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محسن میهن دوست

(مدیر آزمایشی)
مدیر آزمایشی


آفلاین
تاریخ عضویت  ۲۵/۰۸/۱۳۹۶
تاریخ تولد:  16/09/1985 (-1985 ساله)
زمان محلی:  18/01/2018 ، 15:43

تاریخ عضویت: ۲۵/۰۸/۱۳۹۶
آخرین ورود: ۲۳/۱۰/۱۳۹۶، ۲۲:۴۹
مجموع ارسال‌ها: 92 (1/45 ارسال در روز | 0.18 درصد از کل ارسال‌ها)
(یافتن کل ارسال‌ها)
مجموع موضوع‌ها: 92 (1/45 موضوع در روز | 0.21 درصد از کل موضوع‌ها)
(یافتن کل موضوع‌ها)
مدت زمان آنلاین بودن: 21 ساعت, 28 دقیقه, 19 ثانیه
تعداد کاربرهای معرفی کرده: 0
اعتبار: 0 [جزییات]

جنسیت: آقا
نام و نام خانوادگی: محسن میهن دوست
دانشگاه محل تحصیل: اهر
مقطع تحصیلی: کارشناسی ارشد
رشته و گرایش تحصیلی: مهندسی شیمی گرایش طراحی فرآیند
سال ورود به دانشگاه: 1391
موقعیت: ایلام
وضعیت تحصیل و اشتغال: شاغل در صنعت
شعار شما: NOTHING GREAT WAS EVER ACHIEVED WITHOUT ENTHUSIASM
رزومه: سوابق تحصیلی :
دیپلم ریاضی.
کارشناسی مهندسی نفت گرایش مخازن هیدروکربوری.
کارشناسی ارشد مهندسی شیمی گرایش طراحی فرایند.


تخصص :
ازدیاد برداشت از مخازن نفت و گاز.
چاه آزمایی.
مدلسازی پدیده های انتقال با استفاده از نرم افزارهای مختلف.
انتگراسیون و طراحی فرآیند - بهینه سازی مبدل های حرارتی - پیل های سوختی.
طراحی راکتور و مدلسازی فرایندهای کاتالیزوری - ترمودینامیک تعادلات فازی.
عملیات حفاری چاه های نفت و گاز Hoisting System -
Rotating System - Circulating System - Controlling System - Power & Drive System - .Monitoring System


مهارت نرم افزاری :
کار با نرم افزار Eclipse 100 & 300.
کار با نرم افزار ( CFD ( Fluent & Gambit.
کار با نرم افزار Hysys.
کار با نرم افزار Matlab.


مقالات علمی :
Evaluation of recovery reduction problem from oil and gas fields due to liquid accumulation in gas wells and presenting improvement methods, 1st National Conference on Petroleum Geomechanics, International Convention Center of RIPI Tehran, May,12-14,2015.
ABSTRACT
Liquid drops and gas flow in ground reservoir increase complicacy of computing minimum gas flow rate to extract the liquids from the well. Gravity force lead the drops downward and tension force of gas lead them upward. When these two forces are equal, the drops float and the gas flow rate is called critical flow rate. When gas flow is critical, the drops float, and over the critical rate, the drops glide upward and downward when the flow rate is less than critical value. In general, critical flow rate is the minimum gas flow that is not capable of bringing the liquid to the surface and form a column of liquid in the well and reduce yield of the well. To prevent concentration of liquid, gas flow rate needs to be kept at critical level. Neural network and transient two-phase model were used to survey and detect concentration of liquid in gas well. The results help us to avoid concentration of liquid by monitoring minimum rate of gas flow and injection gas. The first section introduces a multilayer perceptron neural network and the proposed model to predict
concentration of liquids. Section two deals with the modeling equations of transient two-phase flow ruling concentration of liquids in the form of numerical extension. The surveys and predicted minimum flow rate showed that critical rate error in the neural and transient two-phase models are trivial and the results were acceptable.


pattern effect analysis of the injection and production wells on gas injection process with considering geological information and reservoir properties in a petroleum field, 1st National Conference on Petroleum Geomechanics, International Convention Center of RIPI Tehran, May,12-14,2015.
ABSTRACT
Study site was divided into four sectors and the sector under study was 3.5 and 3.2km in length and width respectively and 150m deep. The site was an oil field of quality oil with API of 36. Preliminary pressure of the reservoir was 5300psi with fracture of 18-23% and permeability of 0.38-3MD. At early phase of production, the reservoir was in hyper-saturation condition and over time production rate has decreased. Because of this, the field has gradually developed saturation condition and gas dome has formed. The required information to develop the statistic model of an oil reservoir include geological information (stratus structure, surfaces, and faults), petro-physical information (fracture, relative and absolute permeability, and effective thickness to total thickness rate), engineering information of the reservoir (position of wells, real and vertical depth of the wells, and VFP data). The purpose of the analysis is to detect behavior of reservoir relative to changes of the parameters. The results will be used to predict future behavior of the reservoir based on the parameters and performance of gas injection in the reservoir. The present article tires to evaluate the effect of patterns of injection and production wells on performance of gas injection process. To this end, main patterns (4 spot, 4 spot-dual, 5 spot, 5 spot-dual) and their effect in increasing oil and gas reservoir yield were evaluated. It is notable that number of injection and production wells was different for each model. The experiments showed that 5 Spot-Dual pattern was the optimum pattern for our model, and it was taken into account for other scenarios.


