- Well kill
A well kill refers to the operation of placing a column of heavy fluid into a well bore in order to prevent the flow of reservoir fluids without the need for pressure control equipment at the surface. It works on the principle that the weight of the "kill fluid" or "kill mud" will be enough to suppress the
pressure of the formation fluids. Well kills may be planned in the case of advanced interventions such as workovers, or be contingency operations. The situation calling for a well kill will dictate the method taken.Not all well kills are deliberate. Sometimes, the unintended build up of fluids, either from injection of chemicals like methanol from surface, or from liquids produced from the reservoir, can be enough to kill the well, particularly gas wells, which are notoriously easy to kill.
Principles
The principle of a well kill revolves around the weight of a column of fluid and hence the pressure exerted at the bottom.
Where P is the pressure at depth h in the column, g is the
acceleration of gravity and ρ is thedensity of the fluid. It is common in theoil industry to use weight density, which is the product of mass density and the acceleration of gravity. This reduces the equation to:Where γ is the weight density. Weight density may also be described as the pressure gradient because it directly determines how much extra pressure will be added by increasing depth of the column of fluid.
The objective in a well kill, is to make the pressure at the bottom of the kill fluid equal (or slightly greater) than the pressure of the reservoir fluids.
Example
The pressure of the reservoir fluids at the bottom of the hole is 38MPa. We have a kill fluid with a weight density of 16kN.m-3. What will need to be the height of the hydrostatic head in order to kill the well?
From the equation:
Therefore, a column of 2375m of this fluid is needed. It must be remembered that this refers to the true vertical depth of the column, not the measured depth, which is always larger than true vertical depth due to deviations from vertical.
Maths in the oil field
In the
oil industry , a pure SI system is far from being used. Weight densities are commonly either given asspecific gravity or in pounds pergallon . Simple conversion factors (0.433 for specific gravity and 0.052 for ppg) convert these values to a pressure gradient in psi per foot. Multiplying by the depth in feet gives the pressure at the bottom of the column.Methods of well kill
Reverse circulation
This is often tidiest way of making a pre-planned well kill. It involves pumping kill fluid down the 'A' annulus of the well, through a point of communication between it and the
production tubing just above theproduction packer and up the tubing, displacing the lighter well bore fluids, which are allowed to flow to production.The point of communication was traditionally a device called a sliding sleeve, or sliding side door, which is a hydraulically operated device, built into the
production tubing . During normal operation, it would remain closed sealing off the tubing and the annulus, but for events such as this, it would be opened to allow the free flow of fluids between the two regions. These components have fallen out of favour as they were prone to leaking. Instead, it is now more common to punch a hole in the tubing for circulation kills. Although this permanently damages the tubing, given that most pre-planned well kills are forworkover s, this is not an issue, since the tubing is being pulled for replacement anyway.Bullheading
This is the most common method of a contingency well kill. If there is a sudden need to kill a well quickly, without the time for rigging up for circulation, the more blunt instrument of bullheading may be used. This involves simply pumping the kill fluid directly down the well bore, forcing the well bore fluids back into the reservoir. This can be effective at achieving the central aim of a well kill; building up a sufficient hydrostatic head in the well bore. However, it can risk damaging the reservoir, by forcing undesired materials into it. The principal advantage is that it can be done with little advanced planning.
Forward circulation
This is similar to reverse circulation, except the kill mud is pumped into the
production tubing and circulated out through the annulus. Though effective, it is not as desirable since it is preferred that the well bore fluids be displaced out to production, rather than the annulus.Lubricate and bleed
This is the most time consuming form of well kill. It involves repeatedly pumping in small quantities of kill mud into the well bore and then bleeding off excess pressure. It works on the principle that the heavier kill mud will sink below the lighter well bore fluids and so bleeding off the pressure will remove the latter leaving an increasing quantity of kill mud in the well bore with successive steps.
Well kills during drilling operations
During drilling, pressure control is maintained through the use of precisely concocted
drilling fluid , which balances out the pressure at the bottom of the hole. In the event of suddenly encountering a high pressure pocket of, say gas (called a "kick"), it can become necessary to kill the well. This is done by pumping kill mud down the drill pipe, where it circulates out the bottom and into the well bore.Reversing a well kill
The intention of a well kill (or the reality of an unintentional well kill) is to stop reservoir fluids flowing to surface. This of course creates problems when it is desirable to get the well flowing again. In order to reverse the well kill, the kill fluid must be displaced from the well bore. This involves injecting a gas at high pressure, usually
nitrogen since it is inert and cheap. A gas can be put under sufficient pressure to allow it to push heavy kill fluid, but will then expand and become light once pressure is removed. This means that having displaced the kill fluid, it will not itself kill the well. The reservoir fluids should be able to flow to surface, displacing the gas.The cheapest way to do it is similar to bullheading, where the nitrogen is pumped in under high pressure to force the kill fluid into the reservoir. This, of course, runs a high risk of causing well damage. The most effective way is to use
coiled tubing , pumping the gas down the coil and circulating out the bottom into the well bore, where it will displace the kill mud to production.ee also
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Oil well
*Well intervention
*Well drilling
*Coiled tubing External links
* [http://www.iwcf.org/IWCF/Public/PDF/QA-WIS%20WI%20Syllabus,%20Rev%203.2,%201-08-2004,%20B&W.pdf IWCF Well Intervention Pressure Control syllabus (pdf)]
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