Nazmy Markos has over 34 years of experience in mechanical engineering, project management, and cost estimating for oil and gas pipeline and facility projects. He has extensive experience performing engineering design, stress analysis, hydraulic studies, and cost estimating for pipeline projects including pipelines, pumping stations, compressor stations, and tank farms. Some of the projects he has worked on include pipelines and facilities for TransCanada, Enbridge, Kinder Morgan, and Syncrude.

1. Nazmy Markos, P. Eng. nazmymarkos@usa.net
Pipeline Facilities Manager 416 473 6261
Page 1 of 10
Career Summary
Over 34 years of experience in mechanical engineering, project management and engineering cost
estimates in the oil and gas industry. He is experienced in Oil and Gas pipelines & facilities , mineral
processing (iron ore), metallurgical, pipelines, tank farms, Oil& Gas pumping/Compressor stations industrial
facilities, industrial HVAC and ventilation, industrial refrigeration and factory setup, plant design, Slurry
Pipeline and pumping, construction, plant commissioning and start-ups, Cost estimate of pipeline and
pipeline facilities. Responsibilities have included Project Management and Chief Mechanical Engineer. He
has proven experience in various phases of project development including pre-feasibility, feasibility and
detailed engineering for a variety of projects. Nazmy is experienced in managing external consultant
resources, technology vendors and engineering contractors, in addition to internal company resources.
Representative assignments include:
 Engineering man-hour estimate for new proposal including PEP(Project execution Plan), resource
loading, and deliverables oriented schedule.
 Lead Mechanical & stress Engineer –PMC rangeland South HDD , Belly River perform stress analysis
for the location using Autopipe to evaluate tie ins loops.
 Lead Mechanical & stress Engineer –PMC rangeland South HDD waterton HDD . Perform stress
analysis for three location using Autopipe to evaluate tie ins loops.
 Lead Mechanical & stress Engineer –PMC rangeland South HDD Little red deer HDD . Perform stress
analysis for the location using Autopipe to evaluate tie ins loops.
 Lead Mechanical & stress Engineer –PMC Frobisher Cutouts HDD . Led the Mechanical engineering
works, hydrotest and permits supports
 Lead Mechanical–PMC CO Belle HDD . Led the Mechanical engineering works, hydrotest and permits
support
 Urban Pipeline Replacement-SWC. Stress check for valves sites MLBV and HDD installation and
Operation stress values 20 and 12” pipelines.
 Lead Mechanical & stress engineer, Gul lake Buoyance study and control, calculate buoyance control
and stress in a sub water pipeline due to buoyance and measures to perform the job with minimum
costs within safe limits of pipeline design limits.
 Fortis EGP, Lead Mechanical & Stress engineer, Pipeline in Tunnel engineering, perform tunnel
installation option studies and complete bottom up cost estimate for several installation and preliminary
seismic stress analysis. 6 km of 24” high pressure gas pipeline. Support contractors RFP preparation,
contactors evaluations and interviews.
 Fortis EGP, Construction and Cost estimate Lead, Perform an -10/+25 construction and cost estimate
of the 24” 48 km pipeline construction cost estimate. Performed Monte Carlo risk analysis and the
March chart using @Risk and Tilos .
 Development of Pipeline Bottom up cost estimation tools for pipelines
 Development of Oil and gas pumps/compressor facilities cost estimate tool.
 Lead Engineer - PNG, BC, Canada PNG Pipeline Looping Project. FEED and Budgetary cost estimate
of Compressor station for 525 km 24” gas pipeline. 3 Titan 130-c41 sets and 3 Titan 130-C45. Gas
hydraulics, Station layout, PFD and Preliminary P&ID Class 4 Cost estimate for Construction, and Class
3 cost estimate for Major equipment (6 units to deliver 740 mmscfd).
 Lead Engineer Enbridge ANGLe Class 5 facility study, AB, Hydraulic study, pump station sizing,
equipment sizing, PFD and general Plot plans, equipment specifications and Class 5 (+30/-20) cost
estimate

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 Nexen, BC, Aurura, Gas pile hydraulic study and analysis, performed hydraulic study , different sizes
and flow rate to optimize a 1200 km gas transportation pipeline with different input points
 Nexen, BC, Aurura, Complete class 5 cost estimate for facilities and pipeline aboveground facilities for
1200 km (5 Compressor stations, 45 MLBV and 12 tap sites, Cathodic protections, SCADA and control
system, etc.)
