S. Lozada scite author profile

S. Lozada

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Comsol (United States)

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Reviving a Mature Field in Ecuador by Rethinking Energy Sustainability and Reservoir Management

Astudillo¹,

Orellana²,

Lozada³

et al. 2020

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This paper summarizes the strategies implemented in a mature oil field in Ecuador to revive its production by improving energy efficiency, increasing fluid production and incorporating proved reserves. Results are shown in terms of the field energy efficiency index, energy consumption on ESPs, oil production, annual production decrease tendency and reserves incorporation. The Choke Model philosophy was implemented as a strategy for field development optimization. This methodology allowed the operator to identify that the main chokes were the production wells and the power. By using divergent and convergent thinking techniques focused on these chokes, four main strategies were selected: reduce the pipe diameter size of a fluid line, artificial lift system energy assessment, reactivate closed wells and recomplete others. Complete description of the methodology is provided in detail to permit readers to analyze this successful case. The reduction of pipe size diameter of a fluid line increased the mobility of the fluid from the well pads to the plant, eliminated the recirculation of water and thus increase the energy efficiency indicator of fluid handling from 9,770 to 10,190 BFPD/HP. The energy assessment of the artificial lift systems identified the inefficient wells that were scheduled for ESP redesign and technology upgrade with an energy improvement of 30%. All these energy efficiency improvements lead to rise fluid production. Based on the possibility to increase fluid production, wells reactivations, ESP upsizing’s and recompletions were planned. The team used a screening process to optimize candidates, gaining 2,010 BOPD, in average, over the baseline production profile since September 2017 to December 2018. The activities performed and well interventions diminished the annual oil production decline rate from 14% to 8%, allowed the operator to incorporate 4.8 MBBLS of proved reserves in 2018 and generate 7.6 MUSD of free cash flow in the same year. All the strategies were successfully achieved, and they accomplished the objectives of reviving a mature field, extending its life and generating value for the operator. None of the previous were possible without rethinking energy sustainability and reservoir management. The novelty of this work is the multidisciplinary approach and innovation methodology implemented to provide solutions to operational field chokes by identifying feasible projects in terms of technique, time and economics.

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Effective Cross Flow Diagnostic by Pulse Neutron, Cement Logs and Fluid Production: Water Shut Off Well Case in Amo Field

Orellana¹,

Gaibor²,

Astudillo³

et al. 2019

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The high water cut 98,5% caused the abandonment of a directional well, which was reactivated after 3 years using a water shut off technique. Offset wells production behavior, stratigraphic seal layers distribution, reservoir properties, and cased hole logging data played a relevant role for the well planning, reactivation and production success of heavy oil from the mature Amo field in the Oriente Basin of Ecuador. The Lower U reservoir production screening from neighbor wells and stratigraphical well correlation supported a rigless acquisition plan of pulse neutron logs to diagnose the fluid flow patterns after 5 years of production and 3 years of a well abandonment. Further corrosion and cement log was run to check the well integrity and compared it with initial cement log to discard possible cement channeling suspicion behind casing. Finally, water shut off well program was carried out. The acquired neutron logs showed flushed zone from two former producing perforations as well as remaining hydrocarbons in the upper perforated zone. The gamma ray log activation was detected just below the oil water contact while the oxygen activation log "OAI" was highlighted just above the gamma ray activation at the same depth where CBL log experienced picks perturbations suggesting bad cement an possible channeling behind casing. The OAI ended just in the upper unit perforations where another CBL pick was recorded. These evidences supported possible cross flow hypothesis from the bottom to the top producing zones. The water shut off job squeezed the lower perforation zone and re-perforated the upper unit to reactivate the abandoned well. The cement and corrosion logs suggested a good conditions of casing and zone isolation from aquifer. The well reactivation produced 700 bbl/d of water formation (100% BSW) during a month, the water salinity gradually increased from 16000 ppm to 45000 ppm NaCl. Likewise water cut diminished to 17% and 170 bbl of oil was pumped daily after voiding the cross flowed fluid (44000 bbl). Furthemore, the unknown productivity index for ESP pump design was unveiled. Stratigraphic well correlation indicated the shale layer continuity and thickness variability, which in combination with shale buffers occurrence were controlling the production behavior in offset wells. These aspects led to get updated cased hole logging data to identify opportunities for re-activation of abandoned well unlocking by-passed oil reserves after successful water shut off job execution.

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Multidisciplinary Strategy for Optimization of Oil Production and Energy Consumption from Individual Well Analysis on Gi

Astudillo¹,

Orellana²,

Caicedo³

et al. 2018

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S. Lozada

Reviving a Mature Field in Ecuador by Rethinking Energy Sustainability and Reservoir Management

Effective Cross Flow Diagnostic by Pulse Neutron, Cement Logs and Fluid Production: Water Shut Off Well Case in Amo Field

Multidisciplinary Strategy for Optimization of Oil Production and Energy Consumption from Individual Well Analysis on Gi

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