Upload
others
View
1
Download
0
Embed Size (px)
Citation preview
Permanent Address: Current address:1461 Ithaca Court, GUtech Mississauga, ON, L5J 4L1, Engineering DepartmentCANADA OMAN
Tel. #: 00968-Email: [email protected] Email: ay [email protected]
General information;
EDUCATION
PhD. Thesis; Chemical Engineering, University of Manchester-UMIST, England, 1985.Title; ‘Evaluation of Hydrodynamic and Mass transfer parameter in Rotating Disc Contactor, Liquid – Liquid Extraction, Using Forward Mixing Model.’
MSc. Thesis in Chemical Engineering, (Course & Dissertation)University of Manchester-UMIST, England, 1981.Title; ‘Measuring Drop size and Size distribution in 7.62 cm RDC column’.
Undergraduate 1. BSc. Chemical Engineering, University of Baghdad, Iraq, 1975.2. BSc. Industrial Chemistry, University of Mosul, Iraq, 1972.
PROFESSIONAL EXPERIENCE
1. 9.2014 – Up to date;Associate Professor, Internship CoordinatorEngineering Department, (Process Engineering Section)German University of Technology in Oman (GUtech)
Teaching: A) Plant design I & II.B) Mechanical process EngineeringC) Engineering Principles and Calculation (Material &
Energy Balance)D) Petroleum & Petrochemical ProcessesE) Mass TransferF) Project workshop I, II and III & IVG) Thesis & Colloquium. (Supervised over 85 students). H) Life skill; Preparation for employment ‘Code of
conduct and ethics for Engineers’
2009 – 1.9.2013, Nizwa University, Associate Professor,Chemical and petrochemical engineering Department,Teaching:
A) Plant Design I&II (CHPE503 & 506)B) Equipment Design CHPE 406C) Separation process and stage wise separation CHPE 401D) Fluid Mechanics CHPE 204E) Heat Transfer CHPE 303F) Final Year Project I&II (CHPE507 & 508)G) Introduction to EngineeringH) Chemical Engineering Thermodynamics
Sept 2006 – Oct 2009 Nizwa UniversityHoD Chemical and petrochemical engineering.Assistant Dean for Academic affairs (2006 – 2009)Assistant Dean for Training affairs (2008 – 2010)Associate ProfessorTaught: Fundamental of Chemical Engineering, Materials Science & Engineering, Engineering Thermodynamics, and Introduction to Engineering,
2004 – 2006 Sultan Qaboos University, Oman Department of Petroleum & Chemical Engineering
Visiting consultant.
Taught: Introduction to Design, Petroleum Refinery, Petrochemical & Natural Gas Processes, Mechanical Separation Processes.Separation processFluid MechanicsHeat Transfer
2002 - 2004 Stuart Energy System, Toronto, Canada Senior application Specialist, (Advanced Engineering Team)Acting team leader of re-designing and developing CF unit to meet European standards & CE marks.
Researcher worked on a process to separate gas liquid out of hydrogen cells.
Developed process for ultra-hydrogen gas purity using catalyst & membrane units to achieve 99.9999%: saving of $750,000.
2000 – 2002 Electrolyser Corp., Toronto - CanadaProposal & Application ManagerPreliminary custom process design, feasibility study, selecting of equipment,
Sizing equipment's for different TTR, MW, and CFA units.
1998 – 2002 Seneca College for Science & Technology, Toronto, CanadaTaught: Industrial Chemistry, Organic & Polymer Chemistry, Molecular Bio-Chemistry, Applied Mathematics & Applied Physics.
2
1996 – 1997 University of Seventh of April, Zaouia, Libya Chemical Engineering Department Associate Professor
Taught: Transport phenomena, Kinetics & Reactor Design, Mass Transfer, & Corrosion.