 Lead Engineer - PNG, BC, Canada PNG Pipeline Enhancement Project. Class 5 Constriction
Budgetary cost estimate of Compressor station for 2 PL’s 8” and 30” (86 & 600 mmscfd) gas pipeline.
Gas hydraulics, Station layout, PFD and Preliminary P&ID Class 5 Cost estimate for Construction,
Class 4 cost estimate for Major equipment.
 Lead Engineer Carmon Creek Class 3 estimate, full hydraulic analyses, Dilbit pipeline with flow build
ratio from 10% to 100% of 50% pipeline capacity in the first 10 years. Thermo fluid analysis done to
predict the pipeline operation and shut down and start stop operations.
 Lead Mechanical Engineer - TransCanada, Alberta, Canada – Energy east. Lead Mechanical and
Piping Engineer responsible for Checking & review works, 71 Pump stations 491 Centrifugal pumps,
120 gas Turbine power generation units pre engineering (10 MW ea), Compressor units selection and
design review optimization 3 pipeline cooling facilities, Pipeline connecting Alberta to Quebec.
 Lead Mechanical Engineer – Kinder Morgan, Alberta, Canada Edmonton Rail Terminal Lead
Mechanical and Piping Engineer responsible for Checking & review works, pump station metering
skids, tanks.
 Lead Project Engineer, CNG Technology transfer to support CNG project for private investor in Latin
America in cooperation with a Chinese company to cover the full scope of CNG for Vehicle, Feed study,
feasibility and Class 3 cost estimate including procurements for
o Analysis of technical possibilities & capex requirement for new CNG project
o CNG production facility from natural gas (Process and storage facility)
 Prepare scheme, arrange equipment for CNG station using booster as on line comp in CNG
corridor
 Prepare tenders: wet lease, booster compressor, SS fittings, mass flow meter, manpower
hiring, Composite(civil, electrical, mechanical, instrument)work tender for CNG station
 Carry out TBA, QAP, inspection of comp, dispensers, cascades, SS fittings.
 Identification & feasibility analysis of CNG corridor pipeline.
 Prepare CNG stations design document
o Transportation Trucks & Loading facility
o Vehicles loading facilities (Buses and taxies)
o Conversion facilities
o Maintenance facilities
o Conversion kits for Taxis and Buses procurement and manufacturing
o Transfer of Vehicles composite tanks production technology
o Specification and design code write up (Adaptation of API,ASME and NFPA codes)
 Lead System Engineer Gazprom VIINST gas pipelines.
 Bechtel UK, Libya gas pipeline project hydraulic analysis, gas injection flow network for oil well.
 Lead Pipeline Engineer. MNG, Western Siberia, developer of multiphase flow thermo hydraulic analysis
based on existing crude oil properties ( Water+crude oil+gas+solids), MNG flow network analysis in
total 1500 km ranging from 4” to 24” (flow lines and gathering lines).
 Lead System Engineer Gazprom Astrakhan Gas Complex, Gas compression stations and Gas
treatment facility upgrade.

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 Lead Mechanical Engineer - Enbridge, Wood Buffalo Expansion Project - Scope Study of the Metering
stations. Lead Mechanical Engineer responsible for Metering stations study, data sheets and design
criteria of the tanks.
 Lead Mechanical Engineer - TransCanada, Alberta, Canada – Moss Hill Project.KXL project Lead
Mechanical and Piping Engineer responsible for tanks, pumping stations, Pipeline Cooling systems,
Detail Engineering. Cooling facility for 1MBPD.
 Lead Mechanical Engineer - TransCanada, Alberta, Canada – Hardisty Pump station. And Terminal
B.KXL project Lead Mechanical and Piping Engineer responsible Engineering check and review as
Business unit Mechanical Lead for tanks, pumping stations Metering skids, Traps, sump system. Detail
Engineering.