Evaluation of Immiscible Injection Process of Water and Gas to Increase Oil Recovery in Dorood Field, 1st National Conference on Petroleum Geomechanics International Convention Center of RIPI Tehran, May,12-14,2015.
ABSTRACT
Great deal of oil reservoir remains in rock matrix during extraction of oil from hydrocarbor reservoir. Modern technology and science of engineering enables us improve oil extraction up to 30 to 50%. Gas and water injection increases oil production from the matrix via gravity drainage. The purpose of injecting gas or water into oil reservoir is to supply and increase pressure of the reservoir. The operation induces changes in thermodynamic properties of oil reservoir including saturation pressure, formation volume index, viscosity, and specific weight of oil. No reaction is triggered between injected material and the hydrocarbons throughout immiscible injection so that the two elements remain in different phases. Oil current mechanism with this type of injection is increase of generated pressure by the injection material. The present study is an attempt to survey the effect of injecting water and gas on stimulating oil wells and response of the wells in Dorood. Taking into account studies carried out at the site, it is concluded that one effective and reliable way of increasing oil production is to keep the pressure by immiscible injection of oil and gas. Economically speaking and given easy access to water and gas at the region, the injection operation leads to 10% increase of oil production, which means more than 800 million extra barrel of oil.


Efficiency evaluation of various gases injection in order to enhance oil recovery (EOR) in Iranian southwestern fractured carbonate reservoir, 1st National Conference on Petroleum Geomechanics, International Convention Center of RIPI Tehran, May,12-14,2015.
ABSTRACT
From geomechanical viewpoint, fractures in carbonated reservoirs are formed by solid surface with low adhesive properties under pressures of tectonic forces by different types of rocks. fracture model of fractured reservoirs is formed by matrix. Interparticle porosity (like common fracture in porous environment) and fracture porosity are usually known as secondary fracture, which is empty space or fracture. The preset paper is an attempt to survey and compare different scenarios of nitrogen, carbon dioxide and nitrogen, and carbon dioxide injection. The results showed that gas recovery outperformed injection of other types of gasses. The reason is that in addition to higher increase oil oil production comparing with other methods, easier access to the required gas cuts the cost of the operation to a great extent. Following natural gas, other types of gases also increased oil production based on their miscibility pressure. That is, the lower the miscibility pressure,the higher oil
production increase.


Use of nano technology in enhancement of recovery from oil and gas reservoirs, 1st National Conference on Petroleum Geomechanics, International Convention Center of RIPI Tehran, May,12-14,2015.
ABSTRACT
Oil and gas are the two main sources of fuel in our modern societies. Given limited oil and gas resources and man’s limitation in exploring and extracting hydrocarbor resource, developing new technologies to increase extraction from gas and oil resource seems inevitable. New nano technologies are promising opportunities to make considerable changes in different fields of gas and oil production. A short introduction to standard and conventional extraction and improvement of extraction is given in what followed and new opportunities provided by nano technology in different aspects are explained later. The authors believe that nano technology and new approaches to layout, structure, and material properties in oil and gas industry can solve many of current issues. The paper is aimed at surveying effects and performance of nano technology on the operation of increasing yield of oil and gas reservoirs in four key fields of nano-fluids, nano particles, nano surfactant, and nano composite hydrogels. Nano fluids induce wettability changes, decrease of strain force, and increase of strength of sand. Among applications of nano particles, facilitating oil and gas separation inside the reservoir and nano-trackers in the rock of reservoir are notable. Nano surfactants cut surface strain, improve wettability, reduce permeability pressure at reservoir fracture section. Hydrogels are hydrophilic three dimensional polymer composites that expand in presence of water while remaining unsolved. With viscosity equal with water, the gel can be injected into the reservoir using conventional pumps and given identical structures with water, penetration of gel is higher than that of cement. The results of the surveys and the experiments can considerably increase in site recover of
reservoir.

سایر اطلاعات


آخرین بازدید ها از این پروفایل
پگاه داراب پور۲۳/۱۰/۱۳۹۶۲۳:۳۳
M.karimian۲۲/۱۰/۱۳۹۶۰:۴۷
همایون قاسمی۲۱/۱۰/۱۳۹۶۲۱:۵۸
younes azadi۲۱/۱۰/۱۳۹۶۱۹:۲۷
komeilghahremani۲۶/۰۹/۱۳۹۶۱۷:۲۹
Marmarrrrry۲۵/۰۹/۱۳۹۶۱۹:۳۹
n.jfh۲۷/۰۸/۱۳۹۶۱:۱۸
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