1993 – 1996 University of Nasser, Al-Khoms, Libya Chemical Engineering Department Head of departmentTaught: Plant & Equipment Design, Separation process, Fluid Mechanics, Heat Transfer
1986 – 1992 University of Technology, Baghdad, IraqChemical Engineering Department
Taught: graduate/undergraduate courses: Multiphase Flow, Mathematical Modeling Design, Compressible Flow, Supervised around twenty final design projects.
1985 - 1986 Ministry of Industry, Baghdad, Iraq, Project Manager To rebuild a damaged Nitric Acid Plant after an accident.
1975 - 1985 Coordinator with SGS Company (Italy)Responsible for chemical part of Electronic ComplexDeveloped & coordinated schedule & implementation of administration policies for mechanical, electrical, chemical & civil design, safety programs, environmental design, maintenance & construction operations, materials & researchSupervised design groups, subcontractors & material delivery.
COMPUTER PROFICIENCY
HYSYS, Auto Cad-2000, C, Visual Basic, Microsoft Office, & FORTRAN
PUBLICATIONSPublished Refereed Journals and Conferences:
1. Dr. Ayham M. Ismail Al-Rahawi, Comparative study on CAS, UCT, and MBR configurations for nutrient removal from hospital wastewater, Desalination and Water Treatment; 164 (2019) 39–47
2. Dr. Ayham. M. I. Al-Rahawi, Prediction of dispersed phase hold-up in rotating disc contactor, liquid extraction column, 22nd International congress of chemical and process engineering CHISA, 26 August, 2016 Prague. (Under GUtech name)
3. Dr. Ayham M. Ismail Al-Rahawi & Salam K. al Dawery, Influence of inlet distributor and column diameter on hydrodynamic characteristics in RDC liquid extraction
3
column, International Journal of Research in Engineering and Technology, V (5), Issue: 04, 359-371, Apr-2016. (Under GUtech name)
4. Dr Ayham AL Arhawi, Oman Refining & Petrochemical (ORPIC) Conference, “Trends in The Middle East Downstream Industry”, Main speaker, 16 – 18 March 2015. Muscat , Oman. (Under GUtech name)
5. Dr Salam Al-Dawery & Dr Ayham AL Arhawi,Dynamic Modeling and control of plate heat exchanger, International Journal of Heat and Mass Transfer 55 (2012) 6873–6880
6. Al Rahawi, Ayham Ismail and Munther M. Al Hasani, Computing drop size distribution in RDC liquid extraction, 2nd NSEFYP, , UON, 15 May, 2012.
7. Al-Rahawi Ismaill, A. M., New predictive correlations for the drop size in RDC liquid – liquid extraction column, Chem. Eng. Technol. 2007 ,30,No.2,1-10.
8. Al-Rahawi, A. Ismail,”Future Fuel Technology, Hydrogen fuel system” , Seminar about ustanable energy SQU, Engineering College, Muscat, April 2005.
9. Ismail, A. M. and A. Abdulla, Process control of Multi-component Distillation tower, J of Engineering, (1994), 114, p 8-25.
10. Ismail, A. M., Safa Al Nuaimi and A. Hussen, Hydrodynamic and mass transfer study of multi-component distillation tower, J. Eng. and Technology, (1993), 2 (86), pp. 7-23.
11. Ismail, A. M. and F. Hussen, Improvement of spray column efficiency by controlling the axial mixing coefficient, J. Eng. and Technology, (1993), 2 (114), pp. 7-26.
12. Ismail, A.M. and. Hussen, F, Modeling of hydrodynamics and mass transfer parameters in spray column, J. Eng. and Technology, (1993) 7(6), 56-65.
13. Ismail, A.M. and., Prediction of dispersed phase hold-up in spray column, J. Eng. and Technology, (1992) 5(11), 44-49.
14. Ismail, A. M. and Abbas, S., Mathematical model to simulate the drop size distribution in packing column. J. Eng. and Technology, (1992) 4(28), 176.
15. Ismail, A.M. and Alais, N., Hydrodynamic and mass transfer behavior of single drop moving in stagnate phase, J. Eng. and Technology, (1991), 4 (10), pp. 131-154.
