US1787973A

US1787973A - Method of developing oil fields

Info

Publication number: US1787973A
Application number: US47632A
Authority: US
Inventors: Henry L Doherty
Original assignee: Individual
Current assignee: Individual
Priority date: 1925-08-01
Filing date: 1925-08-01
Publication date: 1931-01-06
Anticipated expiration: 1948-01-06

Description

HENRY L. DQHERTY, F NEW YORK, N. Y.

METHOD OF DEVELUPING OIL FIELDS No Drawing. Application filed August I, 1925, Serial No. 47,632. Renewed May 20, 1930.

This invention relates to the development of oil fields and more particularly to a method of extracting oil from the oil sand in such a manner that the gas occurring with the oil may be utilized to the best advantage in forcing the oil from the sand and carrying it to the surface.

In developing oil fields, some operators hurriedly bring the property to full developlc ment, each well as it is brought in being allowed to flow oil and gas without any particular control being exercised over the individual wells or a group of wells. The nearest approach to control that is sometimes practised is the maintaining of a back-pressure on the wells. This plan of development gives a rapidly increasing daily production which reaches a peak rather early in the l1fe of the property and thereafter rapidly declines as the gas pressure falls. It has the disadvantage that the early production of oil is usually greatly in excess of the facilities which will properly handle subsequent production, thus necessitating equipment far in excess of what is required for a later produc tion.

Most operators prefer to bring production rapidly up to a point where it can be readily handled b normal equipment and then CllS- continue urther drilling until such time as the wells begin to decline after which new wells will be drilled as in the preceedlng lan. However, no particular control over the wells except possibly, back-pressure, 1s

practised. Moreover, as the wells are brought in they are allowed to flow 011 and gas Without any particular attention being paid to the ratio of oil to gas belng produced. The present invention aims to provldea method of operating oil wells WhlCh w1ll enable the energy or pressure of the natural gas to be utilized to the best advantage 1n the recovery of oil from its 011 sands. According to my method, the field iWlll be developed in a gradual manner. Plans will, however, be made for pro ect1ng wells over the entire oil area, the wells being arranged across the property according to some approved geometric pattern. Aft er a well has been drilled to completion 1t Wlll ordinarily not be allowed to flow freely because of the excesslve quantity of gas which would flow compared with the oil produced. Oil under pressure contains a comparatively large volume of dissolved gas. When the pressure is released as by opening a well, the gas will come out of solution and in coming out of solution will tend to carry the oil through the sand toward the point of low pressure. However, as gas will travel faster than oil through any given sand or formation it is necessary to slow down the movement of the gas and this is accomplished by maintaining a back-pressure on the wells.

The ideal production ratioof gas to oil is such that the volume of gas produced per barrel of oil would be equivalent to the gas dissolved in the oil under naturally occurring conditions. By keeping a controlled backpressure on the well this ideal condition can be approximated more or less closely. In time, however, the oil in the immediate vicinity of the well will be drained more or less completely from the sand and the gas-will migrate comparatively long. distances with out carrying very much oil with it; the well will therefore produce an excessive amount of gas. When this condition occurs, the

well is shut-in and another well in the immediatc vicinity is opened and operated under a controlled back-pressure. When the second well is opened it will ordinarily be found advisable to operate it under a reduced back pressure as compared with the fir t well; first, because there may have been stride drop in pressure following the opening of the first well and, second, because there will probably not be so much free gas in the vicinity of the second well as there was at the first, much of the free gas having found its way into the region of the first well. However, this free gas in the vicinity of the first well is still capable of doing useful work inasmuch as itis still under pressure, and when the sec- 0nd well is opened such gas will tend to flow toward the new region of low pressure.

In the sands between the two Wells will be a body of oil and in the region of the first Well will be a body of free gas. This gas is,- therefore, so to speak, behind the oil body well there will be less free gas in the vicinity of the second well than there was originally. Consequently when the second well is opened, there will be less free gas ready to pass out through the well with the result that the ratio of oil to gas will approximate more or less closely the ideal ratio. Eventually, however, the free gas from the first well and from the sands surrounding the second well will reach the second well which will as a consequence begin to produce an excessive amount of gas. \Vhen. this condition occurs it is generally best to again open the first well in order to permit the free gas now in the vicinity of the second well to force the oil back through the sands toward the first well. By alternating the direction of flow of oil and gas between the two wells under suitably regulated backpressure, an unusually complete drainage of the oil from the sand may be obtained. When the first well again begins to produce an excessive amount of gas, it is closed and a third well opened and the process continued as before. After the third well begins to produce an excessive amount of gas it is closed in and the procedure then carried on as before in connection with the first and second wells until the entire field has been covered.

