Title: Annajaf City Naphtha as a Commercial Alternative Fuel for S.I. Engines in Iraq | ||
Author(s): Aimen Rashad Noor
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Pages: 01-10 | Paper ID: 121004-4747-IJMME-IJENS | Published: August, 2012 |
Abstract:
Considering pollution problems today, investigations have been concentrated on lowering the concentration of toxic components in combustion products. The purpose of this project is to experimentally study of using Naphtha which is produced in Annajaf city refinery as an alternative fuel instead of the commercial gasoline which is imported to Iraq from the neighborhood countries. In this project, experiments have been done to measure the performance and emissions of a 4-stroke S.I. Engine, one by using the commercial imported gasoline, another by using the Annajaf city naphtha, and finally by using the naphtha-methanol blends. Results showed that; the use of 7 vol. % of methanol blending with the naphtha appears to be a good option for replacing any oxygenate additives in the naphtha, where the CO, CO2, and HC are minimum and the fuel consumption of the blend is lower than of the commercial gasoline. Also, the noise results showed that; the engine runs smoother at 7 vol. % methanol blend than the commercial gasoline. That is mean increase in engine life due to the lowering vibration. |
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Keywords: Noise, Pollution, Naphtha, Methanol, Fuel Economy | ||
Full Text (.pdf) | 2609 KB |
Title: Maximization and Modeling Matching of Convective Heat Transfer with Nanofluids and Non-uniform Fin Distribution | ||
Author(s): N.I. Abdulhafiz, A.-R.A. Khaled, A. Y. Bokhary
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Pages: 11-23 | Paper ID: 121104-9898-IJMME-IJENS | Published: August, 2012 |
Abstract: In the present study, a numerical model has been developed to investigate thermal performance and optimization of relevant thermogeometric parameters involved in a convective cooling system. The heat removal system comprises of flow of fluid or nanofluid through a rectangular channel with its lower surface subjected to constant heat flux and the upper surface equipped with pin fins having variable distributions. The governing energy equation and momentum equation have been solved to find an optimum profile for variable fin density. Comparison of Nusselt numbers for non-uniform fin distribution with those for uniformly distributed fins reveals 2.7% improvement in heat transfer rate for the former case. This increase was associated with Peclet umber of Pe=1.5, No=0.9, Nf=0.001 and θα= –0.5 for a variable fin density profile with B=0.045 and Φo=0.6. Furthermore, two nanofluids one containing copper oxide nanoparticles dispersed in water and the other in a base fluid of 60:40 (by mass) ethylene glycol and water mixture (60:40 EG/W) have been used in present computations with particle volumetric concentration ranging from 0 to 6%. Since heat flux is provided at the lower surface of the channel, Nusselt numbers were calculated only at the lower surface. The analyses reveal about 65% increase in average Nusselt number at low Peclet number (Pe=1.0) and about 27% increase in that at high Peclet number (Pe=200). Moreover, Effort has also been made to explore the possibility of using some published dispersed model for nanofluids to fit a published experimental thermal conductivity model of nanofluids. It is shown that both models can be excellently matched based on equal local or average Nusselt numbers at specific dispersion model constant coefficients. These coefficients are mainly depending on nanoparticles material, particles volumetric concentration and Peclet number. Finally, a correlation for the dispersion model coefficients as functions of the relevant parameters has also been proposed. |
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Keywords: Heat transfer; convection, nanofluid; Modeling; numerical | ||
Full Text (.pdf) | 2293 KB |
Title: Isothermal analysis of Elliptic Bore Journal Bearing considering Isotropic Roughness | ||
Author(s): Prakash Chandra Mishra
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Pages: 24-31 | Paper ID: 121804-6565-IJMME-IJENS | Published: August, 2012 |
Abstract: Finite journal bearing of elliptic bore and circular bush is analyzed considering the isotropic roughness in the bearing surfaces. The angle of inclination of the major axis of the sleeve to the load line and the attitude angle are kept constant while evaluating all the performance parameters. Film shape due to the rough elliptic bore is defined through the stochastic model of asperities distribution. The performance parameters such as load carrying capacity, friction force, flow into the bearing and side leakages are plotted and analyzed against the non-circularity for the various roughness parameters and eccentricity ratios. |
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Keywords: Finite Difference Method, Journal Bearing, Elliptic Bore, Isotropic Roughness, Eccentricity ratio, Non- Circularity, film thickness, friction, flow-in and side leakage | ||
Full Text (.pdf) | 624 KB |
Title: A study Of Salt-Finger Convection In a Nonlinear Magneto-Fluid Overlying a Porous Layer Affected By Rotation | ||
Author(s): M.S.Al-Qurashi
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Pages: 32-40 | Paper ID: 129604-7171-IJMME-IJENS | Published: August, 2012 |