16. Korchinsky, W and Ismail, A. M., Mass transfer parameters in rotating disc contactor, influence of column diameter, J. Chem. Tech. and Biotechnology, (1988), 43, pp. 147-185.
17. Korchinsky W., Raid Al Hussiani and Ayham M. Ismail, Exact solutions of the handlos-baron, model equations for countercurrent flow extraction in small and large RDC column, International Solvent Extraction Conference, Manchester, March 1982.
Industrial research & Technical reports:Seventeen confidential Industrial research works were submitted to Stuart Energy System in Canada. The work includes an innovation and confidential design work. These researches cannot published due to confidentiality & security reasons:
18. Development of Zero Emission Hydrogen Technology (Power generating system, commertial cars) Jan 2001.
19. Prelimanary design for marine fuel gyrocell and its application, advance research group team April 2001.
4
20. Storing hydrogen gas in; gas tank and gas holder (compressed under the pressure of 7000 psia), stationary or transport cryogenic containers (liquid hydrogen under pressure), metal hydrides (metal absorption), underground storage, Dec 2001.
21. Membrane electrode assembly for an electrochemical fuel cell and a method of making an improved membrane electrode assembly May 2002.
22. Separating of Hydrogen and oxygen gas from an electrolyte - containing gas using a bi-containing mixed metal oxide membrane Aug 2002.
23. A study for use of Hydrogen fuel in buses vehicles fleets, power generating plant and industry. Emerging hydrogen fuel market for transportation and regenerative electric power applications Oct 2002.
24. Developed process for ultra-hydrogen gas purity using hybrid catalyst & membrane units to achieve 99.9999%, Dec 2002.
25. Integrating solar energy into small electrolyzing hydrogen fuel cell, to be use in deserts and urban area, Feb 2003.
26. Study of hydrodynamic characteristics of MWT hydrogen Fuel Cell, study of cells shape and electrode configuration, March 2003.
27. Efficient and Practical Hydrogen Fuelled Vehicle Technologies. 2001.
Under Preparation:1. Comparative study on CAS, UCT and MBR configurations for nutrient removal from Hospital wastewater. (Sent for publication 2018)
2. Modelling of Poly-drops Mass transfer coefficient in RDC liquid extraction.
2. Ayham Al Rahawi and Florian Rupp, Modelling of the drop size distribution in packing column.
Editorial Referee Editorial referee for the following International engineering journals;1. The Canadian Journal of Chemical Engineering, 2. Chemical Engineering Communications, 3. Separation science and technology, 4. Journal of Chemical Engineering of Japan,5. finally Chemical Engineering Journal.
CONFERENCES AND SUMMITS Conference, Renewable energy research strategic program document, TRC, 15 April
2015, Muscat, Oman Seminar, Notingham university, Engineering College, Ninbo, China, 12 April 2013.
Prediciton of dispersed phase Hold-up In Rotating disc contactor, liquid extraction column. Effect of distributor.
Summit on Hydrogen Fuel Cell, Montréal, Canada 2003. Summit on High Pressure Fuel Container for Hydrogen Vehicles, Canada, 2003. Summit on Certification Testing & Demonstration of Insulating High Pressure Gas
Tank, Toronto, 2002.
5
The Hydrogen Fuel applications Summit, Toronto, Canada, 2002. Safety & Hazardous material Summit, Mississauga, Canada, 2002. A Conference on "Hydrogen, Tomorrow Energy", Montréal, Canada, 2002. The 11th Canadian Hydrogen Conference, Toronto, Canada, 19 June, 2001. A Conference on "The Renewable Energy", Toronto, Canada, 2001. The Second Iraqi Conference on Petrochemical and Petrol Industry, Baghdad, 1991. Iraqi Institute for Scientific & research Centre, Baghdad, 1990. The Fifth International Solar Energy, Baghdad, 1989. The Second Energy & Environment Conference, Baghdad, 1989. The Third Arab Engineering Conference, Baghdad, 1988. The International Conference for Engineering Education, Baghdad, 1987. The Annual Conference of the Iraqi Petroleum Research Centre, 1987. The Iraqi International Scientific Conference, Baghdad, 1986. The International Conference on Petrochemical & Petrol Industry Baghdad, 1986.
