FCD modeling

The invention claimed is: 1. A method of modeling the behavior of a flow control device (FCD), comprising: a) obtaining a first reference FCD of a given architecture; b) measuring performance data from said reference FCD at a first flow resistance rating (FRR) to produce a first dataset; c) measuring performance data from said first reference FCD at a second FRR to produce a second dataset; d) using the first and second dataset to estimate a modified dataset corresponding to a third FRR; e) fitting a model to said modified dataset to produce a fitted model; and f) using said fitted model to produce a prediction of FCD behavior of the reference FCD at said third FRR or a fourth FRR, thereby allowing prediction of production performance of a well fitted with FCDs using a reservoir simulator. 2. The method of claim 1 , wherein said performance data includes measuring FCD performance at two or more viscosities, two or more steam qualities, and two or more pressures, and wherein each is separately scaled to generate a modified dataset. 3. A method of modeling the behavior of an FCD in a steam based oil recovery well, comprising: a) obtaining a first reference FCD of a given architecture; b) measuring performance data from said reference FCD at a first FRR to produce a first dataset, wherein said first dataset includes oil tests at two or more temperatures, unsaturated water flow tests at two or more pressures, and steam tests at two or more steam percentages; c) measuring performance data from said reference FCD at a second FRR to produce a second dataset, wherein said second dataset includes oil tests at two or more temperatures, unsaturated water flow tests at two or more pressures, and steam tests at two or more steam percentages; d) using the first and second data set to estimate a modified dataset corresponding to a third FRR, wherein data from oil tests, unsaturated water flow tests and steam tests are each scaled separately; e) fitting a model to said modified dataset to produce a fitted model; and f) using said fitted model to produce a prediction of FCD behavior of the reference FCD at said third FRR or a fourth FRR to produce a final fitted model, wherein said final fitted model is used in a reservoir simulator to predict the performance of a steam based oil recovery well. 4. The method of claim 1 or 2 , wherein said model predicts a differential pressure of a fluid that includes both water and steam through stages separated by chokes of a well flow control device based on the following equation to estimate the amount of steam that flashes: (( H Li −H Lo )/( H Vo −H Lo ))* Sk, where H Li is liquid enthalpy at pressure going in the choke, H Lo is liquid enthalpy at pressure out of the choke, H Vo is vapor enthalpy at pressure out of the choke and Sk is a scaling factor for amount of the steam that is released between the stages; and simulating hydrocarbon production using the differential pressure that is predicted. 5. The method of claim 1 or 2 , wherein said fitted model is used to predict the performance of a steam assisted gravity drainage (SAGD) well. 6. A method of predict the performance of a SAGD well completed with a plurality of FCDs, comprising: a) obtaining a first reference FCD of a given architecture; b) measuring performance data from said reference FCD at a first flow resistance rating (FRR) to produce a first dataset; c) measuring performance data from said reference FCD at a second FRR to produce a second dataset; d) using the first and second data set to estimate a modified dataset corresponding to a third FRR; e) fitting a model to said modified dataset to produce a fitted model; f) using said fitted model to predict the performance of the reference FCD at a third FRR or a fourth FRR; and g) using said fitted model in a reservoir simulator model to predict the production performance of a SAGD well fitted with test FCDs having a test FRR. 7. The method of claim 6 , wherein said performance data includes measuring performance of said FCD at two or more viscosities, two or more steam qualities, and two or more pressures, and wherein each is separately scaled to generate a modified dataset. 8. The method of claim 6 , wherein a variety of test FRRs are tested in step g. 9. The method of claim 6 , wherein a variety of test FCDs having different architectures are tested in step g. 10. The method of claim 6 , wherein a variety of test FRRs are tested and a variety of test FCDs having different architectures are tested in step g. 11. The method of any one of claims 6 - 10 , wherein said model predicts a differential pressure of a fluid that includes both water and steam through stages separated by chokes of a well flow control device based on the following equation to estimate the amount of steam that flashes: (( H Li −H Lo )/( H Vo −H Lo ))* Sk, where H Li is liquid enthalpy at pressure going in the choke, H Lo is liquid enthalpy at pressure out of the choke, H Vo is vapor enthalpy at pressure out of the choke and Sk is a scaling factor for amount of the steam that is released between the stages; and simulating hydrocarbon production using the differential pressure that is predicted.