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Development of directional capabilities to an ultradeep water dynamic kill simulator and simulations runsMeier, Hector Ulysses 01 November 2005 (has links)
The world is dependent on the production of oil and gas, and every day the demand
increases. Technologies have to keep up with the demand of this resource to keep the
world running. Since hydrocarbons are finite and will eventually run out, the increasing
demand of oil and gas is the impetus to search for oil in more difficult and challenging
areas. One challenging area is offshore in ultradeep water, with water depths greater than
5000 ft. This is the new arena for drilling technology. Unfortunately with greater
challenges there are greater risks of losing control and blowing out a well. A dynamic
kill simulator was developed in late 2004 to model initial conditions of a blowout in
ultradeep water and to calculate the minimum kill rate required to kill a blowing well
using the dynamic kill method. The simulator was simple and efficient, but had
limitations; only vertical wells could be simulated. To keep up with technology,
modifications were made to the simulator to model directional wells. COMASim
(Cherokee, Offshore Technology Research Center, Minerals Management Service, Texas
A&M Simulator) is the name of the dynamic kill simulator. The new version,
COMASim1.0, has the ability to model almost any type of wellbore geometry when
provided the measured and vertical depths of the well.
Eighteen models with varying wellbore geometry were simulated to examine the effects
of wellbore geometry on the minimum kill rate requirement. The main observation was
that lower kill rate requirement was needed in wells with larger measured depth. COMASim 1.0 cannot determine whether the inputs provided by the user are practical;
COMASim 1.0 can only determine if the inputs are incorrect, inconsistent or cannot be
computed. If unreasonable drilling scenarios are input, unreasonable outputs will result.
COMASim1.0 adds greater functionality to the previous version while maintaining the
original framework and simplicity of calculations and usage.
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A Robust Four-Fluid Transient Flow Simulator as an Analysis and Decision Making Tool for Dynamic Kill OperationHaghshenas, Arash 03 October 2013 (has links)
The worst scenario of drilling operation is blowout which is uncontrolled flow of formation fluid into the wellbore. Blowouts result in environmental damage with potential risk of injuries and fatalities. Although not all blowouts result in disaster, outcomes of blowouts are unknown and should be studied before starting an operation. Plans should be available to prevent blowouts or provide safe and secure ways of controlling the well before the drilling operation starts. The plan should include procedures in case of any blowout incident as a proactive measure.
A few commercial softwares are available in the industry for dynamic kill and transient modeling. All models are proprietary and very complex which reduces the flexibility of the program for specific cases. The purpose of this study is to develop a pseudo transient hydraulic simulator for dynamic kill operations. The idea and concept is to consider the flow of each phase as a single phase flow. The summation of hydrostatic and frictional pressure of each phase determines the bottomhole pressure during the dynamic kill operation. The simulator should be versatile and capable of handling special cases that may encounter during blowouts.
Some of the main features of the proposed dynamic kill simulator include; quick and robust simulation, fluid properties are corrected for pressure and temperature, sensitivity analysis can be performed through slide bars, and capable of handling variety of wellbore trajectories.
The results from the proposed simulator were compared to the result of commercial software, OLGA ABC. The results were in agreement with each other. It is recommended to apply the simulator for operations with required kill fluid volumes of one to two wellbore volumes.
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Development of a Well Intervention Toolkit to Analyze Initial Wellbore Conditions and Evaluate Injection Pressures, Flow Path, Well Kill, and Plugging ProceduresPaknejad, Amir S 16 December 2013 (has links)
Every year, many wells are subject to well intervention operations for a variety of different reasons, such as Plug and Abandon (P&A) operations or well control situations. Wells that are not properly plugged, in addition becoming an inherent blowout threat, can act as a preferential pathway for surface contaminants to reach and impair ground water quality, and could cause injury to livestock, wildlife, or humans. Hence, federal code (or state code if in state waters) states that the wells must be plugged according to regulations. If attempts with a surface intervention operation fail, a relief type subsurface intervention project is deemed appropriate. A relief well type of intersection into each target wellbore will create a hydraulic flow path suitable for plugging operations. The plugging operation will require the placement of permanent plugging fluids into the Target Well (TW) to meet Mineral Management Services (MMS), or other regulatory agency, approved plugging criteria. Evidently, there is a need to design a method to insure that the scenarios are accurately defined, analyzed and the results can be effectively implemented to complete the plug and abandonment operations. A software package, coupled with the skill of a hydraulic modeling specialist, could provide final resolution to and better understanding of the problem. However, considering uncertainties in some input information, there is a need to develop a multi-purpose package which enables the user to manipulate dynamically a wide range of input data in order to obtain the best fit. Therefore, the decision was made to develop a software package specifically built and designed to address the common problems encountered during well intervention projects. The well intervention toolkit will be used to investigate the plugging and abandonment scenarios. The well intervention toolkit not only provides the critical input parameters to other commercial software but would also be a means to analyze and simulate the well intervention hydraulics
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