TEACHING EXPERENCE
(A) Postgraduate1. Fluid Mechanics, Multiphase Flow to Ph.D. level (5 times)2. Mathematical Modeling Design for M. Sc Level (6 times)3. Fluid Mechanics, Compressible flow for Diploma level (6 times)
(B) Undergraduate1. Mass Transfer (12 times)2. Separation Processes I (Stage wise separation) (15 times)3. Mechanical Separation Processes (Particles technology)4. Equipment’s Design (10 times)5. Transport phenomena & Unit operation (5 times)6. Petroleum refining and Petrochemicals Process7. Plant Design I &II.(14 times)8. Final year project I & II (8 times)9. Principles of Heat Transfer (11 times)10. Processes heat transfer (2 times)11. Fluid mechanics (16 times)12. Engineering materials and material science (4 times)13. Corrosion & Strength Of Material (2 times)14. Fundamental of Chemical Engineering (4 times)15. Chemical Engineering Thermodynamics (2 times)16. Thermal fluid (1 times)17. Chemical Kinetics And Reactor Design (2 times)18. Introduction to design and Project Managements (1 times)19. Introduction to Engineering (Future energy, Engineering ethics and codes) (8 times)20. Chemical Industrial Processes.(3 times)
PROFESSIONAL AFFLIATIONS P Eng, Ontario Canada (2001) left exam for ethic and law. Member of the ARCE – Ontario - Canada for Professional Engineers (2000)
6
Associate member, Chemical Engineering Association, Manchester, U.K (1981) Member of Iraqi Engineering Association (1975)
THESIS SUPERVISSION;
No.
Year Student and Projects Titles Level& University
1June 2017 Special and Routine core analysis (SCAL and RCL) for electrical
properties of oil well development,Samira Al Subhi
(B.Eng)GUtech
2June 2017 Simulating de-methanizer coulmn using ChemCad
simulator program,Suhaila Al-Bulushi
(B.Eng)GUtech
3June 2017 Reduction of water consumption in cooling tower,
Malik Dhiyab Alabri (B.Eng)
GUtech
4June 2017 Determining number of stages for existing and
modified de-methanizer column,Atika Al-Rahbi
(B.Eng)GUtech
5June 2017 A Design study to improve cooling tower
performance,Mazin Alsaadi
(B.Eng)GUtech
6June 2017 Redesign of striper de-methanizer column, using
stage by stage calculation,Qamariya Al-brashdi
(B.Eng)GUtech
72017 The Effect of packing material types on pressure
drop,Sheikha Al Hinai (in process)
(B.Eng)GUtech
82017 The effect of using different packing materials on
pressure drop inside packed column,Shruooq Mohammed Al-Saidi (in process)
(B.Eng)GUtech
92017 Effect of counter-current flow on pressure drop and
relation between Reynolds number and friction number,Afaf Al Shuhaibi (in process)
(B.Eng)GUtech
9July. 2016 Influence of geometry of irregular particles on
settling velocity in Newtonian fluid,Raiya Al Aisri
(B.Eng)GUtech
10July. 2016 Model Electric Generator,
Queiss Al. Maskri . (B.Eng)
GUtech
11July. 2016 Measuring Pressure drop across packed column
Ali Mansuri(B.Eng)
GUtech
12July. 2016 Influence of geometry of regular particles on
settling velocity in different fluids,Balqees Ali Al-Siyabi
(B.Eng)GUtech
13July. 2016 Measurement of Pressure Drop in Packed Column,
Sumaiya Al Battashi(B.Eng)
