Method for dynamically assessing petroleum reservoir competency and increasing production and recovery through asymmetric analysis of performance metrics

a technology of performance metrics and performance indicators, applied in the field of petroleum reservoir design, management and response, can solve the problems that conventional methods do not provide useful tools for properly understanding, and achieve the effects of increasing short-term production rates, short-term recovery, and reducing production and recovery

Inactive Publication Date: 2011-07-14
QRI GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011]The present invention seeks to overcome existing technical, economic and institutional impediments that reduce production and recovery from a petroleum reservoir by more accurately assessing the actual condition of an existing reservoir and implementing an intelligent plan of action in order to increase short-term production rates and long-term recovery of petroleum from the reservoir. It does so by gathering information using a unique set of metrics and information gathering techniques and analyzing the gathered information in a targeted fashion by properly weighting the data in the context of the particular reservoir in question and the goals of the producer.
[0012]All hydrocarbon assets carry an individual “DNA” reflective of their subsurface and surface features. However, conventional methods do not provide useful tools for properly understanding the unique features and needs of each particular petroleum reservoir. The disclosed method provides an enabling tool for developing and applying extraction methods which are optimally designed to the specifications of each individual petroleum reservoir. Its success in arriving at optimal solutions derives from its ability to filter out non-critical parameters and identify the specific reasons for reservoir underperformance. It assists in incrementally increasing both production and reserves over and above levels being achieved using standard industry techniques.
[0017]A plan of action is implemented in order to increase short-term production and / or long-term recovery (e.g., proven reserves). The plan of action may include one or more of the following: (1) modifying and / or stimulating one or more existing wells, (2) constructing new wells, (3) injection of pressurized fluids and / or gas in a more intelligent and strategic manner, and (4) shutting or slowing down production by one or more existing wells. In general, it is beneficial to (1) maximize contact between the well bore and reservoir, (2) reduce gas-to-oil ratios and / or water cuts and / or draw-down pressures among adjacent and / or similarly situated and / or similarly designed wells, and (3) optimize extraction rates to more closely correspond to surrounding pore displacement efficiencies and well-bore replenishment locations.” When the producing wells of a reservoir are operating in an optimized manner, short-term production is increased and long-term recovery is maximized.

Problems solved by technology

However, conventional methods do not provide useful tools for properly understanding the unique features and needs of each particular petroleum reservoir.

Method used

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  • Method for dynamically assessing petroleum reservoir competency and increasing production and recovery through asymmetric analysis of performance metrics
  • Method for dynamically assessing petroleum reservoir competency and increasing production and recovery through asymmetric analysis of performance metrics
  • Method for dynamically assessing petroleum reservoir competency and increasing production and recovery through asymmetric analysis of performance metrics

Examples

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example 1

Background Information

[0662]The field in this example has been on production under a peripheral waterflood. It is in a mature state of depletion with more than 70% of its reserves already produced. Re-engineering efforts were initiated to reduce field decline rates and water-cuts. A secondary objective was to lower ESP requirements and associated capital programs.

Geology

[0663]The field produces from a 60+ meters thick carbonate reservoir which is comprised of numerous shoaling-upwards cycles. The reservoir has an average porosity of more than 15% and permeability up to several darcies. The upper half of the reservoir is generally very high reservoir quality; the lower half contains numerous interbeds of high and low reservoir quality. The lower half reservoir quality is enhanced by the addition of fracture permeability which significantly increases reservoir conductivity while also increasing risks of premature water breakthrough. The reservoir has more than 300 meters of structural...

example 2

Background Information

[0666]The field in this example went on-stream in 2006 with a production rate of 300,000 Bbls / day and was the third increment of a three-increment field development plan. It is under a peripheral waterflood. Re-engineering efforts in designing the new production increment were initiated due to concern about premature water breakthrough, excessive development costs and high well decline rates, all due to complex geology. These concerns were based on experience gained through the development and performance of two adjacent oil-containing increments.

Geology

[0667]The field produces from a 60 meter thick carbonate reservoir which is comprised of numerous shoaling-upwards cycles. The reservoir has an average porosity of about 15% and permeability up to 100 millidarcies. The upper half of the reservoir is generally moderate reservoir quality; the lower half contains numerous interbeds of moderate and low reservoir quality. The reservoir quality is enhanced by the addi...

example 3

Background Information

[0670]The field in this example came on production in 1998 at a production rate of 500,000 Bbls / day. It was developed exclusively by 1-kilometer long horizontal wells. Current plans call for increasing production to 750,000 Bbls / day by 2010. Re-engineering efforts were initiated to reduce well productivity declines, gas oil ratio (GOR), and associated field development capital and operational costs.

Geology

[0671]The field is characterized as a gently folded northeast / southwest-trending anticline consisting primarily of Cretaceous age sandstones, shales, and carbonates. The reservoir consists of rudist buildups that vary laterally into barrier and shelf slope facies. While matrix porosity is generally high (with an average of 25%) and does not vary laterally, permeability is facies-dependent and exhibits spatial variability. In the south which is dominated by low-energy lagoon deposits, typical permeabilities range from 5 to 10 millidarcies. 3D seismic data show ...

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PUM

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Abstract

Methods for accurately assessing the condition of a petroleum reservoir and designing and implementing a plan of action to increase production and recovery of petroleum from the reservoir. Information is gathered using a unique set of metrics and information gathering techniques and analyzed in a targeted fashion by properly weighting the data in the context of the particular reservoir and goals of the producer. A reservoir rating is generated using asymmetric analysis of metrics and then used to formulate a plan of action. Production architecture (e.g., number, location and manner of constructing oil and injector wells) is then constructed according to the plan of action. Reservoir performance can be continuously monitored and used to verify production and recovery goals and / or provide triggers or alarms to alter production equipment.

Description

CROSS REFERENCE TO RELATED APPLICATIONS[0001]This application claims the benefit of the following: U.S. Provisional Application No. 61 / 031,167, filed Feb. 25, 2008, and entitled “METHOD FOR DYNAMICALLY ASSESSING PETROLEUM RESERVOIR COMPETENCY THROUGH ASYMMETRIC ANALYSIS OF PERFORMANCE METRICS”; U.S. Provisional Application No. 61 / 101,008, filed Sep. 29, 2008, and entitled “ASSESSING PETROLEUM RESERVOIR RESERVES AND POTENTIAL FOR INCREASE”; U.S. Provisional Application No. 61 / 101,024, filed Sep. 29, 2008, and entitled “ASSESSING PETROLEUM RESERVOIR PRODUCTION RATE THROUGH PRODUCTION GAIN INDEX”; and U.S. Provisional Application No. 61 / 154,503, filed Feb. 23, 2009, and entitled “METHOD OF ASSESSING THE QUALITY OF RESERVOIR MANAGEMENT”. The disclosures of the foregoing applications are incorporated herein in their entirety.BACKGROUND OF THE INVENTION[0002]1. The Field of the Invention[0003]The invention is in the field of petroleum recovery, more particularly in the field of petroleum ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): E21B43/16E21B43/00E21B43/12E21B47/00G06G7/48
CPCG06Q10/06E21B43/00Y02P90/80
Inventor SALERI, NANSEN G.TORONYI, ROBERT M.
Owner QRI GROUP
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