Agitating – Having specified feed means – Responsive to condition sensor
Reexamination Certificate
2001-10-26
2004-10-12
Sorkin, David (Department: 1723)
Agitating
Having specified feed means
Responsive to condition sensor
C366S163200, C366S178100
Reexamination Certificate
active
06802638
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an automatically self adjusting annular jet mixer useful in mixing guar and other materials to create a fracturing fluid gel at the site of a gas or oil well.
2. Description of the Related Art
Mixing of guar and other material for creating a fracturing fluid gel has been known for approximately 50 years. Fracturing fluids are used to carry or transport proppant, usually sand, into a well fracture for the purpose of creating improved production of hydrocarbons, i.e. oil or natural gas. In the past, guar gel has had quality problems which were evident by lumps of partially hydrated gel within the gel fluid. These lumps could possible plug off formation permeability and also caused reduced viscosity of the gel. The reduced viscosity was caused by not all of the gel being incorporated into the fluid and thus not being fully utilized. Many efforts, some quite elaborate, have been used to produce a quality gel, i.e. one that was free of lumps. Screens have been used to filter out lumps. Grinders and shear devices have been used to break down the lumps. Chemicals have been used to coat the dry gel powder particles to slow the hydration process and thereby prevent lumps. Guar powder has also been mixed as slurry with diesel fuel to create a concentrated suspension for later mixing into a gel. All these techniques added cost to the material, and depending on the process, added elaborate and expensive equipment. All of these solutions added to the cost of fracturing a well, thus making the produced oil and gas more expensive.
Mixing energy has been found to be an important key to mixing a lump free gel. Guar powder tends to lump if it is not fully wetted when it first encounters water. Thus, a high energy mixer that wets all guar powder particles will create a lump free gel. One of the problems with standard mixers is that the nozzle or jet from which the water exits is usually fixed in size, i.e. the nozzle is not adjustable. If the process rate is changed from the optimal flow for that nozzle, then the performance is changed. If the process rate is less than the optimal rate, then not enough energy will be created to mix the gel free of lumps. In the process rate is much higher than the optimal rate, a high pressure loss is developed in the nozzle which increases required pump horse power and further limits the maximum throughput rate. The most economical fracturing process is one in which the gel is prepared “on-the-fly” at the same time the fracturing fluid is pumped down the well. Guar does need some time to hydrate and develop the desired viscosity. Therefore, a holding tank downstream of the mixer is usually needed before the fluid is mixed with the proppant and is then pumped down the well. Since the characteristics of wells vary greatly, there is a need to mix guar gels at different rates, depending on the stage and well treatment design. The present invention provides a high energy mixer that also automatically adjusts the nozzle size to maintain a high energy nozzle jet to efficiently mix the gel at a wide range of flow rates. The adjustment means employed in the present invention requires no outside power source or control means, whether electronic, mechanical or hydraulic. The water that is used to mix the gel also creates the power that is used to adjust the mixer nozzle. A pressure reducing valve operating on the process water is used to adjust the mixer pressure setting. Once this setting has been made, no other future adjustments are necessary.
SUMMARY OF THE INVENTION
The present invention is an automatically self adjusting annular jet mixer useful in mixing guar and other materials to create a fracturing fluid gel such as employed at the site of a gas or oil well.
The present invention is provided with an inner nozzle member that is axially movable along the mixer centerline to increase and decrease the size of the effective nozzle opening. Integral with the inner nozzle is a piston. The piston is movable within the housing of the mixer, forming an upstream area on one side of the piston and a downstream area on the opposite side of the piston. The upstream area is larger than the downstream area. The downstream area is connected to the mix water supply pump and the upstream area is connected to the outlet of a pressure regulator. The inlet of the the pressure regulator is the same as the downstream side of the piston, i.e. the mix water pump pressure. Although the pressure in the upstream area is preferably provided by regulated supply water, this is not required and the constant pressure in the upstream area can alternately be provided by another source of water or be pressurized by air or other suitable gas.
The pressure regulator sets the maximum pressure of the upstream side of the piston. This pressure, together with the area ratio of the control piston determines the mix water control pressure. If the mix water pressure is lower than required, then the piston moves the inner nozzle member in a direction that will reduce the nozzle outlet size. Reducing the nozzle size increases the backpressure. Conversely, if the mix water pressure is too high, then the piston will move the inner nozzle in the opposite direction to increase the nozzle opening and thus reduce the pressure.
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Fishbane et al., “Physics for Scientists and Engineers”, 1993, Prentice-Hall, Inc., p. 383.*
T.E. Allen, Pregel Blender Prototype Designed to Reduce Cost and Environmental Problems, Society of Petroleum Engineers, Paper No. SPE 27708, Presented at the 1994 SPE Permian Basin Oil and Gas Recovery Conference held in Midland, TX Mar. 16-18, 1994.
McKay Molly D.
Sorkin David
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