This disclosure relates to hydrocarbon production and fluid injection.
In hydrocarbon production, a wellbore is formed into a hydrocarbon bearing geologic formation. Once the wellbore is formed and completed, the natural pressures within the hydrocarbon bearing are often used to produce hydrocarbons to a topside facility. In some instances, enhanced recovery options, such gas or water injection, are used to maintain pressure in the reservoir, sweep hydrocarbons towards production wells, or both. Such methods are used to increase the amount of hydrocarbons that can be recovered from a hydrocarbon reservoir.
This disclosure describes technologies relating to producing hydrocarbons with carbon dioxide and water injection.
An example method of the subject matter described within this disclosure is a method with the following features. A first well, configured to act as a production well or an injection well, is formed. The first well includes a first horizontal portion. A second well, configured to act as a production well or an injection well, is formed. The second well includes a second horizontal portion substantially parallel to the first horizontal portion. The first horizontal portion and the second horizontal portion are at different depths. A fluid is injected into a geologic formation through the first well for a first duration of time. Hydrocarbons are produced from the geologic formation through the second well for the first duration of time. A fluid is injected into a geologic formation through the second well for a second duration of time. Hydrocarbons are produced from the geologic formation through the first well for the second duration of time.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The first horizontal portion and the second horizontal portion are within substantially four hundred feet of one another.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting fluid includes injecting CO2 for a third duration of time, followed by injecting water for a fourth duration of time. The third and the fourth duration of time total either the first or the second duration of time.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The water includes fresh water.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The third duration of time for CO2 injection is substantially three months.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The fourth duration of time for water injection is substantially three months.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting CO2 includes injecting the CO2 at a miscible pressure.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting CO2 comprises injecting the CO2 in a supercritical state.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting includes injecting carbonated water for the first duration of time.
An example implementation of the subject matter described within this disclosure is a method of producing a hydrocarbon reservoir. The method includes the following features. A fluid is injected into a geologic formation through a first well for a first duration of time. The first well includes a first horizontal portion. Hydrocarbons are produced from the geologic formation through a second well for the first duration of time, the second well comprising a second horizontal portion substantially parallel and substantially vertically aligned with the first horizontal portion. A fluid is injected into the geologic formation through the second well for a second duration of time. Hydrocarbons are produced from the geologic formation through the first well for the second duration of time.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting fluid includes injecting CO2 for a third duration of time, followed by injecting water for a fourth duration of time. The third and the fourth duration of time totaling either the first or the second duration of time.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The water comprises fresh water.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The third duration of time for CO2 injection is substantially three months.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. The fourth duration of time for water injection is substantially three months.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting CO2 includes injecting the CO2 at a miscible pressure.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting CO2 includes injecting the CO2 in a supercritical state.
Aspects of the example method, that can be combined with the example method alone or in combination, include the following. Injecting includes injecting carbonated water for the first duration of time.
An example implementation of the subject matter described within this disclosure is a well system with the following features. A first well is within a geologic formation. The first well is configured to act as a production well or an injection well. The first well includes a first horizontal portion. A second well is within a geologic formation. The second well is configured to act as a production well or an injection well. The second well includes a second horizontal portion substantially parallel and substantially vertically aligned with the first horizontal portion. The first horizontal portion and the second horizontal portion are within four hundred feet of one another. A topside facility configured to inject a fluid into the geologic formation through the first well for a first duration of time. The topside facility is configured to produce hydrocarbons from the geologic formation through the second well for the first duration of time. The topside facility is configured to inject a fluid into the geologic formation through the second well for a second duration of time. The topside facility is configured to produce hydrocarbons from the geologic formation through the first well for the second duration of time.
Aspects of the example well system, that can be combined with the example well system alone or in combination, include the following. The injected fluid includes CO2 being injected for a third duration of time, followed by water being injected for a fourth duration of time. The third and the fourth duration of time totaling either the first or the second duration of time.
Aspects of the example well system, that can be combined with the example well system alone or in combination, include the following. The CO2 is collected from a production stream for injection.
Particular implementations of the subject matter described in this disclosure can be implemented so as to realize one or more of the following advantages. A greater recovery factor of hydrocarbons can be realized with the subject matter described herein.
The details of one or more implementations of the subject matter described in this disclosure are set forth in the accompanying drawings and the description. Other features, aspects, and advantages of the subject matter will become apparent from the description, the drawings, and the claims.