Abstract: This work examines salt-finger convection in a model of a nonlinear magneto-fluid overlying a porous layer affected by rotation. Flow in the fluid layer is governed by Navier-Stokes’s equations and in the porous medium is governed by Darcy-Brinkman’s law. We show that the nonlinearity in this model does not have any effect on the stationary instability case. However, the nonlinearity has a profound effect on the overstability case. |
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Keywords: Navier-Stokes equation, Darcy-Brinkman law, legendre polynomials, nonlinear magneto-fluid, overstability | ||
Full Text (.pdf) | 297 KB |
Title: Development of Low Cost “GloveMAP” Based on Fingertip Bending Tracking Techniques for Virtual Interaction | ||
Author(s): Nazrul H. ADNAN, Khairunizam WAN, Shahriman A.B. , M. Hazwan ALI, M. Nasir Ayobb, Azri A. AZIZ
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Pages: 41-51 | Paper ID: 129704-5858-IJMME-IJENS | Published: August, 2012 |
Abstract: The development of a new low cost GloveMAP based on fingertip bending tracking techniques for measuring the sign language is presented. Nowadays, the communication between two parties has always been a huge obstacle in the context to convey their conversation information. The project specification significant requirement is to facilitate people with verbal disabilities to communicate and interact with the normal people. This research study used the flexible bend sensor in order to obtain the output resistance values of each bending fingers of patient. The sensors are located at the upper fingers and physical of the GloveMAP made by the universal stretchable and covered with lycra fabric known for wearing comfort. The evaluation of the prototype GloveMAP was designed to distinguish in deferent size of human hands to be functioning as the tools to measure the Degree of Freedom (DOF) of fingers orientation. The main propose of developing the GloveMAP is to provide the natural input control of interaction in virtual circumstances, multimodal and tele-presence environments as an input devices provide as they can monitor the dexterity and flexibility characteristics of the human hand motion. |
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Keywords: Degree of freedom (DOF), flex sensor, fingers orientation, DataGlove, GloveMAP | ||
Full Text (.pdf) | 624 KB |
Title: Study of Cyclic Variability in Diesel-Hydrogen Dual Fuel Engine Combustion | ||
Author(s): Widodo Budi. Santoso, Rosli Abu. Bakar, Sugeng. Ariyono, Nur. Cholis
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Pages: 52-56 | Paper ID: 1210904-3838-IJMME-IJENS | Published: August, 2012 |
Abstract: Among the alternative fuels, hydrogen shows great potential in the near future. In the present study, the cyclic variability of a diesel engine fueled with hydrogen and ignited by diesel spray was studied. To investigate the combustion characteristics of this dual fuel engine, a single cylinder diesel research engine was converted to utilize hydrogen as fuel. Hydrogen was introduced to the intake manifold using a mixer before entering the combustion chamber. The engine was run at a constant speed of 2000 rpm and variable loads. At each load step the flow rate of hydrogen was varied. An engine indicating system was used to measure and record the cylinder pressure up to 160 consecutive combustion cycles. The combustion data for each operating conditions were analyzed for the maximum cylinder pressure and indicated mean effective pressure (IMEP). The cycle-by-cycle variation is expressed as the mean value, standard deviation, coefficient of variation of these two parameters. It is found that cyclic variability is reduced at higher engine load operation. |
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Keywords: Diesel, hydrogen, dual fuel, cyclic variability | ||
Full Text (.pdf) | 572 KB |
Title: Finite Element Computational approach of fracture toughness in composite compact-tension specimen | ||
Author(s): Y. Mohammed, Mohamed. K. Hassan, A. M. Hashem
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Pages: 57-61 | Paper ID: 1215104-9797-IJMME-IJENS | Published: August, 2012 |
Abstract: For composite structure, fracture toughness is a dominant parameter when using cohesive laws to predict the nominal strength. In the present study the compact tension test is performed on composites structures and is simulated using FEM. The process of fracture takes places in two sequential stages, crack initiation and crack propagation. The critical energy release rate is determined using the FE modeling through J-integral calculation then is validated by available references experimental data. By comparing the model predictions and experimental data, a good correlation is obtained. |
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Keywords: Critical energy release rate, fracture toughness, fiber failure, J-integral, Polymer-matrix composites, Fracture Mechanics, crack initiation | ||
Full Text (.pdf) | 414 KB |
Title: Experimental and Theoretical Studies of Mechanical Properties for Reinforcement Fiber Types of Composite Materials | ||
Author(s): Muhsin J. Jweeg, Ali S. Hammood, Muhannad Al-Waily
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Pages: 62-75 | Paper ID: 129304-5959-IJMME-IJENS | Published: August, 2012 |
