Articles

VIBRATIONAL CHARACTERISTICS OF A ROTATING SHAFT CONTAINING A TRANSVERSE CRACK
MOHAMMED NAJEEB AL-RAWI, ZIAD SHAKEEB AL-SARRAF, Dr. SABAH MOHAMMED JAMEL (Author)
March 2005 ,Pages 1-16

Abstract: ABSTRACT: The influence of a transverse crack upon the dynamic behavior of a rotating shaft is studied. Introduction of such a crack results in lower transverse natural frequencies due to the added local flexibility. The strain energy release function is related to the compliance of the cracked shaft that is to the local flexibility due to introduction of crack. This function is related to the stress intensity factor, which for transverse of a shaft with a crack has a known expression. As a result, the local flexibility of the shaft due to the presence of the crack has been computed. This result, can be further utilized to yield the dynamic response of a shaft with complex geometry. Starting from the equation of motion for the shaft under bending to derive the expression of calculating the natural frequency of the shaft. Two cases of fixing the shaft are suggested in this study to investigate and analyze the vibration characteristics of the shaft with and without cracks. The fundamental natural frequency showed strong dependence on the crack depth, This dependence is smaller as the order of the frequency increase. Experimental results are in close agreement with those practical from the theoretical analysis. Finally, the results showed that the change in dynamic response due to the crack is high enough to allow the detection of the crack and estimation of its magnitud

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Microprocessor-Based Controller for the Uninterruptible Power Supply Voltage Regulation
Prof. Basil M. Saied, Mr. Mohamad K. Shakfa (Author)
March 2005 ,Pages 1-17

Abstract: Abstract Good regulation and stability are important factors to be considered in designing of the uninterruptible power supplies systems, which depend on the load requirements. On the other side, the cost factor roles the proper design selection of the uninterruptible power supply, especially for the commercial applications. A pulse width modulation uninterruptible power supplies are considered to have good features over the rival one. This paper presents a suggested method for the controlling of the uninterruptible power supplies to regulate the output voltage, by using an easy practicable, low cost, and one-sensor, microprocessor-based regulator. This regulator circuit depends on minimizing the hardware complicity with efficient software. The practical results show that a good and reliable regulation performance in the applications when the fluctuation in both input DC voltage and load occurred, such as the applications using the solar cells or batteries as the input voltage source supplying variable load conditions. 2004/12/ 2004

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THE MEMORIZATION BEHAVIORS OF DIFFERENT MIOS STRUCTURES
L. S. ALI, W. F. MOHAMAD (Author)
March 2005 ,Pages 17-24

Abstract: ABSTRACT: In this chapter the various kinds of charge storage cells are discussed as a result of examining many samples with different structures. The C-V, I-V and R-V measurements of the structures confirm the memorization capability of MIOS devices. The examined structures reveal three kinds of memory actions. The first one is the charge storage capability which can be shown through (C-V) curve shifting as the device was exposed to certain stress for a certain time. The second is the electronic switching that is demonstrated by the fact that the switching between ON and OFF states and back to original state can only be obtained by inverting the polarity of the applied bias voltage. The third kind of memorization action is that the device can be switched into a variety of stable intermediate resistance states. The new resistance state is determined by the height of the programming pulse applied to the device. This memory action is noticed from R-V characteristic and known as a nonvolatile analogue memory behavio

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The Effect of the Rail Materials and the Superconducting Coils on the Lifting Force of the Magnetically Leviated Trains
Bassam M. Mustafa (Author)
March 2005 ,Pages 18-32

Abstract: been studied the effect of the rail materials and the superconducting coils on the lifting force of the magnetically leviated trains. Concentration on the Super-conducting coils for creation of the lifting force was done also, in order to minimize the current without decreasing the lifting force a new frame coil was designed such that we take benefit of all the allowed area of the base. The rail is a material tape in which lifting force is formed when a magnet is moved over it. Detailed study of the rail materials which can be used as rails was done, lifting force of the Aluminum and Copper was studied. The lifting force

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Bifurcation and Voltage C ollapse in the Electrical Power Systems
Mr. Ahmed N. B. Alsammak (Author)
March 2005 ,Pages 25-41

Abstract: Voltage stability is indeed a dynamic problem. Dynamic analysis isimportant for a better understanding of voltage instability process. In this workan analysis of voltage stability from bifurcation and voltage collapse point ofview based on a center manifold voltage collapse model. A static and dynamicload models were used to explain voltage collapse. The basic equations of asimple power system and load used to demonstrate voltage collapse dynamicsand bifurcation theory. These equations are also developed in a manner, which issuitable for the Matlab-Simulink application. As a result detection of voltagecollapse before it reach the critical collapse point was obtained as original point.

