Generalized *⊕Z* Supplemented Modules and Generalized*⊕ Co-finitely Supplemented Modules

Let R be a commutative ring with identity, an R-module M is called G*⊕ Z* supplemented modules, if every sub module containing Z*(M) has generalized* supplement in M that is a direct summand of M . and an R-module M is called generalized*co-finitely supplemented, if every co-finite has sub module of M has a generalized* supplement in M. and M is called ⊕ co- finitely generalized* supplemented , if every co- finite sub module of M has G*S that is direct summand of M

Design of smart wireless changeover for continuous electric current feeding from power sources of variable capacities

Electric power has become a vital element for life today. Despite this importance, electric power consumers in Iraq suffer from the problem of noncontinuity and daily electric power supply interruption. This problem led to the use of various sources of electric power as an alternative to compensate for the shortage of electric power provided by the Iraqi national grid. In this work, a smart wireless changeover device is designed using wireless sensor networks technology aiming to solve problem caused by the multiplicity of power sources received at home and governmental buildings in Iraq by controlling operation of some electrical devices (which consume high current) in the home or workplace automatically when changing source of electricity from one to another. This solution will help to ensure the continuity of electric current feeding from power sources of variable capacities, also, to rationalize power consumption by assigning an operation priority to electric devices. Furthermore, a statistical measurement as a case study was performed in a building with a total power consumption of 160.8 KW/h. The result showed that the device functions effectively and it is capable of achieving an average saving in power of about 50% to 86% depending on the applied priorities and case study scenario

Assessment of Body Mass Index and Nutritional Status in Pulmonary Tuberculosis Patients

Background: Pulmonary tuberculosis is a chronic infectious disease which affects nutritional status of the patients. The presence of poor nutritional status in pulmonary tuberculosis patients has been one of the most important determining factor in recommending adjuvant nutrient therapy to prevent oxidative stress and further complication. Objective: This study was designed to assess the nutritional status and body mass index of pulmonary tuberculosis patients. Patients and methods: During the period 1st of June 2010 to 30th of May 2011, a prospective study was done on 60 patients with active pulmonary tuberculosis and 60 controls. Levels of total protein (TP), albumin (ALB.), triglyceride (TG), total cholesterol (TC), high density lipoprotein cholesterol (HDLC), low density lipoprotein cholesterol (LDLC), and body mass index (BMI) were measured. Results: The mean levels of TP (59.5 ± 0.8g/dl), ALB (23.4 ± 1.8g/dl), TC (138.7 ± 4.9mg/dl), HDLC (32.2 ± 4.0mg/dl), LDLC (86.5 ± 1.3mg/dl) and TG (62.4 ± 1.3mg/dl) were significantly lower while the level of globulin (36.2 ± 1.2g/dl) was significantly higher in pulmonary tuberculosis patients when compared with controls (TP=81.2 ± 4.5g/dl; ALB= 50.0 ± 4.0g/dl; TC = 213.5 ± 26.8mg/dl; HDLC = 57.4 ± 8.5mg/dl; LDLC = 161.1 ± 28.3mg/dl; TG= 148.5 ± 37.1mg/dl; globulin = 31.4 ± 1.7g/dl respectively). (P <0.05) The body mass index (16.9 ± 1.1kg/m2) was significantly lower when compared with controls (BMI= 23.5 ± 2.1kg/m2). (P <0.05)20 Conclusion: There is a significant degree of nutritional depletion and weight loss in PTB patients than in general population. BMI is considered to be a useful technique for assessment of nutritional state of PTB. The nutritional derangement could call for prompt nutritional intervention in the management of pulmonary tuberculosis patients

A baseline survey of potentially toxic elements in the soil of north-west Syria following a decade of conflict

