The Marcellus play has been drilled and completed for many years and this congress isn't aiming to recall what operators already know. Liquid Rich Horizontal Completions Optimization: Marcellus & Utica 2014 is focused entirely on exploiting remaining high value, liquid rich opportunities that lie within the play in light of gas prices, and optimizing increasing opportunities in the Utica.
OPTIMIZING NPV IN LIQUID RICH MARCELLUS WELLS
The current gas price situation in the US however, means Marcellus operators need to be ahead of the game by developing highly advanced techniques for making marginal wells economic and developing completions strategies for optimizing liquid recovery. Operators are now actively making progress in reducing cluster spacing and optimizing stage and lateral lengths in liquid rich reservoirs to ensure incremental cost and performance gains. Due to the increasing number of trials measuring changes in such variables, the industry at large is now at a point where findings and information sharing could lead to significant commercial gains.
MAXIMIZING SRV AND WELL ECONOMICS IN HIGH PRESSURED UTICA WELLS
The liquid rich Utica is arguably an easy win for Marcellus operators and many are already seeing significant production successes due to the delivery of optimal completions techniques. However, the increase in near wellbore stimulation and lateral lengths, in the dense, typically higher-pressured, Utica wells, present their own cost challenges. These include ensuring the availability and development of higher PSI rated equipment, developing extended lateral completions strategies and creating frac designs suitable for high pressure wells; challenges that are often easily overcome by hearing what others have already failed and succeeded at.
A CONGRESS DEDICATED TO IDENTIFYING WHICH COMPLETIONS TECHNIQUES AND DESIGNS ARE DELIVERING THE GREATEST NPV IN LIQUID RICH MARCELLUS AND UTICA WELLS
The primary mission of the Liquid Rich Horizontal Completions Optimization: Marcellus & Utica 2014 congress is to determine which advanced completion techniques are being used by leading operators to improve well economics in the Appalachian Basin. Over two days, leading completions managers and experts from E&P companies will be delivering data driven strategies to optimize overall recovery by identifying which well design and frac design parameters are contributing most to production in liquid rich, marginal and high pressured wells in the Marcellus and Utica.
Case studies delivered over the two days include operator strategies for cluster spacing reduction, stage length and lateral length optimization, pump rate and proppant concentration decision making and perforation techniques to optimize completions design to maximize SRV and decrease operational costs in the Marcellus and Utica.
The Marcellus play has been drilled and completed for many years and this congress isn't aiming to recall what operators already know. Liquid Rich Horizontal Completions Optimization: Marcellus & Utica 2014 is focused entirely on exploiting remaining high value, liquid rich opportunities that lie within the play in light of gas prices, and optimizing increasing opportunities in the Utica.
OPTIMIZING NPV IN LIQUID RICH MARCELLUS WELLS
The current gas price situation in the US however, means Marcellus operators need to be ahead of the game by developing highly advanced techniques for making marginal wells economic and developing completions strategies for optimizing liquid recovery. Operators are now actively making progress in reducing cluster spacing and optimizing stage and lateral lengths in liquid rich reservoirs to ensure incremental cost and performance gains. Due to the increasing number of trials measuring changes in such variables, the industry at large is now at a point where findings and information sharing could lead to significant commercial gains.
MAXIMIZING SRV AND WELL ECONOMICS IN HIGH PRESSURED UTICA WELLS
The liquid rich Utica is arguably an easy win for Marcellus operators and many are already seeing significant production successes due to the delivery of optimal completions techniques. However, the increase in near wellbore stimulation and lateral lengths, in the dense, typically higher-pressured, Utica wells, present their own cost challenges. These include ensuring the availability and development of higher PSI rated equipment, developing extended lateral completions strategies and creating frac designs suitable for high pressure wells; challenges that are often easily overcome by hearing what others have already failed and succeeded at.
A CONGRESS DEDICATED TO IDENTIFYING WHICH COMPLETIONS TECHNIQUES AND DESIGNS ARE DELIVERING THE GREATEST NPV IN LIQUID RICH MARCELLUS AND UTICA WELLS
The primary mission of the Liquid Rich Horizontal Completions Optimization: Marcellus & Utica 2014 congress is to determine which advanced completion techniques are being used by leading operators to improve well economics in the Appalachian Basin. Over two days, leading completions managers and experts from E&P companies will be delivering data driven strategies to optimize overall recovery by identifying which well design and frac design parameters are contributing most to production in liquid rich, marginal and high pressured wells in the Marcellus and Utica.
Case studies delivered over the two days include operator strategies for cluster spacing reduction, stage length and lateral length optimization, pump rate and proppant concentration decision making and perforation techniques to optimize completions design to maximize SRV and decrease operational costs in the Marcellus and Utica.
