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Production and Completions Engineering Courses

Production and Completion engineering concerns the development of plans to effectively select best downhole equipment that will suit the subsurface environment and maximize the production from gas and oil wells.

They also perform any workover on the well to sustain or rejuvenate hydrocarbon production.

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1013

Pipe Recovery, Fishing and Perforating Operations Training

The aim of this short course is to provide participants with knowledge about fishing and perforating operations including the tools, equipment and procedures involved.  It will include causes of stuck pipe, and how to avoid them. It will also highlight the importance of the free point determination and a good subsequent operation to back off or cut the pipe to recover the maximum amount of pipe and the type of cutters used in the industry.   On the perforating side, participants will be able to learn about charge design, types and selection and will have a good understanding of the API charge certification especially for section I and section II. The type of explosives used in the industry, their main differences and how they are used will also be considered. Participants will also learn about gun systems and components used for wireline operations using through tubing guns and casing guns, different type of charges and their main applications in the industry. Special perforating applications such as perforating for fractures and perforating for productivity will also be considered. Participants will also learn about TCP perforating for normal and special applications in permanent completions and perforating with special deployment equipment such as CTU and SL. Perforating job safety analysis and the off depth perforating importance will also be considered and lastly finalizing with a perforating job design using a demo software.

3 locations available

Coiled Tubing and Its Applications Training

This five-day (5) training course covers conventional CT workover and completion application including CT drilling technology and coiled-tubing drilling hydraulics. It presents coiled tubing (CT) as a tool for workover, drilling, and completion services. It provides an overview of the properties of CT (mechanical performance of CT, including working limits, buckling, and fatigue), its manufacture, the surface equipment utilized for deployment, and subsurface tools for CT applications. Coiled Tubing Operations Coiled tubing is chosen over conventional straight tubing because conventional tubing has to be screwed together. Additionally, coiled tubing does not require a workover rig. Because coiled tubing is inserted into the well while production is ongoing, it is also a cost-effective choice and can be used on high-pressure wells. There are a number of well intervention operations that can be achieved via coiled tubing. These include cleanout and perforating the wellbore, as well as retrieving and replacing damaged equipment. Additionally, coil tubing drilling is now implemented in niche-areas and in particular in association with underbalanced drilling. Advances in coiled tubing allow for real-time downhole measurements that can be used in logging operations and wellbore treatments. Hydraulic and acid fracturing, can also be performed using coiled tubing. Furthermore, sand control and cementing operations can also be performed via coiled tubing.

4 locations available

Well Engineering For Non-Well Engineers Training

Ever wondered why, throughout the design of a well, objectives, trajectory and casing specifications are often changed several times, leading to unnerving loss of team-time, to changes in cost estimates and to procurement issues? Is it sufficient to have a clearly mapped well design process, in order to avoid the shortfalls that will lead to re-designs and late changes, with cost and safety consequences? Or instead, wouldn’t the well design process be swifter, if all the subsurface professionals knew what key decisions and data they are required to provide, at what point and for what design decisions?  Which means, if they could see the process from the eyes of a well engineer? The purpose of this course is to explain what the engineering of a well entails, what the design decisions are, the reasons behind them and how the subsurface data are used in the well design process, with what consequences and what impacts on the well. To do this, after giving a brief description on the mechanics of drilling a well, the course will mainly focus on the well engineering aspects related to the data coming from the subsurface team; the course participants, through technical explanations and design exercises, will “become” well engineers for three days and this will help them, once back to the office, to be more aware of the importance of their outputs to the well design process.  They will also learn to read drilling reports, which is a skill that will help them be more actively involved in the offsets reviews and in following the wells currently being drilled.

4 locations available

Heavy Oil Upgrading Training

As the supply of light crude oils decreases, the global oil supply will move towards the use of more heavy crude oils (below 30 API) and an increased production of heavy oils (below 22 API) and extra heavy oils (below 10 API). This is part of the forecast growth of unconventional sources, such as heavy oils, together with tight oil and biofuels, that is needed to meet projected market demand for transportation products (gasoline, aviation fuel and diesel). In the case of heavy oils, this requires growth in the use of “bottom of the barrel” technologies to upgrade these heavy feedstocks to distillates for use in the transportation products. Both crude oil residue and unconventional heavy oil upgrading technologies will grow in importance as part of meeting this challenge. This course is aimed at engineers and chemists who work in the hydrocarbon industry and need a broad understanding of conversion technologies that will be needed to meet the increasing use of heavy oil feedstocks in the future. The course will give a brief overview of the key feedstock properties as future oil supply changes and the challenges that this presents to the refining industry in meeting the market product demand slate. The course will include a technical overview of current and, where appropriate, emerging upgrading technologies. For each technology, the following will be given: a brief process description. key feedstock and product qualities. reactor and catalyst system parameters. product slate and key constraints / limitations. Market outlook and economic factors will also be addressed.

3 locations available