For simplicity of description I have referred to the treatment of single wells. However, in order to obtain increased production it will ordinarily be found desirable to operate the wells in groups so as to have one-half of the wells producing all the time. For example, alternate rows or groups of wells will be opened over the entire field to the flow of oil and gas. When any row or group of wells produces an excessive amount of gas such wells will be shut in and the adjacent row or roup of wells opened.

By operating the wells in the manner indicated the operator will also be enabled to determine if gas is channelling from one well to another. Channelling would be indicated when any two wells or groups of wells tend constantly to flow proportionately more gas and oil or more gas than adjacent wells or groups of wells. Such wells as persistently produce more gas than the other'wells would be shut-in to prevent a wastage of the gas.

It will be apparent that the wells. may be operated in various combination of groups I withoutdeparting from the spirit of the invention; For example, it may be found advisable to depart from a straight-line row 0t Wells and to operate wells in more or less irregular rows as data becomes available from observing the manner in which the wells are producing. It may be found, for example, that the oil sand between any two straightline row of wells is of varying degrees of porosity, such condition being indicated by a more copious flow of oil or gas between any two wells. When this condition is indicated the relation of one row of open wellsto another row of subsequently opened wells will be such that all of the wells in any given row will flow oil and gas in substantially the same ratio of oil to gas.

What is claimed is 1. The method of operating a group of oil wells which flow oil due to natural rock pressure which consists in alternately opening and shutting-in certain of the wells to thereby alternate the direction of flow'of gas and oil between the wells, the wells being shut-in when the ratio of the gas to the oil produced exceeds a predetermined ratio and opened again after the volume of gas in the shut-in wells has dropped to a .point permitting production at substantially the ideal gas-oil ratio.

2. The method of operating a group of oil wells which flow oil due to natural rock pressure which consists in flowing oil and gas from a row of wells until the ratio of the gas to the oil produced exceeds a predetermined ratio, thereafter shutting-in the wells, opening another row in proximity to the first and allowing the newly opened wells to produce gas and oil until the ratio of the gas to the oil produced exceeds a predetermined ratio and thereafter shutting them in'and reopening the first row.

3. The method of operating oil wells which flow oil due to natural rock pressure, which consists in flowing oil and gas from a well under a back-pressure, sl1utting-in the well when the ratio of the gas to the oil produced exceeds a predetermined ratio, opening an adjacent well to the flow of oil and gas under a back-pressure, shutting in the well when the ratio of gas to oil production exceeds a predetermined ratio, and reopening the first well and permitting it to flow oil and gas as long as the production of gas does not exceed the said predetermined ratio.

4. The method of operating a group of oil wells, which flow oil due to natural rock pressure, which consists in flowing oil and gas from a row of wells under a back-pressure, shutting-in the wells when the ratio of gas to oil production exceeds a predetermined ratio, opening a second row of wells and flowing oil andga-s from them under a controllable back-pressure, shutting-in the wells when the ratio of gas to oil production exceeds a predetermined ratio, and continuing with other wells across the oil field in the same manner as indicated. Y

5. The method of extracting oil from an oil sand while the oil is under the pressure of the natural gas occurring with the oil, which consists in projecting a plurality of rows or groups of wells in the oil sand and alternately opening and shutting-in spaced rows or groups of wells whereby the oil will be forced by the gas to travel from one region of low pressure to another and extracting the oil from the Wells which are open.

6. The method of extracting oil from an oil sand while the oil is under the pressure of natural gas, which consists in projecting a. plurality of wells into the oil sand, flowing oil and gas from a row of wells while maintaining them under a controllable back-pressure, shutting in the wells when the ratio of gas to oil production exceeds a predetermined ratio and proceeding across the oil field in the manner indicated by successively opening and shutting-in rows of oil wells.

7 Themethod of-developing an oil field which consists in projecting oil wells into the oil sands according to apredetermined geometric pattern and after the wells are completed alternately opening and shutting-in one half of the wells in predeterminedgroups over the field.

8. The method of developing an oil field which consists in projecting oil wells into the oil sands according to a predetermined geometric pattern, preventing free flow of oil from completed wells until all the wells in the group to be operated are completed, and thereafter alternately opening and shuttingin one half of the wells in predetermined groups over the field, all of the Wells of a group being shut-in when the majority of the wells of the groups produce an excessive amount of gas measured by a predetermined ratio of oil to gas.

9. A method of draining oil from oil sands comprising opening two or more wells to the flow of oil and gas, shutting-in the wells when the ratio of gas to oil produced exceeds a predetermined ratio, and opening two or more adjacent wells which will flow'oil and 7 gas in a ratio lower than said predetermined ratio.

In testimony whereof I affix my signature.

HENRY L. DOHERTY.