Portable aeroacoustic wind tunnel and method of testing a vehicle for wind noise

What is claimed is: 1. A portable aeroacoustic wind tunnel system for testing a vehicle, comprising: a first wind tunnel module; a second wind tunnel module that is configured to be assembled to the first wind tunnel module; a control building, wherein the wind tunnel modules and the control building are independently transportable to be temporarily installed outdoors at a vehicle assembly plant; and a nozzle defining a discharge opening, wherein the vehicle is positioned behind the discharge opening and angularly oriented to simulate a yaw angle of ±10°. 2. The system of claim 1 further comprising: a nozzle defining a discharge opening of at least 50 square feet that provides an air flow through the nozzle at speeds of up to 130 kph. 3. The system of claim 1 wherein the wind tunnel modules are installed on an asphalt surface having less than a 1% grade. 4. The system of claim 1 wherein the wind tunnel modules are installed on a gravel surface having less than a 1% grade. 5. The system of claim 1 wherein a background noise as measured in the vehicle disposed behind the nozzle is more than 10 decibels less than a wind noise to be measured in the vehicle. 6. The system of claim 1 wherein a background noise generated while portable aeroacoustic wind tunnel system producing a 130 kph stream of air as measured 2 meters downstream from an exit plane of the nozzle with no vehicle in the air stream is less than 82 dB at 125 Hz, 75 dB at 250 Hz, 71 dB at 500 Hz, 66 dB at 1000 Hz, 61 dB at 2000 Hz, and 66 dB at 4000 Hz. 7. A portable aeroacoustic wind tunnel system comprising: a first wind tunnel module; a second wind tunnel module that is configured to be assembled to the first wind tunnel module; a control building, wherein the wind tunnel modules and the control building are independently transportable to be temporarily installed outdoors at a vehicle assembly plant; and one or more fans, disposed in the first and second wind tunnel modules and wherein the control building is electrically connected to the wind tunnel modules to control the fans. 8. The system of claim 1 wherein the control building further comprises: at least one window, and wherein the control building is positioned for visually observing a vehicle through the window during testing. 9. The system of claim 1 further comprising: a portable generator; and a fan, wherein the portable generator is electrically connected to the control building and the fan to provide power for the fan and the control building. 10. A method of testing a vehicle for wind noise with an open circuit aeroacoustic wind tunnel formed in at least two modules and a control building, comprising: assembling the modules together outdoors at a vehicle assembly plant; positioning the control building adjacent the wind tunnel; positioning the vehicle behind a wind tunnel discharge nozzle at a simulated yaw angle of ±10°; and blowing air on a vehicle equipped with one or more microphones. 11. The method of claim 10 further comprising: disassembling the two modules for transportation to a second vehicle assembly plant. 12. The method of claim 10 further comprising: transporting the two modules individually and the control building each on a separate transport vehicle to the vehicle assembly plant. 13. The method of claim 10 wherein the wind tunnel includes at least one fan, the method further comprising: providing a portable generator; and connecting the portable generator electrically to the at least one fan of the wind tunnel. 14. A method of testing a vehicle for wind noise with an open circuit aeroacoustic wind tunnel formed in at least two modules and a control building, comprising: assembling the modules together outdoors at a vehicle assembly plant positioning the control building adjacent the wind tunnel; positioning the vehicle behind a wind tunnel discharge nozzle; blowing air on a vehicle equipped with one or more microphones; and measuring a background noise 2 meters downstream from an exit plane of the discharge nozzle while the open circuit aeroacoustic wind tunnel is producing a 130 kph stream of air with no vehicle in the air stream to determine whether the background noise is more than a predetermined level over a range of frequencies between 125 Hz and 4000 Hz. 15. A method of testing a vehicle for wind noise with an open circuit aeroacoustic wind tunnel formed in at least two modules and a control building, comprising: assembling the modules together outdoors at a vehicle assembly plant; positioning the control building adjacent the wind tunnel; positioning the vehicle behind a wind tunnel discharge nozzle; blowing air on a vehicle equipped with one or more microphones; and measuring a background noise in the vehicle to determine whether the background noise is more than 6 decibels less than the wind noise to be measured in the vehicle during a test. 16. The method of claim 10 wherein the step of assembling the two modules is performed on a surface without a structural foundation.