Abstract: In this research, experimental and theoretical study of composite materials reinforcement fiber types are presented. The experimental work and the theoretical investigation covered the study of modulus of elasticity for long, short, woven, powder, and particle reinforcement of composite materials types with difference volume fraction of fiber. In addition the compare it the experimental results with theoretical results of modulus of elasticity for difference composite materials types. The results show that the effect of fiber and resin types on modulus of elasticity for composite materials are presented. In addition the effect of volume fraction of fiber and matrix materials on modulus of elasticity for composite materials shown a presented. The results show have good agreement between experimental and theoretical study for different types of composite materials. The results having that shown the best modulus of elasticity for reinforcement composite is unidirectional fiber types in longitudinal direction and the woven reinforcement fiber types for transverse direction. |
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Keywords: Mechanical Properties, Composite Materials, Powder Composite Materials, Reinforcement Fiber | ||
Full Text (.pdf) | 1718 KB |
Title: Vibration Analysis of Hyper Composite Material Beam Utilizing Shear Deformation and Rotary Inertia Effects | ||
Author(s): Luay S. Al-Ansari , Muhannad Al-Waily, Ali M. H. Yusif
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Pages: 76-87 | Paper ID: 1216104-8383-IJMME-IJENS | Published: August, 2012 |
Abstract: This paper presents an analytical and numerical vibration analysis of hyper composite material beam utilizing shear deformation and rotary inertia. The hyper composite material used in this research is consists of long reinforcement fiber and composite matrix which is components are resin with short fiber. The vibration analysis of this hybrid composite material beam using development theory for the beam which the effect of transverse shear deformation and rotary inertia included. Where the results are the natural frequency and general equation of motion. Also the effect of volume fraction and types of short, long fiber and resin material on the natural frequency are investigated. The results shows the natural frequency of the hyper composite material beam increases with increase of the strength of fiber and with the increases of volume ratio of the long fiber (when uses short fiber and long fiber of the same kind). |
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Keywords: Vibration of Beam, Composite Materials, Vibration of Composite Materials, Hyper Composite Materials Properties, Vibration of Beam with Rotary Effect | ||
Full Text (.pdf) | 791 KB |
Title: Characterization of Palm Kernel Shell Powder for use in Polymer Matrix Composites | ||
Author(s): Dagwa, I.M. , Builders , P.F. and J. Achebo
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Pages: 88-93 | Paper ID: 120904-3838-IJMME-IJENS | Published: August, 2012 |
Abstract: The use of biomaterials as fillers/reinforcing agents in thermoplastics /thermosets materials is increasing nowadays due to economic reasons and environmental awareness. This work was aimed at characterising the powdered palm kernel shell for use in composite materials formulation. Properties such as powder porosity, hydration capacity, moisture sorption, particle size distribution, bulk density, tapped density, powder flow, pH of powder dispersion as well as differential scanning calorimetry thermal (DSC), X-ray diffraction (X-RD) and scanning electron microscopy (SEM) were evaluated. The following results were obtained; pH was found to be 4 ± 0.0, average true density, powder porosity and hydration capacity were; 1.58 ±0.07g/cm3, 6.76 ±0.42%, and 150.08 ±76.91%, respectively. The average values of the moisture content and moisture sorption were; 11.16±016% and 2 ±0.54%, respectively. The average angle of repose for the palm kernel shell (PKS) was found to be 34.09±4.77o .The scanning electron microscopy showed that PKS powder had spherical shape. Based on EDX analysis PKS has a high carbon content of about 63 wt %. The XRD pattern for the PKS powder showed that the PKS powder was more of amorphous material with small amount of micro crystalline materials. PKS is therefore suggested as filler to be used in polymer composite production. |
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Keywords: Palm kernel shell powder, physico-chemical properties, thermal characterizations | ||
Full Text (.pdf) | 277 KB |
Title: A Finite Element Approach to Predict the Stress Concentration Factors in Cold Formed Corners | ||
Author(s): Assad Anis, Timo Bjork, Sami Heinilla
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Pages: 94-98 | Paper ID: 129104-6868-IJMME-IJENS | Published: August, 2012 |
Abstract: This paper presents the extensive investigation of stress concentration factors in cold formed steel hollow tubes made up of steel. The stress concentration in cold formed sections is due to the corner radii and notches present at inside corners of cold formed members. These investigations has been done by performing two-dimensional linear static analysis by modeling cold formed rectangular hollow section (CFRHS) with different notch shapes and sizes in Ansys software. Three different kinds of notches with two notch sizes i.e. n1=t/5 and n2=2t/5 have been modeled while the outer radius to thickness (ro/t) ratios of 3, 4 and 5 have been used. As a result of this work, stress concentration factors (Kt) have been computed for all kinds of notches and results have been compared and reported in this paper. |
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Keywords: Cold formed rectangular hollow sections (CFRHS), Notches, Outer radius to thickness ratio (ro/t), Stress concentration factor (Kt) | ||
Full Text (.pdf) | 288 KB |