654 research outputs found

    P.H.W. Leong, Y.S. Moon, W.K. Sim

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    A technique for identifying important measurable headphone parameters is presented. Fifty two headphones of the same model, were computer clustered into 4 groups based on frequency response and listening tests performed to determine subjective sound quality. Correlation at the 95% significance level with the voice coil impedance was found but no correlation with distortion or frequency measures was observed. List of Important Symbols A 46Hz Gain at 46 Hz A 1kHz Gain at 1 kHz A 11547Hz Gain at 11547 Hz D 2 Second harmonic distortion (1 kHz input signal) D 3 Third harmonic distortion (1 kHz input signal) RE DC resistance of the voice coil F s Resonant frequency of driver Q es Total Q of driver at Fs considering only electrical resistances Qms Total Q of driver at Fs considering only non--electrical resistances Q ts Total Q of driver at Fs considering all system resistances L 1k Inductance of voice coil at 1 kHz L 10k Inductance of voice coil at 10 kHz 0 Introduction The "s..

    Analysis of Single Buffer Random Polling System With State-Dependent Input Process and Server/Station Breakdowns

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    Models and analytical techniques are developed to evaluate the performance of two variations of single buffers (conventional and buffer relaxation system) multiple queues system. In the conventional system, each queue can have at most one customer at any time and newly arriving customers find the buffer full are lost. In the buffer relaxation system, the queue being served may have two customers, while each of the other queues may have at most one customer. Thomas Y.S. Lee developed a state-dependent non-linear model of uncertainty for analyzing a random polling system with server breakdown/repair, multi-phase service, correlated input processes, and single buffers. The state-dependent non-linear model of uncertainty introduced in this paper allows us to incorporate correlated arrival processes where the customer arrival rate depends on the location of the server and/or the server's mode of operation into the polling model. The author allows the possibility that the server is unreliable. Specifically, when the server visits a queue, Lee assumes that the system is subject to two types of failures: queue-dependent, and general. General failures are observed upon server arrival at a queue. But there are two possibilities that a queue-dependent breakdown (if occurs) can be observed; (i) is observed immediately when it occurs and (ii) is observed only at the end of the current service. In both cases, a repair process is initiated immediately after the queue-dependent breakdown is observed. The author's model allows the possibility of the server breakdowns/repair process to be non-stationary in the number of breakdowns/repairs to reflect that breakdowns/repairs or customer processing may be progressively easier or harder, or that they follow a more general learning curve. Thomas Y.S. Lee will show that his model encompasses a variety of examples. He was able to perform both transient and steady state analysis. The steady state analysis allows us to compute several performance measures including the average customer waiting time, loss probability, throughput and mean cycle time.</jats:p

    Underwater spark discharge with long transmission line for cleaning horizontal wells

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    A transmission line is discussed for application in an underwater spark-discharge technique in the cleaning of a horizontal well by incorporating a power-transmission model into the simulation. The pulsed-spark-discharge technique has been proposed for clogged-well rehabilitation, because it removes incrustations that are attached to well screens by using strong pressure waves that are generated by the rapid expansion of a spark channel. To apply the pulsed-spark-discharge technique to the cleaning of horizontal wells, the coaxial cable between the pulsed power supply and the spark gap as a load needs to be extended to a few hundred meters. Prior to field application, pulsed-spark-discharge experiments were conducted and the role of the transmission line was examined using an improved simulation model. In the model, a non-linear interaction of the spark channel and the capacitor bank is described by the pulse-forming action of the coaxial cable. Based on the accurate physical properties of the water plasma, such as the equation of state and electrical conductivity within the region of interest, the amount of energy contributed to the development of a shock wave was evaluated. The simulation shows that if the initial conditions of the spark channel are the same, no further reduction in strength of the pressure wave occurs, even if the cable length is increased above 50 m. Hence, the degraded peak pressure that was observed in the experiments using the longer cable is attributed to a change in the initial condition of the spark channel. The parametric study suggests that the low initial charging voltage, the high ambient water pressure, and the long cable length yield the low initial spark-channel density, which results in a reduced peak pressure. The simulation of line charging is presented to discuss the principle of disturbing the pre-breakdown process by an extended cable. © 2017 Author(s).OAIID:RECH_ACHV_DSTSH_NO:T201719639RECH_ACHV_FG:RR00200001ADJUST_YN:EMP_ID:A080568CITE_RATE:0DEPT_NM:에너지시스템공학부EMAIL:[email protected]_YN:NN

    A Study of Zeolite Membrane Material Balance and Commercialization Potential

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    abstract: The United States and most of the world is pushing to significantly reduce carbon emissions, with many countries intent on fostering carbon negative energy processes to offset ozone depletion and climate changes. 30% of the U.S. greenhouse gas emissions are generated from the combustion of fossil fuels to generate electricity1. Current commercial IGCC carbon capture processes employ a capital and operating cost intensive water-gas shift reaction facilitated by a high temperature reactor followed by a low temperature reactor and an amine absorber to separate the hydrogen and carbon dioxide streams to capture the carbon. Dr. Jerry Y.S. and his laboratory at Arizona State have developed a hydrogen permselective MFI type ZSM-5 zeolite membrane reactor that effectively facilities the water gas shift reaction with high conversion and separates the CO2 and H2 streams during reaction to generate ultrapure retentate and permeate streams. The membrane, formed by secondary free growth, is synthesized on an ultrapure a-alumina membrane support currently purchased from an outside vendor. The purpose of this study was to design an α-alumina support processing plant with capability to supply one full-scale commercial reactor annually with membranes. The design yielded a DCFRoR of 71% for a 20-year project life. A zeolite membrane processing material balance was conducted using alumina support as the raw material. The study showed very low material costs and consumption rates for all materials except a gas used to refine the membrane after processing. The results of both studies were favorable enough to suggest further study

