دکتر مجید قانعی

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 CURRICULUM VITAE


Dr.MAJID GHANEI



    

Resident:                                          Iran/Tehran

Education:                                        Summer 1992, B.Sc.

                                                         Chemical engineering, faculty of 

                                                         Technology, university of Tehran,

                                                         Tehran, Iran.


                                                          Summer 1994, M.Sc.

                                                          Chemical engineering, faculty of

                                                          Technology, university of Tehran,

                                                          Tehran, Iran.


                                                                   Summer 2001, Ph.D.

                                                          Chemical engineering, faculty of

                                                          Technology, university of Tehran,

                                                          Tehran, Iran.


B.Sc. thesis:                                      Effect of hydrodynamic operating

                                                          parameters in mixer-settler liquid 

                                                          extraction equipments.

M.Sc. thesis:                                      Investigation on efficiency 

                                                          enhancement in RSDC in comparison

                                                          to RDC liquid extraction columns.


Ph.D. thesis:                                      A thermodynamic model for

                                                          Predicting asphaltene phase 

                                                          Behavior in oil reservoir.

 

Field of interest:                                Basic Engineering & Design

                                                                    Pilot Plant Modeling & Manufacturing

                                                          Thermodynamic Modeling

                                                          Desalination by RO

 


Teaching experience:


  1. Undergraduate

    -Heat transfer

    -Fluid mechanics

    -Thermodynamics

    -Unit operation


  1. M.Sc. thesis co supervisor
  2. Reservoir engineering


Professional activities:


  1. Design, manufacturing, erection of Acryl plant, Tehran, Iran.
  2. Design, manufacturing, erection  of NBR pilot plant , Iran Polymer and petrochemical Research Institute, Tehran, Iran.
  3. Desalination plant design by reverse osmosis.
  4. Thermodynamic modeling of asphaltene.
  5. Design and manufacture of RDC and RSDC liquid extraction columns in pilot plant scale, chemical engineering department, faculty of engineering, university of Tehran, Tehran, Iran.
  6. Design and manufacture of furfural extraction column (RDC) in pilot plant scale, Behran Oil Company, Tehran, Iran.
  7. Design, manufacture and installation of unit operation, heat transfer and fluid mechanics laboratory equipments, faculty of chemistry, Azad university of Tehran, Tehran, Iran.


Industrial experience:


Pressure vessel and quality control group, Mashin Sazi Arak (M.S.A)                                                       Arak, Iran.


Lubricating oil refinery of Behran, Behran oil company, Tehran, Iran.


                                                           

WTP,EPC Project manager, Tehcnologye Abe shahri va sanatee Iran Tehran,/HiTeQ



Some of Projects’ details


Project

Client

Location

Date





WTP,EPC

Tam Irankhodro

Azarbayjan Factory

1392

Dosing units, EPC

IRITEC

Hormozgan steel company

1392

WTP,EPC

MATN

Mansoori oil field

1391

WTP,EPC

IRITEC

Agajari oil field

1391

WTP,EPC

OIEC

NGL siri Island

1390

WTP,EPC

IRITEC

NGL Kharg Island

1388

WTP,EPC

N.G.S.C

Sarajeh Gas feild

1387

Dosing units, C

KEEC

Phases 15,16

1387

WTP,EPC

Fajr Gas Refinery

Kangan,Jam

1386

Potable Package

EPC

IOEC

Abozar,salman,bahregansar platform

1386

Potable Package

EPC

POGC

Phase 1  platform

1386

Dosing units, EPC

AZAN consortium

Bandar Imam

1386

WTP,EPC

Behran oil company

Tehran Refinery plant

1386

WTP,EPC

MAPNA

Chabahar power plant

1386

WTP,EPC

MAPNA

Ardebil power plant

1385

WTP,EPC

MAPNA

Aliabad power plant

1385

WTP-DM,EPC

MAPNA

Hormozgan power plant

1384

WTP,PC

KEEC

Parand power plant

1384

WTP,PC

KEEC

Sanandaj power plant

1384

WTP,PC

KEEC

Kermanshah petrochemical

1384

WTP,EPC

Barez tier ,rubber

Kerman plant

1383

WTP,EPC

Artavil tier ,rubber

Ardebil plant

1383

WTP,EPC

Pegah uromieh

Uromirh plant

1383

WTP,EPC

Gazvin Glass

Gazvin plant

1382

WTP,EPC

Tabriz Teraktorsazi

Tabriz plant

1382


Publication and invited presentation:

1- “Reverse osmosis as a solution for water shortage in Iran” Ninth international water technology conference IWT C9 2005, Sharm El-Sheikh, Egypt, p217.

2- “Introduction to asphaltene precipitation reversibility” EEC innovation, vol1, no.3, Nov, 15, 2003.

3- “RO desalination in Iran” EuroMed 2002 desalination strategies in south Mediterranean countries, Sharm El Sheikh , Sinai, Egypt may 4-6, 2002.

4- “Reuse as a solution for water shortage in Iran” 5th international conference of European water resources association, Aten 4-8 September 2002.

5- “The application of continuous three-dimensional solubility parameter     distribution for modeling asphaltene phase behavior in crude oils”, 51 ST Canadian chemical engineering conference, Halifax, Canada, Oct, 2001,p.45.

6- “Asphaltene deposition problems: different meaning in different people”, the forth national Iranian chemical engineering congress, Esfahan, Iran, 2001(2) pp. 25-31.  

7- “Is asphaltene precipitation reversible?”, the   forth   national     Iranian chemical engineering congress, Esfahan, Iran,2001(2) pp. 231-236.

8- “The non-regular solubility parameter term for predicting onset and amount of asphaltene precipitation”, SPE No.67329, Oklahoma, USA, march 2001.

9- “The non-regular solubility parameter term for predicting onset and amount of asphaltene precipitation”, thermal recovery issue, Journal of petroleum Science and engineering, July 2001.

10- “The non-regular solubility parameter term for predicting onset and amount of asphaltene precipitation”, the Energex 2000 conference, Las Vegas, USA, july2001, pp. 1165-1176.

11- “Solubility parameter for predicting the amount and onset of asphaltene precipitation”, Iranian chemistry and chemical engineering Journal, no.1&2,2000, pp. 38-44.

12- “Study of the asphaltene and oil solubility parameter on asphaltene phase behavior”, the forth International and fifth national Iranian chemical engineering congress, Shiraz, Iran, 2000.

13- “Role of solvent solubility parameter in onset and amount of asphaltene precipitation”, the   forth    national    Iranian    chemical    engineering congress, Tehran, Iran, 1999 (4) pp. 338-341.

14- “Investigation of hydrodynamic parameter effects on extraction efficiency in mixer-settler and spray columns for lube oil systems”, the third national Iranian chemical engineering congress, Ahvaz, Iran, 1998 (1) pp. 169-172

15- “Design of rotary disc contactor in pilot plant scale for lubricating oil extraction by furfural”, the third national Iranian chemical engineering congress, Ahvaz, Iran, 1998 (2) pp.886-889.

16- “Hydrodynamics, coalescence and static holdup of dispersed phase in RDC and RSDC liquid extraction columns”, the second national Iranian chemical engineering congress, Tehran, Iran, 1997 (1) pp. 271-275.

17- “Characteristic velocity and dynamic hold up of dispersed phase and extraction efficiency in RDC comparison to RSDC liquid extraction columns”, the second national Iranian chemical engineering congress, Tehran, Iran, 1997 (1) pp.276-279.


last update 2024/01/10