 Lead Mechanical Engineer - Agrium, Redwater, Alberta, Canada - CGT and F901. Lead Mechanical
and Piping Engineer responsible for Class 4 and 3, FEED study furnace sections replacements (Block
Finned Tubing Convective Heat Exchanger), utilities for GE new gas turbine.
 Lead Mechanical Engineer - Agrium, Redwater, Alberta, Canada - Urea Expansion. Lead Mechanical
and Piping Engineer responsible for Class 4, FEED study and detailed studies for Urea Expansion
Projects. Works include Boiler Expansions, Co2 Compressor units, Ammonia Pumps, Heat
Exchangers, cooling Towers, Process Tanks, and Material handlings.
 Lead Mechanical Engineer - TransCanada, Alberta, Canada - Grand Rapid Pipeline Project. Lead
Mechanical and Piping Engineer responsible for tanks, pumping stations, terminals, truck unloading
facilities and fire protection systems. Class 4 and 3 phases. % pump station, 2 Truck Loading facilities,
4 metering stations, 1 MBPD Dilbit, 360KBPD Diluent.
 Lead Mechanical Engineer - Enbridge, Scope Study of the Tank Farm (32 tanks) and metering facility,
tank manifolds. Lead Mechanical Engineer responsible for tank farm study, data sheets and design
criteria of the tanks.
 Lead Mechanical Engineer - Syncrude, Responsible for piping and pipelines for the slurry systems
associated with this project. Developed Engineering Work Packages (EWPs), prepared material
specifications and requisitions. Conducted calculations for piping and pipeline components and
developed Mechanical Equipment Packages. Floating slurry Pump station (8 pumps), air bubbler
system to clear 500 meter passage, Air compressors station, water pump stations, slurry pumps.
 Lead Mechanical Engineer - Valentines Iron Ore Project. Senior Mechanical Engineer on the project
consisting of piping and pipeline for slurry systems. Responsible for wet area including slurry piping
and pipelines, insulation, painting and slurry handling equipment.
 Syncrude-Fort McMurray - Aurora Tailings Management. Lead Mechanical Engineer responsible for
piping, pipeline and Mechanical equipment for the Project. Performed ASME B31.3 and B31.11 pipes
and components calculations. Also responsible for developing engineering work packages (Piping,
Pipelines and Mechanical), performing air bubbler system thermal analysis, Material requisition
(Mechanical, Piping and Pipelines).
 Zamin FERROUS - Uruguay -Valentines Iron Ore Project. Lead Mechanical Engineer responsible for
Writing & reviewing piping and pipeline specifications for the wet process i.e. Iron ore concentrate
pipeline transportation system from Processing Plant to the port (350 km pipeline plus pumping
stations). Developed design specifications for piping, insulation and protective coating.
 RIO-TINTO IOCC - Mine Crusher Optimization Project and Blasting Performance. Project Manager on
the project consisting of adding a new Crusher unit to the mine to increase productivity from 17 MIT per
year to 25 MIT. Performed FEED and a feasibility study to optimize crusher capacity and the blasting
pattern. Responsible for layout review/modifications of crushing plants and ancillary equipment.
Responsible for the following:
o 3600 HP Ball Mill Shell Replacement, Lifter, Liner and Ball Shape Optimization Program at the
Pellet Plant- Managed the Execution of the Shell replacement and NDT;
o Dust Control in Crusher House- Performed FEED and Pre-Feasibility Study; and

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o Overhead Conveyor Belt 7 km to Transfer Blasted Raw to Second Crusher- Performed FEED
study and Pre-Feasibility.
 RIO-TINTO IOCC - SALA Magnetic Separator/Concentrator Plant. Lead Mechanical Engineer
responsible for upgrading the recovery of three magnetic separators. Redesigned the distribution piping
from the Hydro Cyclone to the Separator. Engineered the flow analysis, hydraulic balance, pre-
feasibility and feasibility. Performed detailed engineering for the feasible option. Executed the project.
The NPV of the Project was 1:10 and payback period 3 months.
 RIO-TINTO IOCC - Thickener Flocculant/Cogaulant System. Lead Mechanical Engineer responsible
for the complete design of a new system to treat the pellet plant waste water to upgrade the quality of
the process water. Also responsible for skid and piping design.
