Doctorado en Ciencias de la Tierra (tesis)
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Ítem Caracterización del flujo hidrodinámico y evaluación de su impacto en la acumulación y producción de hidrocarburos en el sector sur de la Cuenca de Llanos, Colombia(Universidad EAFIT, 2022) Gómez Moncada, Ricardo Andrés; Jaramillo Uribe, Marcela; Mora Bohorquez, AndrésThe southern sector of the Llanos Basin in Colombia has been identified as a basin where the hydrodynamic flow has influenced the potential of hydrocarbon storage and production. In this area the hydrodynamic flow coincides with a province of heavy and extra-heavy crude oils, which has hypothesized for this area, a critical condition that decreases the potential for hydrocarbon retention by the effect of hydrodynamic flow and the geochemical nature of the fluids. This work provides a comprehensive view to describe the impact of regional hydrodynamic flow on retention of the heavy oil accumulations present in the reservoirs that are part of the most important regional flow unit identified in the Southern Llanos Basin. The Basal Flow Unit (BFU) constitutes a basin-scale flow unit that hydraulically and laterally connects rocks from the Cretaceous (west) to the Oligocene (east) and extends from the basin's southwestern margin up to hundreds of kilometers within the Llanos foreland basin, and whose main water recharge zone has been identified towards the eastern flank of the Serranía de la Macarena. To understand the impact of the physicochemical properties of the fluids, we analyze the relationship between hydraulic data and the main characteristics of the fluids present in the BFU, and their spatial distribution on the present-day configuration of this flow unit. This analysis integrated information from hydraulic heads, SARA analysis (Saturates, Aromatics, Resins, and Asphaltenes), Whole Oil Gas Chromatography analysis, API-gravity, and oil densities. In addition, hydrochemical analysis of the primary ions and isotopic analysis (δ18O and δD) was performed in groundwater samples from the BFU, which was integrated with deep resistivity data measured in producing and exploratory oil wells in the area. The new isotopic analyzes of this study (δ18O and δD), and data from previous studies, allowed establishing the Local Meteoric Water Line (LMWL) for the Llanos basin. The δ18O and δD values of the groundwater samples follow the Local Meteoric Water Line proposed for the Llanos basin, supporting the presence of meteoric waters in the Basal Flow Unit and whose influence it extends from the recharge zone to more than 300 km east of the basin. The results allowed identifying the southwestern corner of the southern Llanos Basin as the area with the highest hydrodynamic flow impact, and therefore, the area with the least potential for hydrocarbon retention, attributing as the main causes: 1) the proximity to recharge areas, and 2) the low contrast of fluids densities (freshwaters and highly biodegraded heavy crude oils), implying high Tilt Amplification Factor (TAF) values. Furthermore, gradual changes in resistivities and ions concentration in groundwaters suggest the eastern flank of the Serranía de la Macarena as the main recharge zone of meteoric waters into the BFU. Finally, numerical simulation techniques were used to analyze the behavior of hydrocarbon drainage under hydrodynamic conditions, obtaining a first approximation to the average linear groundwater flow velocities between 10-3 and 10-4 ft/day.