Bibliographic citations
Díaz, E., (2021). Prevención y control de arremetidas en la perforación de pozos de petróleo y/o gas en aguas profundas [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/21935
Díaz, E., Prevención y control de arremetidas en la perforación de pozos de petróleo y/o gas en aguas profundas [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2021. http://hdl.handle.net/20.500.14076/21935
@misc{renati/711569,
title = "Prevención y control de arremetidas en la perforación de pozos de petróleo y/o gas en aguas profundas",
author = "Díaz Quinto, Edi",
publisher = "Universidad Nacional de Ingeniería",
year = "2021"
}
The oil industry had its beginnings in lands where, as a new industry, in its beginnings there were problems of waves of gases and fluids that claimed many human lives and considerable investment losses, for which it was necessary to implement work procedures and control of influx in drilling oil and / or gas wells, but initially all thought of onshore wells. Due to the high demand for hydrocarbons and the decrease in production capacity on land, the alternative of looking for hydrocarbons at sea was presented, first by drilling on the shallow seabed, and then by starting to drill deep-water wells under these conditions. Influx control is necessary for deep water offshore wells. In this professional sufficiency roadmap, the influx control procedure applied to the offshore oil and gas well drilling industry is shown in deep water, considering how complex it becomes. The control of a well by intrusion of formation fluid, either oil, gas or both, when drilling deep water wells. According to the API, deep waters are considered wells with depths greater than 610 m. up to 1830 m. on the seabed and from where the drilling of the well begins. The work will show the economic impact that not controlling an influx can cause during drilling, it will raise the importance of controlling oil wells in deep waters showing several important parameters and conditions that make the control of wells due to an influx is more complex in an offshore deepwater well than in an onshore well, the conditions are different and therefore the solution to the problems is different. An analysis is presented of the causes of the blowout that occurred in the Macondo well, in the Gulf of Mexico, which culminated in the sinking of the Deepwater Horizon platform and caused the loss of human lite, as well as considerable economic and ecological losses. Finally, the conclusions and recommendations of the work are presented.
This item is licensed under a Creative Commons License