GUtech
14July. 2016 Terminal Velocity of a Bubble Rise in a Liquid
Column,Marwa AL Hinai
(B.Eng)GUtech
15 July. 2016 Recycling of used lubricating oil.
Maryam Al Mukhaini (B.Eng)
GUtech
7
16July. 2016 Effect of density of fluid, counter-current flow on
pressure drop in packed column and relation of Reynold’s number to friction factor,Talal Al Busaidi
(B.Eng)GUtech
Oct. 2016 Influence Of Geometry of Regular and Irregular Particles on Settling Velocity In different flow rates. Maryam Al Mukhaini, GUtech
(B.Eng)
Oct. 2016 Drops and Bubbles Terminal Velocity in Spray Column, Mustafa Al Hinai, GUtech,
GUtech
17Nov. 2015 Improving the pumping flow rate efficincy of
omani crude oil using drag reducton agentFaisal Al-Busaidi
(B.Eng)GUtech
182015 Analysis of Water Quality in Muscat
Abdullah Al-Riyami(B.Eng)
GUtech
8
Appendix for CV
Dr. Ayham Al RahawiPh.D. (Chem. Eng.), (Manchester University - UMIST)M.Sc. (Chem. Eng.), (Manchester University - UMIST)B. Sc. (Chem. Eng.), (Baghdad University)B. Sc. (Chem.), (Mosul University)
Engineering DepartmentGUtech,
Sultanite of Oman
Tel: +968-2205 1125, GSM: +968-953-800-15, Fax: 2206 1002
9
Supervised Graduate Students;
No. Year Student and Projects Titles Level
1. 1993 Muthana Rzok, Deactivation of illumination & light from black powder
PhD
2. 1991 Sarmed A. Ali, Mathematical model to evaluate the hydrodynamic and mass transfer parameters in packed column.
M.Sc.
3. 1990 Asrar M. Hassan The optimum control of multi-component mixture in distillation column.
M.Sc.
4. 1988 Khaled Saleh, Performance comparison between the packed and spray extraction column.
M.Sc.
5. 1987 Fawzia M. Hassan, Effect of dispersed phase distributor on the hydrodynamic and mass transfer parameters in spray liquid-liquid extraction column/
M.Sc.
6. 1993 Walid A. Sarhan; Drop size distributionin packing column.
M.Sc
7. 1993 Yousif Salma, Additive to depress illumination of firework materials.
High Diploma
8. 1992 Jawad F. Sultan, Controlling moisture content in black powder side products.
High Diploma
9. 1992 Thamer M. Jumah, Development of ammonium nitrate-fuel oil mixtures.
High Diploma
10. 1991 Salman T. Thamer, Power consumption in mixing tank, Viscous mixture .
High Diploma
11. 1991 Soheal H. Sultan, Drying of hazardous compound, using microwave technique
High Diploma
12. 1991 Mohamed S. Ali, Mixing of ammonium nitrate-base water gels.
High Diploma
13. 1991 Majed K. Taher, Compressible flow in close duct, measure of flow model parameters.
High Diploma
14. 1991 Mohanad M. Mohamed, Controlling the size of Black powder droplets by adjusting the nozzle diameter.
High Diploma
15. 1990 Hussean I. Swedan, Effect of ammonium Nitrate in fuel oil mixtures.
High Diploma
16. 1990 Abdil Jabar R. Salim, Increase the Distillation column efficiency, controlling reflux ratio
High Diploma
17. 1990 Salma A. Muktar, Literature survey on homogenous catalytic CST reactors
High Diploma
18. 1990 Jamal H. Al Tamimy, Liquefaction of Hydrogen gas isothermaly.
High Diploma
19. 1990 Abdil Salam Al Jubori, Extraction of heavy metal in multistage mixer stellar.
High Diploma
20. 1990 Nawal S. Alsafi, Design of RDC, using rigid drop model
High Diploma
21. 1989 Meason M. Hamed, Use of Silicon Polymers, in manufacturing of High heat resistance
High Diploma
10
castings.22. 1989 Needed H. Shawkat, Gas liquid separation
using hydrophobic membrane.High Diploma
23. 1989 Jawaher K. Hanoon, Applied Solar Energy in plate Heat exchangers
High Diploma
Supervised Undergraduate Students; A) Plant Design;
PART I:
In this course students use most of their knowledge which they acquired during four years of study and apply it in a full engineering project.