 RIO-TINTO IOCC - BC1-BC2 Air Improvement. Project consisted of a Wet Dust Collection system for
Pellet conveying system. Lead Mechanical Engineer responsible for performing full system design and
detailed engineering.
 RIO-TINTO IOCC - Load Out Variability Control. Project consisted of the upgrade of the train loading
system to increase train speed from 0.5 mph to .9 mph and the weight control system, as well as dust
control. Managed the execution of the project.
 RIO-TINTO IOCC - Pellet Plant Filtering and Balling Humidity Control. Lead Mechanical Engineer
responsible for performing full industrial ventilation design (including thermo-fluid simulation of the
system, option recommendations, component design and selection, prefeasibility and feasibility) to
control humidity from 26 filters and balling m/c's using heat recovery and specially designed hoods.
 RIO-TINTO IOCC - Steam Plant West Bridge. Lead Mechanical Engineer responsible for assessing
existing bridge integrity and overhaul to extend the working life and safety of the bridge use. Performed
pre prefeasibility and option selection.
 RIO-TINTO IOCC - Ore Product Dust Control. Project consisted of the dust suppression system at
chutes for the boom stackers. Lead Mechanical Engineer responsible for performing pre-feasibility,
feasibility and detailed engineering.
 RIO-TINTO IOCC - Slurry Pump Performance. Upgrade 1250 HP Slurry Pump Performance. Lead
Mechanical Engineer on the redesign of the piping and drive system. Audited the performance of the
slurry pump, complete measurement and system simulation to recommend options for upgrade.
 RIO-TINTO IOCC - Tailing Valves Wear Resistance. Lead Mechanical Engineer on the project
consisting of the study and replacement of valves in the concentrator plant to reduce cost due to high
wear rate. Performed full slurry flow and wear analysis to predict war rate and select alternative
materials to pro long service life of the valve to minimize shutdown and maximize production.
 RIO-TINTO IOCC - Vertical Pipe Slurry Pipe. Lead Mechanical Engineer on the wear and abrasion
study to redesign the piping route of a vertical pipe (120 ft long) to reduce abrasion. Performed flow
wear analysis to recommend a pipe design to prolong the service life of the pipe to 9 months instead
of 3 weeks.
 RIO-TINTO IOCC - Tailing Pumps and Pipelines Upgrade. Lead Mechanical Engineer responsible for
performing a study and recommending alternatives to upgrade the tailing to handle 30% solid content
by weight from 15% using the existing system. Performed a full analysis of the piping/pump system to
recommend alternatives to upgrade the system to handle 50% solid instead of 20% using existing
pumps with minimum shutdowns, system modifications to increase the system capacity to handle
double the flow by adding extra pumps and change pipeline materials and sizes to accommodate higher
flow without affecting the wear rate.
 Lead Mechanical Engineer - Areva, Saskatchewan, Canada - Lead Mechanical and Piping Engineer
responsible for checking and review works Upgrading and Expanding the Uranium mine facility.
 Lead Mechanical Engineer - Enbridge, Hangingstone & Jacos part of Northern gateway Project –
Detailed engineering, pump station, metering skids, Pig launcher, etc.

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 Project Manager - Iron Ore Company of Canada, Labrador City, Newfoundland, Canada –
Miscellaneous Projects. Project Manager responsible for various projects including:
o Mine Crusher Optimization Project and Blasting Performance. Adding a new crusher unit to the
mine to increase productivity from 17 M/T per year to 25 M/T. Completed a feasibility study to
optimize the crusher capacity and blasting pattern. Reviewed and modified layout of crushing
plants and ancillary equipment.
o Overhead Conveyor Belt. 7 km to transfer blasted raw to second Crusher.
o Dust Control. Upgraded dust control within crusher house.
o Pellet Plant Optimization Program. Included 3600 HP ball mill shell replacement, lifter, liner and
ball shape.
o SALA Magnetic Separator/Concentrator Plant. Upgraded recovery of three magnetic separators.
