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santos_70

Offshore Drilling and Completion

In the 2 years since the Macondo incident, we have seen a lot of action toward new regulations, procedures, and norms to be implemented in an attempt to reduce the risks of those tragic events happening again. But the industry did not stop working; wells were drilled and completed, even in the Gulf of Mexico after the long period of inactivity. As expected, we saw a big focus on subsea-equipment testing and procedures and on needed equipment improvements. But we also saw many reports highlighting improved operational performance, confirming that the industry continues with significant activity.

We should work proactively with the public and regulators to bring a framework that will lead to a safer environment for everyone. And we should not be happy with just more paperwork that may not bring needed effective improvement. For obvious reasons, the first step has been focused on the equipment responsible for providing the last barrier of protection, the blowout preventer (BOP). One paper describes BOP upgrades, and another one discusses software-based deepwater-BOP testing. We all must recognize that there has not been a significant advance in terms of BOP testing in
the last 30 years. We are still relying, most of the time, on the old paper disks to record tests and on forms filled in by hand to confirm the pressure and duration of the tests prepared on each component tested. We should do much better than that.

The third paper highlights the drilling campaign in a promising offshore area in Brazil. But do not forget the underground blowout that leaked oil into the ocean offshore Brazil a few months ago, reminding us that continuous improvement of all offshore operations must take place. The alternative is that we again will face setbacks like those in the Gulf of Mexico after the Macondo accident.

Read the paper synopses in the April 2012 issue of JPT.

Helio Santos, SPE, is President of Safekick Limited. In his 29 years in the industry, Santos worked as a Drilling Engineer for Petrobras both onshore and offshore and led several projects in the Research and Development Center. He also was with Impact Engineering Solutions as Vice-President of Technology, President of Impact Solutions Group, and President of Secure Drilling, which was acquired by Weatherford. Santos earned BS and MS degrees in civil engineering from Catholic University of Rio de Janeiro and a PhD degree in geological engineering from the University of Oklahoma. He has authored several SPE papers, holds two patents, has served on SPE conference and Advanced Technology Workshop committees, and serves on the JPT Editorial Committee.

kleemeyer

Seismic Applications

Following an increased investment in advanced seismic solutions, we have
experienced some remarkable boundary shifts in seismic-data quality in recent years.
Significant improvements have been achieved in densely sampled wide-azimuth seismic
acquisition and in wave-equation-based imaging techniques, such as full-waveform
inversion and reverse time-migration, in processing. Also, emerging marine
broadband-seismic solutions promise a real step change in resolution, offering
unprecedented detail in subsurface interpretation and enhanced penetration of low
frequencies for deep imaging.

Massive changes are also happening in the amount of data being acquired,
leading to new challenges in processing and interpretation. The channel count for
onshore-acquisition systems continues to increase, and new records have been set in
the towing capacity of marine-seismic vessels. These continuing developments enable
efficient acquisition of larger and denser surveys with longer offsets and rich azimuth
data. However, these developments generally are also associated with an increased
footprint that must be managed both operationally and environmentally.

It is, therefore, evident that not all new techniques can be ported easily to all environments.
Adequate solutions must be chosen from the growing geophysical toolbox,
balancing technical aspects with operational constraints and business requirements.
Large-scale regional exploration surveys in environmentally sensitive or remote areas
can differ significantly from detailed surveys required for infill-drilling targets. Flexible
and scalable survey techniques are particularly important to enable smart data
acquisition in areas where access had been notoriously difficult because of environmental,
operational, or economic restrictions.

This seismic feature provides examples for ongoing boundary shifts in seismic
technologies complemented by a guide for the interpretation of microseismic data
and a pilot study about pushing time-lapse seismic monitoring toward carbonate reservoirs.
A common element of the documented successes is continued commitment to
and investment in technology and a close integration with business.

Read the paper synopses in the March 2012 issue of JPT.

Gerd Kleemeyer, SPE, leads the Integrated Geophysical Services team in Shell’s Global Solutions Upstream organization in Rijswijk, the Netherlands. During 17 years with Shell, he has worked on exploration and development projects in the Netherlands, Norway, the UK, and Russia, and as geophysical consultant for global new-venture exploration. Kleemeyer holds an MS degree from the Technical University of Clausthal, Germany, and he serves on the JPT Editorial Committee.

matthews

Heavy Oil

The rapid growth in interest and in development activities related to unconventional oil and gas resources, including heavy oil, is clearly evident throughout the industry. One outcome has been a tremendous increase in the number of SPE papers written this past year on various topics associated with development and recovery optimization of heavy-oil reservoirs. Another is that petroleum-engineering departments at many more universities worldwide are actively engaged in teaching courses and performing research related directly to viscous- and/or heavy-oil recovery.