For students, it is a first step to take responsibility as an Engineer.
The course strategy is to make students focus on self-learning, library and information search, team work and discussion, engineering report writing and oral presentation.
Students have to learn how to make an initial start in the plant design through a series of activities (i.e. analysis, data collection, etc.), learn how to apply observations to a basic design.
Students will collect data, select process, carrying material and energy balance and economic analysis.Students will work in a team and report individually.
PART II:Students will continue to use data acuquired in the plant design I, and apply it in full Part II. Students will use data from plant design I to; design two main equipment’s, select control system and carrying cost estimation. Select side location and prepare layout design for plant and equipment’s layout.
No. Year Student and Projects Titles Level
1. Spring 2013 Design of biochemical plant to produce Renewable bio-fuel from Bio mass using fermentation process.
B.Sc
2. Spring 2013 Design of plant to produce Ethanol Bio diesel fuel from high molecular hydrocarbon.
B.Sc
3. Spring 2012 Design of Urea plant from ammonia. B.Sc
4. Fall 2011-12 Design of Ammonia plant B.Sc
5. Fall 2010-11 Design of Sulfuric Acid plants B.Sc
6. Spring 2009 Design of Ethanol plant from petrochemical hydrocarbon B.Sc
7. Spring 2008 Design of Nitric acid B.Sc
B. Final year Thesis;
11
This course is designed to help students with very little or no research background to learn the basics of investigating simple industrial problem and know how to solve it. This is a mini industrial project. The primary method for understanding problem is to use lab facilities to analyses and computer, if need, to calculate data then to make their own conclusion. When students finish the course, they will be close to making a decision, ready to continue their education for post graduate degree and to be on step to be professional engineers.
1Fall 2012-13
Computing drop size distribution in packing extraction column, using C++ computer program.Dr Ayham Al Rahawi & Mundher Al Hoseny.
B.Sc
2Fall 2012-13
Additive of accelerating agents to increase the hardening rate in concrete.Dr Ayham Al Rahawi & Aliaa Al Kumi.
B.Sc
3Fall 2012-13
Design of Oil-Solid-Water separator , control of internal and separator shape.Dr Ayham Al Rahawi & Bushra Al Haddabi.
B.Sc
4Fall 2012-13
Oil -. Water separator study of chemical and physical effect of separation efficiencyDr Ayham Al Rahawi & Iman Al Mamari
B.Sc
2. Ali Mansuri 3. Talal ALBusaidi
Measuring Pressure drop across packed column
4. Queiss Al. Maskri .Model Electric Generator
5. Marwa Al. Hinai 6. Balqees Al Siyabi 7. Raiya Al Aisri
Production and characterization of activated carbon from agriculture waste using coconut shell (applied of waste water pollution removal)
3. Maryam Al Mukhaini 4. Mustafa Al- Hinai 5. 7. Sumaiya Al Battashi
DESIGN & CONSULTANCYNo.
Consultancy Consultant Bureau
a. CPF Smock flair system problems;
a) Flared Gas composition analysed and design basis were checked.
b) Range of flow of waste gases sent to the flare without producing significant level of smoke was determine by regulation flow rate of gas,
2012
Consultation presented to Occidental.
Mukhaiznah CPFS / Oman
12
keeping the pressure at 50 psig and use same design temperature of 185 oC.
c) Calibrate air flow and increased the air flow to maximum to test flare max allowable air flow and compared it with design value.
d) Check air/gas ratio; the ratio was calculated and compared with the hydraulic capacity. The gas flow was reduced and adjusted to be lower than the hydraulic capacity. The smock reduced by 75%.
e) The smoke detectors (both optical & ionization types) is to be calibrated and integrated with the Fire & Gas system
2. Check of High pressure gas tank, FCHV version, 70Mpa. Increasing car cruising range. Double the amount of hydrogen from previous fuel tank FC1X,
Advance Engineering Team / Hydrogen Fuel System – STUART / Canada, 2002-2003.