Redesign the distribution piping from hydro cyclone to the separator.
o Thickener Flocculent/Coagulant System. Complete design of a new system to treat the Pellet Plant
waste water to upgrade the quality of the process water. Completed skid and piping design.
o BC1-BC2 Air Improvement. Wet Dust Collection system for pellet conveying system. Full system
design.
o Load out variability Control. Upgraded train loading system to increase train speed from 0.5 mph
to 0.9 mph. Upgraded weight control system and dust control.
o Pellet Plant Filtering and Balling Humidity Control. Full industrial ventilation design to control
humidity from 26 filters and balling m/c’s using heat recovery and specially designed hoods.
o Steam Plant West Bridge. Assessed existing bridge integrity and overhaul to extend the working
life and safety of the bridge use.
o Ore Product Dust Control. Dust suppression system at chutes for the boom stackers.
o Slurry Pump Performance. Upgraded 1250 HP slurry pump performance. Redesign of the piping
and Drive system.
o Tailing Valves Wear Resistance. Performed study and replaced valves in the concentrator plant
to reduce cost due to high wear rate.
o Vertical Pipe Slurry Pipe. Wear and abrasion study to redesign the piping route of a vertical pipe
(120 ft long) to reduce abrasion.
o Tailing Pumps and Pipelines Upgrade. Performed study and recommended alternative to upgrade
the tailing to handle 30% solid content by weight from 15% using the existing system.
 Senior Vice President – Various Clients – Miscellaneous Projects. Senior Vice President responsible
for various projects including:
o Harvest Longwall FRP Pipes, Daqing, Harbin, China - Large diameter GRE pipe Design. Design
of large diameter 12” to 24” glass reinforced pipes.
o Harvest Longwall FRP Pipes, Daqing, Harbin, China - Factory and Production Line Setup. Design
and setup of 24 pipe production lines.
o Kuwait Oil Company, Kuwait – Injection water upgrade. Performed engineering for 55 km flooding
pipeline network. Performed material and mechanical equipment specifications. Designed, pig
launcher and receiver.
 Engineering Director - Various Clients – Miscellaneous Projects. Engineering Director responsible for
various projects including:
o Ecuador Government, Yasuni, Ecuador - ITT Project. pipelines and tank farm study.
o Advanced Composite Pipes (ACP), Lelystad, Holland - Flexible Pipe Design. Designed pipe
product and joints.
o World Wildlife Fund/Toyota, Galapagos Island, Ecuador - Fueling Facility. Performed engineering
and environmental study for fueling facility using flexible pipelines.
o Government of Jordan, Aqaba, Jordan - Composite Pipes Production. Performed feasibility and
detailed engineering of GRE pipe and fitting factory.

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o RAG Deutsche SteinKohle, Düsseldorf, Germany- Coal Mine Ventilation. Designed ventilation
system for an underground mine using composite pipes and ducts.
o OPA, Bogota, Colombia - Flow Lines Design. Designed new flow lines using flexible composite
pipelines.
 Engineering Director - ACP, Lelystad, Holland, - Pipelines and Tank Farms Design. Completed designs
and performed detailed engineering for several clients using flexible pipelines. Clients included:
o PDVSA, subsea crude oil flow line 5”.
o Statoil subsea CO2 pipeline.
o Jordanian Government, Royal Court of Economic Development.
 Engineering Director - Aminatite, Dammam, Saudi Arabia – Ampiox Production Factory. Responsible
for preparing product designs, completing specifications, data sheets and engineering guides.
Established factory. Products were designed in accordance with International Standards ISO 14692,
ASTM, API, BS. etc.
 Engineering & Marketing Manager – Various Clients – Miscellaneous Projects. Engineering and
Marketing Manager with the Pipelines Department responsible for the following projects:
o Amoco, Gulf of Suez, Egypt - Design of Crude Oil Transmission Pipelines. Multiphase pipeline
design, construction and detailed engineering.24” offshore onshore pipeline-Multiphase flow.
Design installation and commissioning in 14 days.
o Deminix, Zeit bay, Egypt – Zeit Bay Fire Fighting station oil filed network. Firefighting piping design
and construction. Water Fire Pump station.
o Apache, Marsa Matrouh, Egypt - Acoustic Soda Piping System, Pumping station.
o Sumid, Alexandria, Egypt – 24”Fire System Design. Main tank farm firefighting network design.