One topic in particular has gained more attention: development and application of enhanced thermal-recovery methods that use various solvents as a means to improve recovery and to reduce operating costs significantly relative to conventional thermal projects. Continued knowledge development in this subject area through a combination of reservoir-scale physics and chemical-process analysis, simulation capability advancement, laboratory testing, and field-piloting work is needed to enable operators to design and implement these methods effectively and commercially, especially for viable development of thinner, lower-quality heavy-oil reservoirs. One synopsis paper and a reading paper were selected to provide further insights regarding the potential and the challenges associated with the use of solvent-recovery techniques in such applications.

The other papers were chosen to illustrate the variety and significance of the challenges operators may encounter in assessing and/or pursuing the development of heavy-oil reservoirs under different settings and conditions. These include various problems that had to be dealt with during testing of a heavy-oil well in an offshore location; the many planning issues, design tradeoffs, and performance considerations associated with the sequencing and conversion of a heavy-oil-field development from cold to hot production; the difficulties experienced in planning and conducting
pilot operations in a high-viscosity oil field overlain by thick permafrost in the Russian Arctic; and the ability to achieve adequate recovery with steaming of fractured carbonate reservoirs.

Recent literature also describes several interesting technology developments, modeling studies, and field-trial activities related to the use of in-situ combustion and electrical-heating methods as alternative heavy-oil-recovery techniques. Several additional papers present results from investigations of CO2 injection into heavyoil or bitumen reservoirs to achieve both improved oil recovery and greenhouse-gas sequestration, while many others describe new developments and/or field experiences involving waterflooding and polymer flooding of heavy-oil reservoirs. The many papers written on these topics can be sourced through OnePetro.

Read the paper synopses in the March 2012 issue of JPT.

Cam Matthews, SPE, is Director–New Technology Ventures for C-FER Technologies, organizing R&D programs related to production operations and drilling and completions. He holds five patents on drilling and production processes. Matthews earned BS and MSc degrees in civil engineering from the University of
Manitoba and the University of Alberta, respectively. He serves as a Director of the SPE R&D Technical Section, on two ad hoc SPE Board committees, and on the JPT Editorial Committee.

alhanati

Production Operations

At the 2011 SPE Annual Technical Conference and Exhibition in Denver, there were many interesting discussions on shale-gas (and/or liquid-rich) resources. While already an important part of the industry, we are just beginning to identify some of the challenges with these resources and how best to deal with them. With hydraulic fracturing being an integral part of these operations, one area of focus is how to optimize the well geometry and the fracturing treatment to achieve long-term production and high ultimate recovery. Nevertheless, two other key considerations concern where to obtain the huge volumes of water that are required for these fracturing jobs, and what water treatment is required to ensure a safe and problem-free operation. With the need to rely less and less on fresh surface water to minimize the environmental effects, operators have been forced to explore other options, including finding suitable aquifers and/or water-recycling technologies. Some of the papers featured in this issue (or listed as additional reading) illustrate some of these challenges and how companies are trying to address them.

During this last year, we also saw an increase in the use of inflow-control devices in conjunction with horizontal wells in a variety of applications throughout the world. One of the most interesting developments is that of the so-called “autonomous” devices, which should be capable of adjusting themselves on basis of the type of fluid flowing through them (i.e., applying more choking to less-viscous fluids such as water and gas). There also have been interesting advancements in sandface-monitoring systems, as illustrated in two of the papers in the reading list.

Read the paper synopses in the March 2012 issue of JPT.

Francisco J.S. Alhanati, SPE, is Director of Exploration & Production for C-FER Technologies. Previously, he was with Petrobras. Most of Alhanati’s 29-year career has been in applied R&D related to well construction and production operations. He has served on several SPE committees, as an SPE Distinguished Lecturer, and as a Technical Reviewer for the SPE Journal, and he serves on the JPT Editorial Committee. Alhanati holds a PhD degree in petroleum engineering from the University of Tulsa.