3. Joint researcher, High-pressure hydrogen (Fuel Cell) Tank Dynetek-Calgary, designed of Lightweight 350-litre hydrogen fuel tank to run automobiles.
Advance Engineering Team / Hydrogen Fuel System – STUART / Canada, 2002
4. GE PTFE, Hydrophobic Unlamented Membranes, Compatible with high temperatures, strong acids and aggressive solutions. Separation of Caustic from Hydrogen Gas (MW units).
Advance Engineering Team / Hydrogen Fuel System – STUART / Canada, 2002.
5. Hydrodynamic and System Design Analysis – Mega Watt Hydrogen Fuel System.
R&D / Hydrogen Fuel System – ELECTROLYSER / Canada, 2000-2001
6. Design of High elevating Tank of 6,000-Gallon Capacity.
White Sea Plastic company, 1995.
7. Design of Chemical Storage / IC plant , Al Mansoor project, Baghdad, Iraq.
Al Kademiah, Al Moheat Consultancy Bureau, Baghdad (1979)
8. Effluent Treatment Plant (Al Mansoor Unit) Castiniati Engineeri LTD, Italy,1979
9. Modification of Gas plant, production of Argon and liquid Nitrogen.
SIAD, Milan, Italy. (1979)
13
10. Check of Design of Air separation plant /Supairco Al Haithem Institute 1978.
11. Analysis & Design of Pilot plant Units Karl-Kolb Germany (1978)
12. Design of water intake on river Tigers (Almansor project)
Castinaty Company /Toreno – Italy (1977)
13. Analysis & Design of CSTR reactor, with air cooling jacket.
Al Hikmah Engineering Bureau 1976
14. Analysis Of Heat transfer distribution in immersed coil heater Using Finite Element Methods.
Hashem Consulting Engineers Bureau (1976).
INDUSTRIAL PROJECTS
(Electrolyser & Studart Energy System – Canada);
No Name of the Company
Projects Capacity Year
1. Sterlit Technologies Ltd
Series MW, 500 cubic metres per hour (480,000 standard cubic feet per day) hydrogen plant. With 99.999% high purity hydrogen and oxygen
Total value of over $8 million and include 144 DEPTM cell stacks.
2001
2. Thousand Palms,California,
“Sun Line Transit Agency and Ballard”Bus Demo.
Electrolytic H2 generation and compression unit up to 34.5 MPa; 1,400 standardcubic feet per hour, Pdc Machinescompressor
Total of $3 Million
2001
3. Richmond, California
Hydrogen Energy Station for vehicle fueling PEM electrolyzer; first satellite hub
Total of $5 Millions
include the spencers and
Oct 2002
14
for CaFCP vehicles. Has 47 kg H2 storageCapability.
tanks
4. Chula Vista,California(mobile station)
can fuel 3 buses a day, and dispenses at3,600 and 5,000 psi. Pdc Machines
$ 2.740 Million
2003
5 Ford Motor / USA
Devolved of an advanced direct injection fuel system for vehicles powered by high-efficiency, high-performance engines operating on pure hydrogen (99.999%)
Total Value of around $6
Million
2003
6 Cheung Kong Infrastructure (CKI),
Replacing Hong Kong Diesel power generator with remotely Hydrogen supply units based on Stuart's technology.
Total value of CAD $ 600
Million
9 The Stockholm HESF / Sweden
Comprised of four modules: pressurized water electrolysis-based hydrogen generation, compression, high-pressure storage and hydrogen fuel dispenser. The station is capable of producing approximately 120 kg per day of high-purity, high-pressure hydrogen using Stuart Energy's proprietary IMET(R) technology. Each fuel cell bus carries approximately 40 kg of hydrogen at 350 bar (5,000 psi).