    Democratization and Institutionalization-- A Reflection of Latin American Experience

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    本文適過解放、自由化、民主化的名詞解析,以比較眼光分析拉丁美洲的民主化困局。作者以此一分析架構,初步檢討拉丁美洲「民主─威權」循環模式的成因及轉型的關鍵因素,可做為分析拉丁美洲政局的一項參考架構。This essay compares and analyses the concepts of liberation, liberalization, democratizations and their interactions in Latin American politics. According to this analytical framework, the author makes a preliminary analysis of the “democracy-authoritarianism-democracy” cycle in the Latin political history. This essay also discusses the causes and consequences of liberalization and democratization during the 1970’s and 1980’s

    Heat transfer study of 3 dimensional printed air-cooled heat sinks

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    Papers presented at the 13th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Portoroz, Slovenia on 17-19 July 2017 .The study explores the heat transfer capabilities of novel heat sinks fabricated by Selective Laser Melting (SLM), an additive manufacturing technique, subjected to an air jet impingement. Four different heat sinks were fabricated from AlSi10Mg powder and they consists of a cylindrical design, and three axially perforated designs, viz., hollow, tapered and nozzle. The results show that the Nusselt numbers of the cylindrical heat sink are up to 6.8% higher on average as compared to other heat sinks. However, the heat transfer for each unit cell for the cylindrical heat sink was worse than the other heat sinks, with the tapered heat sink being the best, performing an average of 84.6% better than the cylindrical heat sink. This is due to the increased surface area caused by perforations and the minimizing of air separation within the fins. The cylindrical heat sink was also compared with conventional fabricated heat sinks. It was found that the 3D printed cylindrical heat sink performs at a higher Nusselt number than the others at lower Reynolds number because of lower thermal resistances, but performs worse than the others at higher values due to the enhanced fluid mixing in the porous heat sinks.International centre for heat and mass transfer.American society of thermal and fluids engineers

    Development of a soft x-ray (SXR) array diagnostic system on versatile experiment spherical torus (VEST)

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    © 2022 Author(s).A new soft x-ray (SXR) array diagnostic system has been developed on versatile experiment spherical torus (VEST) for measurements of 2D SXR emissivity profile and identification of poloidal mode structure. Through tomographic inversion techniques, 2D SXR emissivity profile can be acquired from the line-integrated SXR data, which enables the visualization of mode structure of plasma instability, such as the magnetohydrodynamics mode. The SXR array diagnostic system consists of two 20-channel arrays positioned at the middle and the top on the same poloidal plane for horizontal and vertical lines of sight, respectively. Each array of the diagnostic system uses absolute extreme ultraviolet photodiode array as the detector. To apply appropriate filters (up to four) for different energy regimes without breaking the vacuum, a filter wheel and its rotatable vacuum feed-through are installed behind the pinhole. SXR data are acquired with a digitizer at the sampling rate of up to 125 MHz. Finally, we discuss initial measurement data obtained from Ohmic plasma in VEST.N

    A bibliometric analysis of the performance of Water Research

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    [[abstract]]This paper presents a detailed chronological survey of papers published in the journal titled Water Research which started publication since 1967. This current investigation reviews publication patterns between 1967 and 2008. An analysis of the research performance according to publication output, distribution of words in article title, author keywords, and keywords plus. Performances of countries, institutes, and authors, including total, single, collaborative, first author, and corresponding author publications were analyzed. The most-frequently cited articles each year and the articles of the highest impact in 2008 were also reported. Results showed that ‘‘activated sludge’’ was the most frequently used author keyword, followed by ‘‘adsorption,’’ and ‘‘drinking water.’’ Authors from 114 different countries/territories published in the journal, with the most articles submitted by authors from the USA

    A finite difference solution for freezing brine on cold substrates of spongy ice

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    The process of rapid freezing of a thin layer of brine, suddenly in contact with a cold substrate of brine-spongy ice, is investigated. The mechanism of intermittent ice accretion on cold substrates, which occurs in a short period of time, is different from the slow freezing of salt water and must be evaluated using a differential analysis. Investigation of rapid freezing fills a gap of knowledge related to intermittent icing of superstructures, which has usually been studied using control volume methods. The equation of transient heat conduction through brine-spongy ice is developed. Rapid freezing causes complete solute trapping, which makes the salinity constant and stable at the phase interface. A finite difference method, using uniformly-spaced fixed-grid mesh, is employed as a numerical scheme for calculating the rate of ice accretion. A method is presented for discretization at nodes close to the phase interface for preventing the instability of numerical solutions when the phase interface passes the adjacent nodes. The discretization is based on the Method of Lines (MOL) which is a numerical-iterative method of solution. Numerical results show that higher salinities and lower initial temperatures of brine-spongy substrates have the potential to create a thicker layer of new ice. Experimental studies show that the model and numerical solutions accurately predict the rapid freezing of brine on a cold substrate of brine-spongy ice.Statoil ASA (Norway)MITACSPetroleum Research of Newfoundland & Labrador (PRNL)American Bureau of Shipping (ABS
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