We present the first region-wide chemical survey of soils in NW Syria following more than a decade of ongoing conflict. We sampled topsoil at 66 sites, typically located in marginal agricultural (orchards, arable) or peri-urban settings, grouped around 21 localities covering the whole area of NW Syria currently under Syrian Opposition control. Samples were analysed in the UK using ICP-MS and ICP-OES. Topsoil total concentrations of heavy metals are broadly consistent with pre-war data from Aleppo and recent data from nearby Turkey. Principal Components Analysis (PCA) of associations among the sampling sites identified three groupings. Ni (133.30 ± 72.12 mg/kg) and Cr (122.14 ± 52.25 mg/kg) exist in all samples at levels in excess of typical European guideline thresholds for agricultural soil. Observed Cd (0.57 ± 0.93 mg/kg), Co (23.07 ± 18.48 mg/kg) and As (6.65 ± 4.51 mg/kg) concentrations are up to three times comparable values from nearby agricultural regions in southern Turkey. Maximum observed values for Cd, As, and Co, which exceed EU thresholds, are concentrated in a corridor around Sarmada to the west of Aleppo which has seen some of the most intense conflict-related impacts. Cu (28.33 ± 17.11 mg/kg), Pb (15.65 ± 10.85 mg/kg) and Zn (73.64 ± 40.15 mg/kg) also observe maxima in the Sarmada corridor, but show a more even distribution across the region, widely at values above comparable regional values for agriculture but below EU threshold concentrations. We interpret the occurrence of Ni-Cr as consistent with intensive agriculture using wastewater-contaminated irrigation and fertilisers. Cd-As-Co and Cu-Pb-Zn are likely anthropogenic and reflect intense pressures of conflict, informal settlement, unregulated industry and untreated wastewater irrigation on a historically agricultural region. The sampling method was designed to capture regional variations from a minimal dataset and it is likely that local topsoil concentrations at specific points of impact (proximal to locations of shelling, industry, effluent release or population) will be considerably higher than those reported here. This study establishes an important baseline reference for further targeted studies to identify and mitigate specific pollution hazards in this region of ongoing, extreme humanitarian and ecological threat

Analysis Of Fluid Flow Behavior In The Fractured Reservoirs: Review Paper

The naturally fractured reservoirs are considered complex reservoirs in the petroleum industries where the engineers face some difficulties in the modeling of naturally fractured reservoirs. The main problem of fractures is the tectonic movements of fractures which affect the hydrocarbons flow during transportation from matrix to fracture, and drilling and productions processes. This review paper presented some previous about hydrocarbons leakage, drilling and production damages, and modeling issues which caused a loss of hydrocarbons in the naturally fractured reservoirs. The purpose of this review paper is to analyze the hydrocarbons flow behavior during production processes even to reach the perfect model in this study. This review paper depended a lot on Warren and Root's theory and extended by using new parameters and assumptions. This study got on perfect results to analyze hydrocarbons flow. This review paper is shown that the difference in the properties of natural fractures affected the flow of hydrocarbons during the transition from the matrix to the fractures, which affected drilling operations and hydrocarbon production. In addition, dual-porosity affected the movement of the fluid. Dual porosity resulted in fractures and or dissolving that produces holes in the reservoir

Effect of bore fluid flow rate on formation and properties of hollow fibers

Abstract In this work, for high performance and wide range of ultrafiltration applications, the effects of the most widely used values of internal coagulant flow rates (ICFR) (i.e., 2.6, 3.6, 4, 5, 7, 9, 11, and 13 ml/min) on the different features of the polyvinylchloride hollow fiber have been investigated. Both the idealized straight and the cylindrical pore with small effect of tortuosity were approximately obtained through the effect of ICFR. Atomic force microscope (AFM), scanning electron microscope (SEM), and ultrafiltration measurements were utilized to characterize the hollow fibers. The SEM and AFM results indicated that the cross-sectional morphology of the fibers is changed significantly with various ICFR. The structure of the inner surface was also changed from an open cellular structure to a porous structure by means of high pore density and small pore diameter. In addition, the membrane thickness was reduced by 314% with an increase in the ICFR from 2.6 to 13 ml/min. The pure water permeation flux was improved 17 times when ICFR was increased to 13 ml/min, while the BSA rejection remained within the acceptable range (from 93.4 to 90.4) when the ICFR was increased from 2.6 to 9 ml/min