Fire network for 22 1 BBL tanks in Alxendria tank farm.
o Agib, Alamin, Egypt - Sea Water Filtering and Flooding System. Design and detailed engineering.
Water Flooding 5 treatment units, 2 KM of pipes, 5000 pieces of fitting Design, installation in 15
days.
o Repsol, Zawaia, Libya - Zawia Fire Fighting. Designed the terminal firefighting network.
o Repsol, Ubari, Libya - Ubari. Oil Field Production Facility and Fire Fighting network, (300 psig).
 Engineering & Marketing Manager – Various Clients – chief pipeline engineer- Western Siberia Oil
Fields upgrade (250,000 km flowlines, 5 year program). Design, detailed engineering and construction
supervision of flow lines, gathering lines totaling 2500 km of pipelines. Oil and gas pipeline facilities
Pump stations and Gas Compressors stations Clients included (Example projects):
o TNK, Gathering, flowlines, 320 km 32 bar (480 psig), swampy soil.
o Salvneft Flowlines, 120 Km 20 bar (300 psig) Multiphae.
o Yukos High Pressure water injection pipelines.
o Lukoil gathering lines and High pressure water injection pipelines (300 psig) 45 km.
o Sibneft Flowlines.
o Gazprom VIINST gas pipelines.
o Gazprom Astrakhan Gas Complex, Gas compression stations and Gas treatment facility upgrade.
o Klaipeda Oil Terminal, Klaipeda, Lithuania - Klaipeda Terminal. Acoustic Soda Piping System.
Terminal tank farm piping.
o Latvian Government, Riga, Latvia. National specification for Non Metal piping design and use.
o Ventispil Nafta, Ventispil, Latvia - Ventispil Nafta. Terminal piping handling system for crude oil.
Terminal Tank farm and loading/off-loading piping network.
 Engineering & Marketing Manager – Various Clients – Miscellaneous Projects. Engineering and
Marketing Manager with the Protective Coating Department responsible for the following projects:
o SIGMA Engineering & Trading, Cairo, Egypt. Protective Coating Division.

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o Ministry of Electricity, Cairo, Egypt – Protective Coating Systems. Steel structure and equipment
Design and implementation of protective coating systems.
o Babcock Wilcox, Berlin, Germany – Batihk Power station. Aluminum chimneys coating systems.
o ABB SUSA, Suez, Egypt - Suez Canal Sewage Systems. Solvent free high solid hot tar system
for large concrete pipelines.
o ThyssenKrupp U, Various Locations, Egypt/Germany - Fertilizer factory coating system.
o Borsig, GmbH, Various Locations, Egypt/Germany - Power Plant. Steel structure coating system
design and supervision.
o Canadian Occidental Limited, Various Locations including Yeman/Canada – Mukala. 36 tanks
farm coating system. Construction in 9 months.
o USAID and Ministry of Electricity, Various Locations, Egypt/USA - High Dam gates and Equipment
Upgrade. 18 month duration. Hydraulic gates, Turbine filters and equipment.
 Managing Director - Various Clients – Miscellaneous Projects. Responsible for the following projects:
o Ministry of Defense, Cairo, Egypt - Paratroop Jumping and Training Facility. Design and
manufacturing of paratroops high jumping systems.
o Ministry of Electricity, Cairo, Egypt – Humidifiers. Design and manufacture of small Humidification
Units.
o Nabila Resorts, Giza, Egypt – Hotel Al Nabila. Design and construction of cold storage.
o Arab Swiss Cheese Factory, Cairo, Egypt - Arabia Cheese Factories.
o Design and construction of 12 cold rooms each 12 m x 12 m x 8 m.
o Design and construction of 40 tonne / 20 tonne of brine water storage and cooling system.
o Design and construction of fog atomizers nozzles.
o Industrial Refrigeration systems ( Ammonia, R-22).
o Ain Shams University, Faculty of Engineering, Cairo, Egypt. Design and construction of Mono
Molecular Metal Cooling System.
o Ahli United Bank, Cairo and Giza, Egypt – Air Conditioning. Design and construction of air
conditioning system for three branches, 100 T.R. each.
o Chemicals for Modern Buildings (CMB), Various Locations, Egypt/Germany – Miscellaneous
Projects.
o Design and construction of Solvent Extraction Units (Industrial refrigeration).
o Design and Construction of Emergency Power Plant.
