Well configuration for coinjection

We claim: 1. A method of heavy oil production, said method comprising: a) providing a horizontal production well at a bottom of a heavy oil payzone; b) providing a plurality of vertical injector wells and a plurality of vertical producer wells along said horizontal production well and terminating directly above said horizontal production well; c) injecting steam into said injector wells and said vertical producer wells in a start-up period until fluid communication is established; d) injecting steam and non-condensable solvent (NCS) only into said injector wells to mobilize heavy oil; and e) producing said mobilized heavy oil and condensed steam from said horizontal producer well and simultaneously producing said NCS from said vertical producer wells. 2. The method of claim 1 , wherein said steam and said NCS for step d) are produced for said method using a direct steam generator (DSG). 3. The method of claim 1 , wherein steam is injected in step d) at a first depth that is higher than a second depth from which said NCS is produced in step e). 4. The method of claim 1 , wherein steam is first injected in step d) at a first depth and later in step d) injected at a second depth that is higher than said first depth and higher than a third depth from which said NCS is produced in step e). 5. The method of claim 1 , wherein more of said mobilized heavy oil is produced per day than a method using only a horizontal wellpair. 6. The method of claim 1 , wherein a said startup period is reduced as compared with a method using only a horizontal wellpair. 7. The method of claim 1 , wherein said produced NCS is recycled for use in step d of said method. 8. The method of claim 1 , wherein said NCS comprises N 2 or CO 2 . 9. The method of claim 1 , wherein said vertical injector wells are fitted with active flow control devices, and wherein steam in step c) is injected at a first depth and in step d) is injected at a second depth that is higher than said first depth and higher than a third depth from which said NCS is produced in step e). 10. A method of heavy oil production, said method comprising: a. producing steam and CO 2 with a direct steam generator (DSG); b. injecting said steam and said CO 2 into a plurality of vertical injection wells, the plurality of vertical injection wells each along and terminating directly above a horizontal producer well; c. collecting mobilized heavy oil and water from said horizontal production well; d. collecting said CO 2 from a plurality of vertical production wells, the plurality of vertical production wells each along and terminating directly above said horizontal producer well; and e. recycling said collected CO 2 in step b. 11. The method of claim 10 , wherein said steam is injected at a first depth that is higher than a second depth from which said CO 2 is collected produced. 12. The method of claim 10 , wherein said steam is first injected at a first depth and later injected at a second depth that is higher than said first depth and higher than a third depth from which said CO 2 is collected. 13. The method of claim 10 , wherein said vertical injection wells alternate with said vertical production wells. 14. A method of producing heavy oil from a reservoir, said method comprising: a. providing a horizontal production well at a bottom of a heavy oil payzone, plus a plurality of vertical injector wells and a plurality of vertical producer wells along said horizontal production well and terminating directly above said horizontal production well; b. injecting steam into said vertical injector wells and said vertical producer wells until fluid communication is established; c. injecting steam and non-condensable solvent (NCS) into said vertical injector wells to mobilize said heavy oil; and d. producing said mobilized heavy oil and condensed steam from said horizontal producer well and simultaneously producing said NCS from said vertical producer wells. 15. The method of claim 14 , wherein said NCS is N 2 or CO 2 . 16. The method of claim 14 , wherein said vertical injector wells are fitted with active flow control devices, and wherein said steam in step b) is injected at a first depth and is injected in step c) at a second depth that is higher than said first depth and higher than a third depth from which said NCS is produced in step d). 17. The method of claim 14 , wherein said NCS from step d) is recycled for use in step c) of said method. 18. An improved method of heavy oil production using a direct steam generator (DSG), said method comprising injecting steam and CO 2 from said a DSG into a horizontal injection well of a horizontal wellpair and collecting mobilized heavy oil, CO 2 and water from a horizontal production well of said horizontal wellpair, the improvement comprising: injecting said steam and said CO 2 from said DSG into a plurality of vertical injection wells, the plurality of vertical injection wells each along and terminating directly above a horizontal producer well, collecting mobilized heavy oil and water from said horizontal producer well, and collecting said CO 2 from a plurality of vertical production wells, the plurality of vertical production wells each along and terminating directly above said horizontal producer well, wherein the vertical injection wells alternate with the vertical production wells, and wherein more of said mobilized heavy oil is produced per day than a method using only said horizontal wellpair. 19. The method of claim 18 , wherein said steam is injected at a first depth that is higher than a second depth from which said CO 2 is collected. 20. The method of claim 18 , wherein said steam is first injected at a first depth and later injected at a second depth that is higher than said first depth and higher than a third depth from which said CO 2 is collected.