$7 million 2004
10 Diamond Bar,California
(SES-f)One of first Hydrogen stations opened to the public use.
Total value of $2.5 Million.
2004
AWARDS AND HONORS
No. Awards / Honours Year
1.
Number of Certificates of Appreciations, from the Chancellors of Nizwa University, Oman, for the University Exhibition.
2008 - 2012
2. Certificate of Appreciation, from the Chancellors of Nizwa University, Oman, for the efforts, involvement and association in building laboratories equipment for the University Exhibition.
2007
3. Excellence Service Award, STUART ENERGY SYSTEM, Toronto-CANADA
2003
4. Excellence Service Award, STUART ENERGY SYSTEM, for developed process for ultra hydrogen gas purity using catalyst &
2002
15
membrane units to achieve 99.9999%: saving of $750,000, Toronto-CANADA
5. Certificate of Appreciation, for generating a simulation model to calculate the cost estimation and select optimum design combination & achieve optimum process, Electrolyser, Toronto-CANADA
2001
6. Excellence in Teaching Award, Faculty of Science, Seneca College
1999, 2000
7. Certificate of Appreciation, for the involvement in success of Canadian – Arab Engineering Conference, CANADA
2001
8. Excellence Service Award, Ministry of Industry, for consultation and help in solving problem in Soap and Detergent plant, Libya
1997
9. Excellence in Teaching Award, Faculty of Engineering, Chem. Eng. Dept., Seventh of April University.
1997
10. Excellence Service Award, Ministry of Industry, Cement Factory at Komis, Libya
1994
11. Excellence Teaching Award, Nasser University. 1995
12. Special Award from the Chancellor of Nasser University for Directing the Best Department at Nasser University.
1994
13. Special Award at the Conference of Iraqi Scientists and Engineers, Baghdad.
1993
14. Excellence Award in Research from Iraqi AF for involvement in identifying and Manufacturing of High resistance Silicon rubber, Baghdad
1992
15. Excellence in Teaching Award, Faculty of Engineering, Saddam University
1991, 1992
16. Special Award from the Presidency Scientific Bureau, for effort and involvements with the Ministry of Industry in the Redesign, Innovation, Advance technology of Old equipment and products.
1991
17. Certificate of Appreciation for the involvement in the Success of Foreigner Scientist Conference, Baghdad - Iraq
1990
18. Certificate of Appreciation from Ministry of Oil for developing alternative products for some oil additives.
1990
19. Best lecturer in Chemical Engineering Department Award 1987, 1989
20. Service Medal from Iraqi Engineering Company for developing an Industrial System for re cycle plastics and rubbers
1988
21. Certificate of Appreciation for the involvement in the Success of Arab Engineering Conference, Baghdad - Iraq
1988
22. Certificate of Appreciation from the Scientific Centre at Presidential Head quarter, for the involvement in the re-design of the Nito-oxide reactor in Nitric Acid Plant , Al-Eskandria-Iraq
1987
23. Excellence in Teaching Award, Faculty of Engineering, UOT 1986
16
24. Excellence Service Award, from Ministry of Industry, Iraq 1977
25. Gold Medal at ACEMA Invention Show exhibition 1976-Frankfort - Germany
1976
26. Special Award for best Design of Pilot Plant Units, Centre of the Natural Products, Baghdad - Iraq
1976
ENGINEERING TRAINING
No.
Training
1. One month training on Advance industrial managements and administration strategy, Ministry of Planning (Baghdad-Iraq)
2. Three months training on Air Separation Gas plant – (Savona – Italy)3. Three months training on Effluent treatment plant – (Toreno – Italy)4. Three months training on Chemical Site in I.C complex – (Milan – Italy)5. Three months training on Design & Operation of Pilot Plants, (Frankfort –
Germany)6. Four months training in Al-Dora Oil Refinery on Production of Lube oil /
Furfural and propane extraction units, (Baghdad - Iraq)7. Three months training in Badosh Cements Factory on Kiln & Mill,
( Badosh-Iraq)
17