Education
 Master in Mechanical Engineering, Cairo University, Cairo, Egypt 1990
 Bachelor in Mechanical Engineering, Ain Shams University, Cairo, Egypt 1982
 Certificate of Multinational Business Administration, 2 year program,
 American University, Cairo, Egypt 1990
 Certificate of Salesmanship and Marketing, 2 year program 1988
 Business accounting and Costing
 American University, Cairo, Egypt
 Project Cost Estimation 1991
 Military Academy of Reserve Officer Academy, Cairo, Egypt 1983
 American university in Cairo, Scientific programming 1978 -
1979
 Ain shams university Scientific computing center and system analysis 1979

8. Page 8 of 10
Registrations and Affiliations
 The Association of Professional Engineers, Geologists and Geophysicists of Alberta (APEGA), Also a
Responsible Member (Permit Stamp Holder)
 The Associationof Professional Engineers, Geologists and Geophysicists of Saskatchewan (APEGS),
Also a Responsible Member (Permit Stamp Holder)
 The Association of Professional Engineers, Geologists and Geophysicists of British Columbia
(APEGBC). Also a Responsible Member (Permit Stamp Holder)
 Professional Engineers of Ontario (PEO) Also member of the ERC committee since 2006
 Egyptian Engineering Syndicate
 Egyptian Society of Mechanical Engineers
 Egyptian Society of Engineers
Publications and Presentations
 N. Markos, “Application of GRE Pipelines in the Oil and Gas Industry”, International Association of Oil
and Gas, Rio de Janiero, Brazil, 1996
 N. Markos, “Use and Application of GRE in Gathering Flow Lines”, Nizhnevartovsk Technical Institute,
Western Siberia Oil and gas Design Institute, Russia, 1997
 N. Markos, “Engineering Design of GRE Pipeline and Piping Systems (Onshore/Offshore)”, Ampiox
Engineering Guide, Den Bosh, Holland, 2001
 N.Markos, Predicting Pressure and Temperature profiles of impinging jets on moving plates, 1990

9. Page 9 of 10
Skills and Specialist Courses
Specific technical expertise includes:
 Pipeline and Pipeline facilities Feasibility and Feed Studies;
 Thermo-Fluid analysis of Gas/Liquid pipelines (including heat transfer, transient analysis of network);
 Gas pipeline hydraulics, compressor sizing, pressure reducing station sizing
 Working Knowledge of Pipeflo, PipeWin, PipeSim, AFT, Stoner.
 Tank farms Feasibility and Feed Studies;
 Feasibility and FEED Studies;
 Factories Setup, Equipment and Mechanical Systems Maintenance;
 Mine and Mineral Industry Dust Control;
 Slurry and Multiphase Piping, pumping stations & Pipelines Engineering;
 Slurry Handling Equipment and Systems simulation and engineering;
 Conveyor Belt Dust Control;
 Protective Coating Systems (Oil and Gas facilities, Marine, Power Plants and Industrial);
 Industrial Ventilation and Refrigeration systems;
 Factory Setup; and
 Reliability engineering studies.

10. Page 10 of 10
Employment History
UniversalPegasus International, Inc. 2014 - Present
WorleyParsons, Edmonton, AB, Canada 2011 - 2014
BPR-Bechtel, Labrador, NL, Canada 2010 - 2011
Harvest FRP, Beijing, China 2008 - 2010
ACP Technology BV, Lelystad, Holland, Russia and Latin America 2002 - 2008
Amipox International, Den Bosch, Holland 2000 - 2002
Ameron BV, Den Bosch, Holland, Russia 1993 - 2001
Ameron BV, Geldermalsen, Holland and Middle East 1987 - 1993
Sigma Trading & Engineering Company, Cairo, Egypt 1982 - 1987