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Modeling Deficit Irrigation Water Requirement For Maize in Mosul Region
Dr.Anmar A.AL-Talib, Dr. Abdul Sattar Y.AL-Dabagh, Ahmed A.AL-Neami (Author)
March 2005 ,Pages 33-42

Abstract: Abstract A computerized model with (Microsoft QuickBasic version 1.1) was proposed for simulating the effect of deficit irrigation for maize crop during spring and autumn seasons in Mosul region. The simulation is based on 16 years of climatological data for the period ( 1985-2000 ) for Mosul meteorological station , which includes daily maximum and minimum temperatures , maximum and minimum relative humidity , wind speed at 2m height , and sunshine hours , which is used to calculate daily reference evapotranspiration with Penman-Monteith equation .The model predicts yield reduction by changing irrigation depth for three different irrigation methods (sprinkler , furrow and drip) .The rainfall is divided into three classes which represent three regions (wet ,semi- arid and arid )

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Characteristics of Flow Over Normal and Oblique Weirs With Semicircular Crests
Tahssen A. H. Chilmeran, Bhzad M. A. Noori (Author)
March 2005 ,Pages 49-61

Abstract: characteristics of free flow over normal and oblique weirs with semicircular crests are studied experimentally. For this purpose, forty eight weir models were constructed and tested. The first twelve models were normal weirs in which the crest radius was varied three times; 5cm, 7.5cm and 10cm. For each crest radius, the weir height was varied four times; 35cm, 30cm, 25cm and 20cm. The remaining models were oblique weirs. The oblique angle was varied three times; 60°, 45° and 30°. In weirs of the same oblique angle, the crest radius and weir height were varied similarly to those of normal weirs.The experimental results showed that for normal weirs, the discharge coefficient (Cdw) increases with the increase of head to crest height ratio (h/P) for the same height of weir. In case of oblique weirs, it was found that (Cdw) decreases with the increase of (h/P) values and weirs of small oblique angle (α ) give high values of (Cdw ).For normal weirs, the discharge magnification factor (QNC /QNS) and performance increase as values of (h/P) increase. Normal weirs of semicircular crests perform better than those of sharp crested weirs for all values of weir height and crest radius tested in this study. While, for oblique weirs the discharge magnification factor (QOB/QNS) and performance increased with the decrease of (h/P) values. As (h/P) value approaches zero, the discharge magnification factor approaches the length magnification of the weir. Weirs of small oblique angles give high discharge magnification factor and high performance.A simple procedure was applied for the hydraulic design of oblique weirs. The design method yields the final dimensions of a weir and predicts its headdischarge curve for the whole range of operation.

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COEFFICIENT OF DISCHARGE OF CHIMNEY WEIR UNDER FREE AND SUBMERGED FLOW CONDITIONS
Hanaa A .M.Hayawi, Amal A.G.Yahya, Ghania A.M.Hayawi (Author)
March 2005 ,Pages 62-69

Abstract: Abstract: The main objective of this investigation is to study experimentally the water surface profiles and to obtain convenient expressions for the estimation of discharge coefficients (Cd) for free flow over chimney weir and the discharge factor (q/q1) for submerged flow. Four chimney weir models with different vertex angles were constructed and tested, the surface water profiles, for all models were smooth upstream and fall suddenly downstream the model and at a high discharge it become concave while at law discharge the water surface profile become convex. The coefficient of discharge for free flow increase with the decrease of the upstream head and with the decrease of half vertex angle (θ ). While the discharge factor for submerged flow increase with the decrease of the submergence ratio (h2/h1). Two general expressions were optioned, one, for the estimation of Cd with respect of (h/p),(w/p) and θ for free flow conditions and the other for estimation of the coefficient factor (q/q1) with respect to (h2/h1) and (h1/p). معامل

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