Like reference numbers and designations in the various drawings indicate like elements.
When gas is injected into the reservoirs, the gas sometimes flows preferentially on the top of a reservoir due to lower density than hydrocarbons within the reservoir. Such a situation can cause some areas of the reservoir to be un-swept by the injected gas. This disclosure describes a method for enhanced oil recovery that includes sweeping hydrocarbons located between two vertically adjacent, horizontal wellbores. Carbon dioxide is injected into the upper well for a first period of time while the lower well acts as a hydrocarbon producer. Then, the carbon dioxide injection is switched to water injection for a second period while maintaining the lower well as a hydrocarbon producer. Then the upper well is converted to a production well and the lower well acts as an injection well. Carbon dioxide is injected into the lower well for a third period of time while the upper well acts as a hydrocarbon producer. Then, the carbon dioxide injection is switched to water injection for a fourth period of time while maintaining the lower well as an injection well.
A topside facility 108 is located at an uphole end of the first, lower well 102 and the second, upper well 104. The topside facility 108 can include several components common for hydrocarbon production, for example, injection pumps, production pumps, auxiliary pumps, compressors, separators, flare systems, and general utility systems. The topside facility 108 includes facilities and equipment necessary to inject into or produce from either the first, lower well 102, the second, upper well 104, or both, and to change the operating mode of either well. Such an arrangement includes various valving and manifolds that are sufficiently rated for each service. This means that the topside facility 108 is configured to inject a fluid into the geologic formation 106 through the first, lower well 102 for a first duration of time, and produce hydrocarbons from the geologic formation 106 through the second, upper well 104 for the first duration of time. The topside facility 108 is also configured to switch the roles of each wellbore. That is, the first, lower well 102 can be switched from an injection well into a production well, and the second, upper well 104 can be switched from a production well into an injection well. Once the change has occurred, for example, by routing the well tubing of each well into different manifolds, the topside facility 108 then injects a fluid into the geologic formation 106 through the second, upper well 104 and produces hydrocarbons from the geologic formation 106 through the first, lower well 102 for a second duration of time.
While CO2 202 is being injected through the first, lower well 102, hydrocarbons 204 are being swept towards the second, upper well 104. The CO2 202 dissolves into the hydrocarbons, reducing their density and allowing them to flow more freely than the hydrocarbons would flow without the addition of CO2 202. Hydrocarbons 204 are produced through the second, upper well 104 for substantially the same duration of time as CO2 202 is injected into the first, lower well 102.
While a single injection-production cycle is described throughout this disclosure, it is understood that such cycles can be repeated. That is, the lower well 102 can act as an injector, then a producer, and then an injector again. Similarly, the upper well 104 can act as a producer, an injector, then a producer again. While primarily described within this disclosure as first injecting through the lower well 102 and producing through the upper well 104, other arrangements can be used without departing from this disclosure.
At 806, a fluid is injected into a geologic formation through the first well for a first duration of time. In some implementations, injecting fluid includes injecting CO2 for a third duration of time, followed by injecting water for a fourth duration of time, the third and the fourth duration of time totaling either the first or the second duration of time. In some implementations, carbonated water is injected for the first duration of time. The duration of time for injection can be on the order of several months.
At 808, hydrocarbons are produced from the geologic formation through the second well for the first duration of time. At 810, a fluid is injected into a geologic formation through the second well for a second duration of time. At 812, hydrocarbons are produced from the geologic formation through the first well for the second duration of time.
While this disclosure contains many specific implementation details, these should not be construed as limitations on the scope of any inventions or of what may be claimed, but rather as descriptions of features specific to particular implementations of particular inventions. Certain features that are described in this disclosure in the context of separate implementations can also be implemented in combination in a single implementation. Conversely, various features that are described in the context of a single implementation can also be implemented in multiple implementations separately or in any suitable subcombination. Moreover, although features may be described above as acting in certain combinations and even initially claimed as such, one or more features from a claimed combination can in some cases be excised from the combination, and the claimed combination may be directed to a subcombination or variation of a subcombination.
Similarly, while operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. Moreover, the separation of various system components in the implementations described above should not be understood as requiring such separation in all implementations, and it should be understood that the described program components and systems can generally be integrated together in a single product or packaged into multiple products.
Thus, particular implementations of the subject matter have been described. Other implementations are within the scope of the following claims. In some cases, the actions recited in the claims can be performed in a different order and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results.