AMIRKABIR
Year:2010 | Volume:20 | Issue:71-C|Papers Count:13

One of the important characteristics in the reservoir studies is the determination of the fluid flow direction. This is related to reservoir porosity and permeability parameters. In general, fluid flow direction can be considered in direction of maximum permeability. With this assumption and considering the reservoir permeability values as spatial data, geostatistical analyses allow determining the direction of maximum permeability.In this paper, geostatistical analysis performed on the porosity and permeability in one of the reservoirs. Firstly, the correlations between two parameters have been studied using statistical analysis. Then, geostatistical software was used to construct the spatial model of porosity and permeability, where the spatial variation was determined by plotting the variogram. The direction of maximum permeability was found to be at an azimuth 135 degree, which in this study considered to be the direction of fluid flow.

In this paper, the heat transfer coefficient on the A356 alloy metal-mould interface for HI3 steel and Gray Iron moulds was measured and modeled. Conditions as same as the low-pressure casting conditions were imposed by adding a piston, into the sprue channel. In order to establish one dimensional heat transfer condition, a cylindrical chalky sleeve was placed around of the mould cavity, and then metallic chills (H13 and Gray Iron) are placed at the bottom and the top of the mould cavity. Once purring, the time-temperature (T-t) curves at the interface of chill-mould were saved and plotted by a data acquisition system. Then a mathematical model was introduced for the heat transfer coefficient of the metal mould interface based on the experimental data by utilizing of "inverse heat problems" method. A simulation code of heat transfer was developed by finite difference method (FDM) that it could simulated distribution of heat transfer into at the mold and the cast part. The results of this code showed a sufficient agreement between the simulation and the experimental data.

Seepage and ways of water tightening is one of the fundamental parameters in choosing the situation of large dames. In the field of seepage estimation considering the position of joints because of high capability of fluid flow in comparison to the porosity of the rock is so important. Also fluid of flow in rock mass as a result of changes in aperture of the joints is so impressible of effective stresses exerted on it. In this paper it has been tried to create a 3dimentional model of upper Gotvand dam with capability of hydro mechanical simulation by using of distinct element method. with the results of numerical modeling the water tightening limit was estimated 85 meter and seepage between 3.2 to 16.8 (m3/s).

Proper fragmentation is one of the most important objectives of blasting operation, achieving this aim mining costs are reduced, considerably. Geo-mechanical parameters have a significant effect on the results of a blast. Available rock mass classifications are generally applicable for stability analysis, design of support system, determination of stand-up time but for blasting operation, a comprehensive classification has not been developed.In this research, an attempt has been made to develop a new applicable classification (BRMR) for blasting operation by combining RMR and Lu-Latham classifications with considering the effect of dip and dip direction of joints. Finally, using 3D statistical method and Phosphate Esphordi mine data, a mathematical formula with high correlation was developed between burden, BRMR and fragmentation indexes (D50, D80).

In this study, effect of some parameters on chathodic current efficiency, consumption of energy per kg of produced zinc and surface morphology has been investigated. Based on obtained results, the optimum values of electrolyte flow rate, concentration of Sulfuric acid and Zinc and, current efficiency have been determined in the presence of addition values of gummy Arabic and Potassium Permanganate. The suitable conditions for the parameters of specific electrolyte flow rate, current density, sulfuric acid concentration and zinc concentration found equal to, 16.6x10-3 /min, Max 400 amp/m2, 120-140 gr/L and 50-60 gr/L, respectively.

Oil Samples from the Darquain Oilfield in south-west Khuzestan (Abadan plain), have been investigated by the different geochemical method for determination of source rock, type of organic matters, thermal maturity and burial history of sediments. Biomarker parameters show oil from the Fahliyan reservoir sourced from the carbonate source rock that deposited in shallow marine environment and reduction condition and organic matter consists of kerogen type II. Garua Formation (lower Cretaceous) with carbonate lithology is the best candidate source rock for the Darquain oil field.

This paper has paid to select the optimum dewatering system of Sechahoun open pit mine. In order to chose the optimum dewatering system for this mine, hydrogeologic studies along with exploration drilling have been carried out and the obtained data has been applied for modeling of groundwater (using MODFLOW software, version PMWIN 5.3), in different conditions of the pit depths. For the calibration of model, the hydraulic conductivity has been calibrated, in steady state condition, by adjusting the computed and observed groundwater level. In this study, the model of groundwater flow has been obtained then according to this model, the usability of two alternative dewatering systems (pumping wells and drainage tunnel) has been investigated. According to this study, pumping well system has been suggested as the optimum dewatering system, in technical and economic point of view. In this order, during the first 15-year mining operation, 5 pumping wells, and during next 10 years, 6 pumping wells have been suggested to ensure the existence of dry mining operation environment.

