Citas bibligráficas
Acencios, L., (2022). Incremento de la producción de petróleo en pozos horizontales de la selva peruana, mediante la tecnología del dispositivo de control de influjo autónomo (AICD) [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/24520
Acencios, L., Incremento de la producción de petróleo en pozos horizontales de la selva peruana, mediante la tecnología del dispositivo de control de influjo autónomo (AICD) [Tesis]. PE: Universidad Nacional de Ingeniería; 2022. http://hdl.handle.net/20.500.14076/24520
@misc{renati/712493,
title = "Incremento de la producción de petróleo en pozos horizontales de la selva peruana, mediante la tecnología del dispositivo de control de influjo autónomo (AICD)",
author = "Acencios Falcon, Leithol Pompeo",
publisher = "Universidad Nacional de Ingeniería",
year = "2022"
}
This thesis is applied research, of the descriptive type based on the work carried out in block 95 of the PetroTal company located in the Puinahua district, Requena - Loreto province. In water-driven oil field production projects, the fundamental objective is to maximize the recovery factor, with the minimum investment and expense. The production of water causes a significant increase in OPEX, because it is necessary to produce the water, as well as the expenses for its treatment and disposal. In Block 95, the European technology of Autonomous Flow Control Devices was installed in a horizontal well: Flosure Autonomous Inflow Control Device “AICD“, which is an effective solution for increasing oil production on Block 95, while the influx of water is controlled. The FloSure AICD has been successfully developed in other light and heavy oil fields to retard the influx of water and ensure long uniform production. This tool preferably throttles the production of unwanted fluids, water or gas, while promoting oil production throughout the horizontal depth of the well. Horizontal wells increase access to oil fields by maximizing the contact area with the producing zones. However, when the production rate throughout the completion is unevenly distributed, it causes water or gas to break into the wellbore prematurely. To mitigate this scenario, petroleum companies choose to use autonomous flow control devices (AICDs), to help delay and reduce the flow of unwanted fluids and encourage balanced production throughout the entire interval. The AICDs applied in block 95 are of the “disc” type and use Bernoulli's principle to distinguish the types of fluids that flow through the device to optimize oil production and recovery. AICDs work as passive ICDs (inflow control devices) during oil production, delaying the arrival of water or gas to the well. When water or gas breaks into the wellbore from coning, AICDs reduce water and gas cut significantly. All of these features enhance functionality and long-term reliability.
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