Artificial Lift Optimization - North America Congress 2016marketinglbcg
Assessing Selection Criteria For Artificial Lift Systems In Horizontal Wells: Fully Optimizing Rod Pump, Gas Lift Plunger Lift & Artificial Lift Techniques
Increase Production Efficiency, Reduce Equipment/Energy Costs And Mitigate Failures
Advisian dynamic process simulation capability june 2019Advisian
Dynamic Process Simulation allows the prediction of not only how a system is expected to behave when it is operating at the targeted design point – it is capable of predicting how it will behave when away from its “design point”.
Title: Maximizing the Opportunity in Multi-Layered Tight Sand Reservoirs in a Mature Field by Hydraulic Fracturing: A Case Study of Tight Sand Development Project in Thailand
Title: Evaluation of Multistage Hydraulic Fracturing Techniques for Production Optimization in Naturally Fractured Reservoirs Using Coupled Geomechanics Fracture and Flow Model
Chemical Engineer with 40+ years experience in the Oil & Gas sector as an Upstream & Midstream lead process and facilities engineer with both extensive technical and project management knowledge.
Artificial Lift Optimization - North America Congress 2016marketinglbcg
Assessing Selection Criteria For Artificial Lift Systems In Horizontal Wells: Fully Optimizing Rod Pump, Gas Lift Plunger Lift & Artificial Lift Techniques
Increase Production Efficiency, Reduce Equipment/Energy Costs And Mitigate Failures
Advisian dynamic process simulation capability june 2019Advisian
Dynamic Process Simulation allows the prediction of not only how a system is expected to behave when it is operating at the targeted design point – it is capable of predicting how it will behave when away from its “design point”.
Title: Maximizing the Opportunity in Multi-Layered Tight Sand Reservoirs in a Mature Field by Hydraulic Fracturing: A Case Study of Tight Sand Development Project in Thailand
Title: Evaluation of Multistage Hydraulic Fracturing Techniques for Production Optimization in Naturally Fractured Reservoirs Using Coupled Geomechanics Fracture and Flow Model
Chemical Engineer with 40+ years experience in the Oil & Gas sector as an Upstream & Midstream lead process and facilities engineer with both extensive technical and project management knowledge.
Production technology & optimization engineer achievements
My Resume
1. MOHAMED NAGY
EXECUTIVE SUMMARY
A petroleum engineer with 6 years of experience in consultancy, training and technical support. A
knowledgeable professional who specializes in asset management and optimization, flow assurance studies,
and analytical and numerical modeling for conventional and unconventional resources. An experienced
engineer with several successful projects and training courses in production optimization, reservoir
management and dynamic flow modeling.
FUNCTIONAL EXPERTISE
• Integrated production optimization
• Reservoir monitoring and surveillance
• Flow assurance and integrity
• Pressure and rate transient analysis
• Numerical reservoir simulation
• Training and Mentoring
FUNCTIONAL EXPERTISE DEMONSTRATED
SCHLUMBERGER | Software Integrated Solution October 2013 – Present
Schlumberger is the world’s leading supplier of technology, integrated project management and information
solutions to customers working in the oil and gas industry worldwide with more than 100,000 people
representing over 140 nationalities and working in more than 85 countries.
Senior Petroleum Engineer
Provides technical support, training and integrated solutions consultancy for clients in the East Mediterranean
and East Africa geo-market (Egypt – Syria – Jordan – South Sudan) and a member of the centralized help desk -
the escalated technical support - for the Middle East area.
• Integrated production optimization: conducted consultancy projects for improving production from flowing
wells, restoring idle oil and gas wells to production and abandoning wells that are no longer needed
considering optimizing production on the total field network maintaining the highest standards of safety and
environmental integrity using steady state multiphase flow simulation.
• Reservoir monitoring and surveillance: Developed cost-effective reservoir monitoring and surveillance
workflows to the clients in my geo-market enabling them to identify opportunities, analyze well and reservoir
performance and predict reserves.
• Flow assurance and integrity: provided solutions using transient multiphase flow simulations in wells and
pipelines for flow assurance, production optimization, gas well de-liquefaction, well shut-in and start-up, gas-
lift optimization and well clean-up.
• Training and Mentoring: delivered several courses in reservoir management, production optimization,
steady state and transient multiphase simulations, pressure transient analysis and fluid characterization.
Served as the mentor for reservoir and production engineering teams responsible for their development and
career progression.
PETROSHAHD January 2010 – September 2013
A joint venture between Egyptian General Petroleum Company and ENAP Sipetrol Egypt. PETROSHAHD
operates in the western desert of Egypt with oil production exceeds 25000 barrels per day.
Reservoir Engineer
Carried out reservoir simulation studies to optimize recoveries, developed cost-effective reservoir monitoring
and surveillance programs and performed reservoir characterization studies.
