Enhanced oil recovery screening model

The invention claimed is: 1. A process for enhancing hydrocarbon production where the process comprises: a) mechanistic modeling of one or more enhanced oil recovery process (EOR) in two or more hydrocarbon reservoirs, b) identifying parameter ranges including a maximum, minimum and median value for one or more available screening parameters, c) generating one or more three dimensional reservoir models using experimental design methods with the parameter ranges identified, d) simulating the process for each hydrocarbon reservoir, e) developing a response surface to correlate oil recovery at different times of EOR with one or more available screening parameters, wherein the response surface consists of: Y=A+B 1 X 1 +B 2 X 2 . . .+C 1 X 1 X 2 +C 2 X 1 X 3 +. . .+D 1 X 1 2 +D 2 X 2 2 +. . . wherein X 1 , X 2 through X n are available screening parameter, wherein X n represents the final available screening parameter, wherein A, B i , C i , D i , through N i are calculated coefficients for each available screening parameter, wherein i represents the available screening parameter, wherein N represents the final coefficients and wherein Y is projected oil recovery during EOR, and f) testing the response surface for each EOR with multiple random simulations. 2. The process of claim 1 , wherein an EOR screening model is validated against field data for one or more reservoirs being screened. 3. The process of claim 1 , wherein the mechanistic modeling uses one or more reservoir simulators selected from the group consisting of ECLIPSE™, NEXUS®, MERLIN™, MAPLESIM™, SENSOR™, STARS™, ROXAR TEMPEST™, JEWELSUITE™, UTCHEM™, and a custom simulator to generate the three dimensional reservoir model. 4. The process of claim 1 , wherein the EOR is selected from the group consisting of thermal, gas, chemical, biological, vibrational, electrical, chemical flooding, alkaline flooding, micellar-polymer flooding, miscible displacement, CO 2 injection, N 2 injection, hydrocarbon injection, steamflood, in-situ combustion, steam, air, steam oxygen, polymer solutions, gels, surfactant-polymer formulations, alkaline-surfactant-polymer formulations, alkaline-polymer injection, microorganism treatment, cyclic steam injection, surfactant-polymer injection, alkaline-surfactant-polymer injection, alkaline-polymer injection, vapor assisted petroleum extraction or vapor extraction (VAPEX), water alternating gas injection (WAG) and steam-assisted gravity drainage (SAGD), warm VAPEX, hybrid VAPEX and combinations thereof. 5. The process of claim 1 , wherein the one or more available screening parameters are selected from the group of screening parameters consisting of: remaining oil saturation (all), residual oil saturation (all), residual water saturation (CO 2 , HC), oil viscosity/water viscosity (CO 2 , HC), oil viscosity/gas viscosity (CO 2 , HC), minimum miscibility pressure/reservoir pressure (CO 2 , HC), oil viscosity/polymer viscosity (polymer, SP, ASP, AP), Dykstra Parson coefficient, Kz/kx, acid number (AP and ASP), surfactant/alkaline concentration in slug (SP and ASP), chemical slug size (SP, ASP, AP), polymer drive slug size (polymer, SP, ASP, AP).