Mahmoud Asadi scite author profile

Mahmoud Asadi

5Publications

14Citation Statements Received

22Citation Statements Given

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111

Affiliations

Islamic Azad University Tonekabon, University of Kansas

Publications

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Essential oils composition and antibacterial activities ofEucalyptus camaldulensisDehn.

Lima¹,

Babakhani²,

Boldaji³

et al. 2013

Med. Plnts. Int. Jrnl. Phyt. Rela. Ind.

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To determine chemical composition of essential oil and its antibacterial effects, E. camaldulensis Dehn, leaves were harvested from Caspian seashore and Ghalegardan regions in Mazandaran province of Iran and were dried. The essential oils were isolated by hydro-distillation and analyzed by GC-MS. Results showed that oxygenate to hydrocarbon compounds ratios (MO to MH and SO to SH) were higher in the essential oil of Ghalegardan sample. In Ghalegardan sample 37 compounds were identified. The major components of Ghalegardan were Eucalyptol (29.2%), α-Phellanderene (17.43%), α-Pinene (7.1%), Arommadenderene(allo) (5.75%), Terpineol-4-ol (4.92%). In Seashore sample 36 compounds were identified. The major components of Seashore were Eucalyptol (46.74%), Arommadenderene(allo) (12.1%), Terpineol-4-ol (7.6%), α-Pinene (6.35%). In antibacterial experiment, results showed that essential oil of both samples possessed antibacterial activity and it is more effective against Staphylococcus aureus than Escherichia coli. Also, antibacterial activity of Ghalegardan sample is slightly higher than Seashore sample one. In conclusion, antibacterial activity of the Eucalyptus camaldulensis essential oils suggested it's clinically useful potentials, although further studies are required.

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Variation of Antioxidant Activity of Melissa officinalis Leaves Extracts During the Different Stages of Plant Growth

Saeb¹,

Gholamrezaee²,

Asadi³

2011

Biomed. Pharmacol. J.

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Plants rich source of phenolic compounds (phenolic acids, flavonoids and tannins) are the most important natural antioxidants. The Melissa officinalis has many valuable properties including antioxidant, anti-bacterial, analgesic, and relaxing. The purpose of this study was to determine change of antioxidant activity of plant leaves in various stage and the best harvest time of M.officinalis leaves for maximum antioxidant activity. Lemon balm leaves in three stages Different (vegetative growth stage, flowering stage and the stage after of flowering) collected and was dried. The antioxidant capacity of the plant extract done DPPH. The highest total phenolic and total flavonoids in leaves of plants and DPPH in flowering stage was high. So it seems the best time to plant, harvest leaves for the operation of its antioxidant property is in August.

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Characterization of the Jet Perforation Crushed Zone by SEM and Image Analysis

Asadi

Preston

1994

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Summary This paper presents a method to measure porosity and permeability alteration of the porosity and permeability alteration of the crushed-zone using scanning electron microscopy (SEM) and image analysis. A new phenomenon, shock metamorphism, was shown phenomenon, shock metamorphism, was shown to exist and is believed to be useful to evaluate shock wave penetration. Berea sandstone samples were prepared using a modification of the older API-43 recommended practice for test sample preparation. Samples were perforated preparation. Samples were perforated using low and medium penetration shaped charges. Analysis of the low charge shot sample indicated an average porosity reduction of 25%, and an average permeability reduction of 55% within the permeability reduction of 55% within the crushed zone. The sample shot with the medium penetration shaped charge showed planar element shock metamorphism. Introduction Shaped charge jet perforation is the most widely used method of establishing flow pathways from an oil or gas formation to the inside of a wellbore in oil and gas producing wells. A primary objective of producing wells. A primary objective of the jet perforation process is to create "clean" regularly shaped holes or tunnels that have a high fluid flow capacity. In shaped charge jet perforation, the detonation of an explosive charge containing a conical depression creates a sharply focused intense pressure pulse that can exceed 4 × 10(6) psi. and have a velocity of 30,000 ft/second. This pulse of hot explosion gas pushes aside all materials in its way. As effective as this process is in creating a hole or tunnel, it also alters the rock formation around the 1/4 to 1/2 inch diameter tunnel which is created, as indicated by Bell. This "altered" or "compacted" or "crushed-zone" is believed to be responsible for permeability of this zone being significantly less (up to 70% less) than virgin formation. Several authors have noted the presence of this crushed zone and also studied the effect of the compacted zone on well productivity both experimentally and productivity both experimentally and theoretically. However, their results were not based on direct measurements on the crushed zone. Bell indicated that formation strength, explosive charge shape, charge size, and operating configuration in the wellbore are known to affect shot penetration. But the effect of each of penetration. But the effect of each of these variables on the nature and extent of the crushed zone has not been reported, probably in large part due to lack of an probably in large part due to lack of an experimental methodology to directly observe the crushed zone.

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Effect of the Perforation Damage on Well Productivity

Asadi

Preston

Green

et al. 1994

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This paper reveals new information on the reduction in productivity caused by the crushed zone surrounding a jet perforation tunnel. A Berea sandstone sample was perforated according to a slightly modified API RP 43 Recommended Practice Standard Procedure for perforation, using a 3.5 gr. RDX type charge. The crushed zone was identified using a scanning electron microscope, SEM. The crushed zone was divided into a number of cells both radially (away from the shot center) and longitudinally (along the perforation tunnel). Porosity and permeability of each cell were obtained using image analysis. The permeability value of each cell was arranged around the perforation tunnel according to their original orientations. U sing a black oil simulator, productivity of a well was found and compared to one where no permeability reduction was assumed for the crushed zone. In addition, the Dykstra-Parsons relation was employed to estimate permeability values for a suite of 20 cells. The estimated values were then oriented around the perforation tunnel in ascending, descending, and randomly orders. Productivity of the well was obtained for each permeability orientation. A 55% permeability reduction around the perforation tunnel, as the result of the perforation process, led to a 60% reduction in well productivity. Also, ascending orientation of the permeability around the perforation tunnel resulted in a higher well productivity than descending or random orientation.

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Foliar Application of Glycine Betaine Affects Morpho-physiological, Biochemical and Fruit Quality Traits of Thomson Navel Orange Under Deficit Irrigation

Delfani

Asadi

Golein

et al. 2022

J Plant Growth Regul

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Mahmoud Asadi

Essential oils composition and antibacterial activities ofEucalyptus camaldulensisDehn.

Variation of Antioxidant Activity of Melissa officinalis Leaves Extracts During the Different Stages of Plant Growth

Characterization of the Jet Perforation Crushed Zone by SEM and Image Analysis

Effect of the Perforation Damage on Well Productivity

Foliar Application of Glycine Betaine Affects Morpho-physiological, Biochemical and Fruit Quality Traits of Thomson Navel Orange Under Deficit Irrigation

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