System and method to reduce fluid production from a well

What is claimed is: 1. A method to reduce fluid production in a well, the method comprising: performing a production simulation of a reservoir model comprising a production tool with an inflow control device of a plurality of inflow control devices; and determining a parameter for the inflow control device to reduce fluid production through the inflow control device based upon the production simulation, wherein the determining the parameter for the inflow control device comprises: determining a reference time from the production simulation where fluid production is above a predetermined level for a majority of the plurality of inflow control devices; choosing a reference inflow control device from the plurality of inflow control devices comprising a maximum allowable fluid production at the reference time, the maximum allowable fluid production being a ratio of a volume of water production to volume of overall fluid production; and adjusting, with respect to the reference inflow control device, at least one parameter for the plurality of inflow control devices with fluid production above the maximum allowable fluid production. 2. The method of claim 1 , wherein the parameter comprises at least one of a size of a nozzle of the inflow control device, a number of nozzles of the inflow control device, and a location of the inflow control device. 3. The method of claim 1 , wherein adjusting the at least one parameter for the plurality of inflow control devices comprises reducing a size of a nozzle for the plurality of inflow control devices. 4. The method of claim 1 , wherein the adjusting at least one parameter for the plurality of inflow control devices comprises adjusting the at least one parameter for the plurality of inflow control devices such that fluid production through each of the plurality of inflow control devices is substantially the same. 5. The method of claim 1 , further comprising: performing an adjusted production simulation of the reservoir model comprising the production tool with the plurality of inflow control devices comprising the adjusted parameters; and comparing the production simulation with the adjusted production simulation of the reservoir model to determine if fluid production is reduced for the adjusted production simulation. 6. The method of claim 5 , wherein, if fluid production is not reduced for the adjusted production simulation, the method further comprising: choosing a second reference time later than the first reference time from the production simulation; choosing a second reference inflow control device from the plurality of inflow control devices comprising a second maximum allowable fluid production at the second reference time; and adjusting, with respect to the second reference inflow control device, the at least one parameter for the plurality of inflow control devices with the production of fluid above the second maximum allowable fluid production. 7. The method of claim 1 , wherein the maximum allowable fluid production is a ratio of about 0.1 water production to volume of overall fluid production. 8. The method of claim 1 , wherein the reference time is more than about 100 days, and wherein the predetermined level for fluid production is a ratio of about 0.1 water production to volume of overall fluid production. 9. A system to reduce fluid production in a well, the system comprising a production tool, a processor, and a memory, wherein the memory stores a program comprising instructions for: performing a production simulation of a reservoir model comprising the production tool with an inflow control device of a plurality of inflow control devices; and determining a parameter for the inflow control device to reduce fluid production through the inflow control device based upon the production simulation, wherein the determining the parameter for the inflow control device comprises; determining a reference time from the production simulation where fluid production is above a predetermined level for a majority of the plurality of inflow control devices; choosing a reference inflow control device from the plurality of inflow control devices comprising a maximum allowable fluid production at the reference time, the maximum allowable fluid production being a ratio of a volume of water production to volume of overall fluid production; and adjusting, with respect to the reference inflow control device, at least one parameter for the plurality of inflow control devices with fluid production above the maximum allowable fluid production. 10. The system of claim 9 , wherein the parameter comprises at least one of a size of a nozzle of the inflow control device, a number of nozzles of the inflow control device, and a location of the inflow control device. 11. The system of claim 9 , wherein adjusting the at least one parameter for the plurality of inflow control devices comprises adjusting the at least one parameter for the plurality of inflow control devices such that fluid production through each of the plurality of inflow control devices is substantially the same. 12. The system of claim 9 , further comprising: performing an adjusted production simulation of the reservoir model comprising the production tool with the plurality of inflow control devices comprising the adjusted parameters; comparing the production simulation with the adjusted production simulation of the reservoir model to determine if fluid production is reduced for the adjusted production simulation; wherein, if fluid production is not reduced for the adjusted production simulation, the method further comprising: choosing a second reference time later than the first reference time from the production simulation; choosing a second reference inflow control device from the plurality of inflow control devices comprising a second maximum allowable fluid production at the second reference time; and adjusting, with respect to the second reference inflow control device, the at least one parameter for the plurality of inflow control devices with the production of fluid above the second maximum allowable fluid production. 13. A method to reduce fluid production in a well, the method comprising: performing a production simulation of a reservoir model comprising a production tool with a plurality of inflow control devices for an expected lifetime of the well; determining a reference time from the production simulation where fluid production is above a predetermined level for a majority of the plurality of inflow control devices; choosing a reference inflow control device from the plurality of inflow control devices comprising a maximum allowable fluid production at the reference time, the maximum allowable fluid production being a ratio of a volume of water production to volume of overall fluid production; and adjusting, with respect to the reference inflow control device, at least one parameter for the plurality of inflow control devices with fluid production above the maximum allowable fluid production. 14. The method of claim 13 , wherein adjusting the at least one parameter for the plurality of inflow control devices comprises reducing a size of a nozzle for the plurality of inflow control devices. 15. The method of claim 13 , further comprising: performing an adjusted production simulation of the reservoir model comprising the production tool with the plurality of inflow control devices comprising the adjusted parameters for the expected lifetime of the well; and comparing the production simulation with the adjusted production simulation of the reservoir model to determine if fluid production is re