E: m.nagy.negm@gmail.com | T: +2 (010) 26655508 | LI: eg.linkedin.com/in/mnagynegm
2. • Numerical reservoir simulation: Carried out reservoir simulation studies to optimize recoveries and evaluate
development options using the simulation model including: well numbers and location, well design, field and
well production rates.
• Pressure and rate transient analysis: Analyzed pressure transients for different well configurations and
reservoir types and used modern production data analysis for original volumes-in-place, expected ultimate
recovery and recovery factor with flowing material balance and other modern techniques and look for
evidence of liquid loading, pressure support, interference or changes in operating conditions.
• Reservoir monitoring and surveillance: developed cost-effective reservoir monitoring and surveillance
programs for effective reservoir management and remedial measures such as work-overs, well intervention
and captured reservoir performance characteristics in simple, analytically based reservoir models (i.e. material
balance - MBAL) independently using existing well surveillance data (i.e. reservoir pressures, saturations,
logging etc.) to supplement the indications from production trending analysis.
RELEVANT PROJECTS
Reservoir Monitoring and surveillance template – ENI Egypt (2013): The project includes +1500 wells in 48
operating fields: single and commingle, oil and gas condensate onshore and offshore fields. Created workflows
for well and field surveillance using standard plots, scatter plots, static and dynamic analytical maps.
Developed forecasting workflow for different scenarios including DNC, effect of work-over and finally the
effect of drilling some infill wells for predicting oil, water cut and gas. The workflows will help petroleum
engineers to provide recommendations of different types of work-over (Water shutoff, Stimulation,
Perforation, Re-Perforation etc.)
Site Assessment for PDMS – APACHE Egypt (2013): performed a site assessment in HQ office as well as fields.
This assessment was conducted by means of interviews and informal discussions with employees. The
assessment enables Schlumberger to document current processes, workflows, data management and
production reporting that APACHE has in place for each field. Additional customer requirements were
identified during that time and a report was delivered constituting the foundation for a Project Initiation
Document where the details are described as to how the implementation of production data management
system will be conducted and what changes to the current (if any) business processes will be made.
Site Assessment for PDMS – TRANSGLOBE Egypt (2015): performed a site assessment in HQ office as well as
fields. This assessment was conducted by means of interviews and informal discussions with employees. The
assessment enables Schlumberger to document current processes, workflows, data management and
production reporting that APACHE has in place for each field. Additional customer requirements were
identified during that time and a report was delivered constituting the foundation for a Project Initiation
Document where the details are described as to how the implementation of production data management
system will be conducted and what changes to the current (if any) business processes will be made.
Integrated production optimization – Abu Qir Petroleum Company (2015): The objective was to build an
integrated network model of Mediterranean Sea offshore fields to assess the future expected production of
current producing wells and additional producing wells. Successfully built and history matched the wells and
network models, identified bottlenecks and any flow assurance issues and calculated additional spare capacity
for the Future developments. Applied transient multiphase study for critical wells and pipelines and used
modern production data analysis methods to calculate the well productivity and predict the future
performance.
3. Reservoir Monitoring and surveillance template – KHALDA Petroleum Company (2015): The project includes
+1000 wells: single and commingle, oil onshore fields. Created workflows for well and field surveillance using
standard plots, scatter plots, static and dynamic analytical maps. Developed forecasting workflow for different
scenarios including DNC, effect of work-over and finally the effect of drilling some infill wells for predicting oil,
water cut and gas. The workflows will help petroleum engineers to provide recommendations of different
types of work-over (Water shutoff, Stimulation, Perforation, Re-Perforation etc.). Created specific workflows
for water flooding monitoring and surveillance.
Reservoir simulation study for onshore oil fields – PETROSHAHD (2012): Worked collaboratively on a team of
three engineers to model 5 onshore fields in the ERQ concession in the western desert. The work includes:
static model quality check, core permeability distribution, water saturation modeling and up-scaling. Prepared
and QC PVT Data, SCAL data, calculate historical BHP from the dynamic fluid level and through VFP tables.
Initialized the model, matched water saturation and pressure logs and STOIIP calculation. Validated the model
by History matching and then created several forecasting and development scenarios.
EDUCATION
Bachelor of Science (Petroleum Engineering). Suez University (Suez, Egypt) 2009
• Grade: Very Good with honors (80 %)
OTHER RELEVANT INFORMATION
Languages: English (Bilingual Proficiency), Arabic (Native)
Computer skills: PIPESIM, OFM, OLGA, PETREL, ECLIPSE, PETREL PI, PVTSIM, MULTIFLASH, PVTI, SAPHIR,
TOPAZ, PROSPER, MBAL, GAP, AVOCET IAM, MS Excel (Advanced User: Pivot tables & VBA macros), C#
(advanced level)
Awards: Reward of Excellence Nice Work—SCHLUMBERGER (2013), Reward of Excellence Great Job—
SCHLUMBERGER (2015)