Hydrocarbon recovery facilitated by in situ combustion

The invention claimed is: 1. A process for hydrocarbon recovery from an oil sands reservoir comprising: performing a steam assisted gravity drainage operation by: injecting steam in a steam injection well of a steam assisted gravity drainage well pair and continuing to inject steam to establish fluid communication between the steam injection well and an oxidizin as injection well that includes an oxidizin as injection well segment that is spaced generally above the steam injection well segment; producing hydrocarbons from a hydrocarbon production well of the steam assisted gravity drainage well pair, the hydrocarbon production well including a generally horizontal production well segment disposed generally parallel to and vertically below a generally horizontal steam injection well segment of the steam injection well such that the steam injection well segment is disposed generally vertically between the production well segment and the oxidizing gas injection well segment; in response to determining that the steam injected in the steam injection well reaches the oxidizing gas injection well or is near a top of the oil sands reservoir, discontinuing performing steam assisted gravity drainage; injecting an oxidizing gas into the oil sands reservoir through the oxidizing gas injection well, the oxidizing gas supporting in situ combustion in the reservoir; and utilizing the steam assisted gravity drainage well pair to recover hydrocarbons mobilized by the in situ combustion, by: producing combustion gases through steam injection well of the steam assisted gravity drainage well pair; and recovering the mobilized hydrocarbons from the reservoir through the hydrocarbon production well of the steam assisted gravity drainage well pair. 2. The process according to claim 1 , wherein the oxidizing gas injection well segment of the oxidizing gas injection well is disposed at an angle that is less than 75° from a vertical line extending through the hydrocarbon production well and at an angle that is less than 75° from a vertical line extending through the steam injection well. 3. The process according to claim 1 , wherein the oxidizing gas injection well segment of the oxidizing gas injection well is disposed at an angle that is less than 60° from a vertical line extending through the hydrocarbon production and at an angle that is less than 60° from a vertical line extending through the steam injection well. 4. The process according to claim 1 , wherein the oxidizing gas injection well segment of the oxidizing gas injection well is disposed at an angle that is less than 45° from a vertical line extending through the hydrocarbon production well and at an angle that is less than 45° from a vertical line extending through the steam injection well. 5. The process according to claim 1 , wherein the oxidizing gas injection well segment of the oxidizing gas injection well is disposed directly vertically above and parallel with the generally horizontal hydrocarbon production well segment of the hydrocarbon production well and directly vertically above the generally horizontal steam injection well segment of the steam injection well. 6. The process according to claim 5 , wherein the oxidizing gas injection well segment of the oxidizing gas injection well is disposed at an angle that is less than 5° from a vertical line extending through the hydrocarbon production well and at an angle that is less than 5° from a vertical line extending through the steam injection well. 7. The process according to claim 1 , wherein the oxidizing gas injection well segment is generally horizontal and extends generally parallel to the generally horizontal hydrocarbon production well segment of the hydrocarbon production well and the generally horizontal steam injection well segment of the steam injection well. 8. The process according claim 1 , wherein the vertical distance between the oxidizing gas injection well segment and the generally horizontal segment of the combustion gas production well is greater than the vertical spacing between the generally horizontal steam injection well segment of the steam injection well and the generally horizontal hydrocarbon production well segment of the hydrocarbon production well. 9. The process claim 1 , wherein a steam chamber provides fluid communication for the steam assisted gravity drainage well pair and the oxidizing gas injection segment. 10. The process according to claim 9 wherein the steam chamber is a steam-assisted gravity drainage-produced steam chamber.