W-20%wt Cu composite has been produced through infiltration technique, in which higher density may not be achieved since there are pores which are not filled by molten copper. Rolling may be performed to achieve full density; however, this may lead to initiation of cracks due to low formability of this composite and negligible solubility of Wand Cu. This was achieved at 550oC with 5% reduction in cross sectional area in each rolling pass. The treatments lead to an increase in wear resistance and density by 46% & 12% respectively. Rolling at higher temperatures was not beneficial, but promoted the oxidation of Wand Cu.

Kinetics behavior of gold and silver leaching by using of different oxidizing reagents were investigated on high gold grade sample. Studied sample contains 10.5ppm gold, 1.67% arsenic and 2.1ppm silver. In order to increase gold and silver leaching kinetics by different oxidizing reagents such as hydrogen peroxide (0.015M), air (0.5 lit/min) and mixture of H2O2 and air were studied. According to the results, the gold and silver leaching follows by 1st order kinetics model which can be shown as y=ymax (1-e-kx). Results indicated that introducing of air within the leaching process was more effective in kinetics rate increase of gold leaching (2.47min-1), whereas using mixture of air and H2O2 yielded similar results for the silver (0.596min-1). In addition, the gold and silver recoveries after 48 hours reached to 99.03 and 32.5%.

In this paper, increase in module ratio ((ratio of (Al2O3 to SiO2)) of diasporic bauxite samples from Bolboloieh area, Kerman, by high gradient magnetic separator were investigated. Obtained results from crude samples were shown module ratio, it can be increased in magnetic product with 20.22% alumina recovery at field intensity of 6 ampere (1.28 Tesla). Further experiments on calcined samples proved that module ratio can be improved by varying magnetic field intensity and module ratio maximized at field intensity of 3 ampere. Also calcining samples at 1000oC, intensified bauxite magnetic property. As a result, alumina recovery to magnetic product reached to 73.56% at optimum field intensity of 3 ampere.

Agglomeration is one of the methods for ash removal from coal fines. In this method hydrophobic particles selectively agglomerated using oil. In this research using Taguchi method effect of agglomerant concentration, pulp density, agglomeration time and impeller speed on organic matter removal was studied for Robatkhan Tabas Kaolin. Using flotation method, organic matter removal for coarse particles (-1000+37 mm) was obtained 32.96% and using agglomeration method in 4 stages, organic matter removal for rest particles (-37 mm) was obtained 14.21%. So, with the combination of these two methods, maximum organic matter removal was obtained 16.48%. In this work, organic matter in feed was 7.65% and it was decreased to 4.37% in concentrate.

Severe Plastic Deformation (SPD), is a new method to reach ultra ultra-fine grain materials. The aim purpose of this project paper is to investigate whether Accumulative Roll Bonding (ARB), is an effective grain refinement technique for ultra-low-carbon steel strips containing 0.004% C and Al-1100. For this purpose, a number of aAccumulative rRoll bBonding processes were performed at 500oC for iInterstitial fFree and 250oC for Al-1100, with 50% reduction in area in each rolling pass. The mechanical properties after rolling and cooling were obtained, which includes yield and tensile strengths and elongation, were obtained. By increasing the number of aAccumulative rRoll bBonding cycles in iInterstitial fFree steel, the yield point and UTS of these samples increased by 430% and 330%, respectively. Also, elongation was reduced from 50.5% in annealed state to 2.6% after aAccumulative rRoll bonding process. In Al-1100, yield and tensile strengths increased by 130% and 164%, respectively while the elongation dropped from a pre-rolled value of 6.48% to 3.43%. The Ffracture surface of the specimens werefracture surface of the specimens was observed by SEM. For all samplessamples, the hardness distribution along the thickness was directly proportional to the mean grain size according to Hall-Petch relation. The Hhardness of the samples was obtained using micro hardness tests. It was found that both the ultimate achievable grain size achieved, as well as the degree of bonding, depend on number of rolling pass and reduction in the area as a whole. In ilnterstitial fFree steel, mean grain size was obtained using SEM and optical microscopy is about 225nm. Mean grain size in aluminum Al-1100, was estimated is determined about 480nm by SEM. The rolling process was stopped in after seven cycles 7 for Al-1100 and 10 ten cycles for iInterstitial fFree steel, when edge cracking of the edges became pronounced.