running buffer consisting in a mixture of 30,mmol/L borate and 40,mmol/L phosphates charged and carried analytes to detecting end. The methodology research was performed for system stability and suitability. Under the optimal CE conditions, analytes could be separated within moderate time period. Good linearity between peak area and concentration existed over three orders of magnitude; lower RSD and LOD were achieved. The oolong tea infusion was assayed and result was satisfactory. [source]


Variables Affecting the Participation in Individual Development

PERFORMANCE IMPROVEMENT QUARTERLY, Issue 4 2001
Janet L. Polach
ABSTRACT Workers across the country are being asked to acquire more information at an increasing rate in response to technological, structural, and new product and process changes occurring in the workplace. Organizations continue to struggle with understanding the capabilities and capacity of their workforce and are making critical investments in building expertise. But how do organizations engage people in this development effort? This paper proposes three critical variables that affect an individual's participation in the development process. Proposed variables are: 1) individual expertise, 2) system stability, and 3) the acceptance for the need for improvement. The paper reviews the theories that support the proposed variables in terms of influencing learning participation, and it concludes by pointing out implications for human development practitioners. It identifies where further research is needed in gaining greater insight into understanding this complex issue. [source]


An application of Routh stability criterion to derive the necessary conditions for multiplicity of a CSTR

THE CANADIAN JOURNAL OF CHEMICAL ENGINEERING, Issue 1 2009
Yu-Shu Chien
Abstract It is well known that the Routh stability criterion (RSC) is a powerful method for analyzing control system stability. A new RSC finding that can aid the tangent analysis method (TAM) to determine the necessary conditions for multiplicity is presented. Adding RSC to TAM can find the bifurcation start point which cannot be obtained using TAM alone. To the author's knowledge, the above new RSC application has not been discussed in past literatures. Our results are helpful for chemical reactor design. We used two examples of the binary reaction in a non-adiabatic CSTR to demonstrate the merit of our methods. Il est bien connu que le critère de stabilité de Routh (RSC) est une méthode puissante pour l'analyse de la stabilité des systèmes de contrôle. On présente un nouveau résultat de RSC pouvant aider la méthode d'analyse des tangentes (TAM) à déterminer les conditions nécessaires pour la multiplicité. L'ajout de RSC à TAM permet de trouver le point de départ de la bifurcation qui ne peut pas être obtenu uniquement avec TAM. À la connaissance de l'auteur, cette nouvelle application RSC n'a pas été examinée dans la littérature scientifique antérieure. Nos résultats sont utiles pour la conception des réacteurs chimiques. Nous utilisons deux exemples de réaction binaire dans un CSTR non adiabatique pour démontrer le mérite de nos méthodes. [source]


Development of respiratory control instability in heart failure: a novel approach to dissect the pathophysiological mechanisms

THE JOURNAL OF PHYSIOLOGY, Issue 1 2006
Charlotte H. Manisty
Observational data suggest that periodic breathing is more common in subjects with low F, high apnoeic thresholds or high chemoreflex sensitivity. It is, however, difficult to determine the individual effect of each variable because they are intrinsically related. To distinguish the effect of isolated changes in chemoreflex sensitivity, mean F and apnoeic threshold, we employed a modelling approach to break their obligatory in vivo interrelationship. We found that a change in mean CO2 fraction from 0.035 to 0.045 increased loop gain by 70 ± 0.083% (P < 0.0001), irrespective of chemoreflex gain or apnoea threshold. A 100% increase in the chemoreflex gain (from 800 l min,1 (fraction CO2),1) resulted in an increase in loop gain of 275 ± 6% (P < 0.0001) across a wide range of values of steady state CO2 and apnoea thresholds. Increasing the apnoea threshold F from 0.02 to 0.03 had no effect on system stability. Therefore, of the three variables the only two destabilizing factors were high gain and high mean CO2; the apnoea threshold did not independently influence system stability. Although our results support the idea that high chemoreflex gain destabilizes ventilatory control, there are two additional potentially controversial findings. First, it is high (rather than low) mean CO2 that favours instability. Second, high apnoea threshold itself does not create instability. Clinically the apnoea threshold appears important only because of its associations with the true determinants of stability: chemoreflex gain and mean CO2. [source]


Combining state estimator and disturbance observer in discrete-time sliding mode controller design,

ASIAN JOURNAL OF CONTROL, Issue 5 2008
Jeang-Lin Chang
Abstract In response to a multiple input/multiple output discrete-time linear system with mismatched disturbances, an algorithm capable of performing estimated system states and unknown disturbances is proposed first, and then followed with the design of the controller. Attributed to the fact that both system states and disturbances can be estimated simultaneously with our proposed method, the estimation error is constrained at less than O(T) as the disturbance between the two sampling points is insignificant. In addition, the estimated system states and disturbances are then to be used in the controller when implementing our algorithm in a non-minimum phase system (with respect to the relation between the output and the disturbance). The tracking error is constrained in a small bounded region and the system stability is guaranteed. Finally, a numerical example is presented to demonstrate the applicability of the proposed control scheme. Copyright © 2008 John Wiley and Sons Asia Pte Ltd and Chinese Automatic Control Society [source]


Performance analysis and improvement for BitTorrent-like file sharing systems

CONCURRENCY AND COMPUTATION: PRACTICE & EXPERIENCE, Issue 13 2007
Ye Tian
Abstract In this paper, we present a simple mathematical model for studying the performance of the BitTorrent (http://www.bittorrent.com) file sharing system. We are especially interested in the distribution of peers in different states of the download job progress. With the model we find that the distribution of the download peers follows an asymmetric U-shaped curve under the stable state, due to BitTorrent's unchoking strategies. In addition, we find that the seeds' departure rate and the download peers' abort rate will influence the peer distribution in different ways notably. We also analyze the content availability under the dying process of the BitTorrent file sharing system. We find that the system's stability deteriorates with decreasing and unevenly distributed online peers, and BitTorrent's built-in ,tit-for-tat' unchoking strategy could not help to preserve the integrity of the file among the download peers. We propose an innovative ,tit-for-tat' unchoking strategy which enables more peers to finish the download job and prolongs the system's lifetime. By playing our innovative strategy, download peers could cooperate to improve the stability of the system by making a trade-off between the current downloading rate and the future service availability. Finally, experimental results are presented to validate our analytical results and support our proposals. Copyright © 2007 John Wiley & Sons, Ltd. [source]


Partial Delegation in a Model of Currency Crisis

BULLETIN OF ECONOMIC RESEARCH, Issue 4 2003
Virginie Boinet
E52; F41 Abstract This paper shows that, in a fixed exchange-rate system with an escape clause, delegating the decision on the magnitude of realignment to an inflation-averse central banker reduces the range of realignment costs for which the policy-maker necessarily devalues. Stressing the influence of devaluation expectations on currency crises, it is also shown that this strategy of delegation reduces the width of the multiple equilibria zone within which self-fulfilling crises occur, thus promoting further the exchange-rate system's stability. The higher the central banker's degree of inflation aversion, the greater is this reduction. [source]


The Mechanical Stability for the Hand-Arm System

PROCEEDINGS IN APPLIED MATHEMATICS & MECHANICS, Issue 1 2008
Aurora Felicia Pop
The present paper contains a study regarding importance stability in the mechanical systems, mechanical systems are emerging under mechanical vibrations action, it referring especially to the human hand,arm system. Mechanical systems stability is directly influenced of the dumper and the elasticity factors. (© 2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]