Per Jørgensen, CEO of Vind-Vind, explained: “At present, there are two ways to measure wind movement, either low resolution at a long distance of several kilometres or high resolution over a short distance of a few hundred meters. We created a new LIDAR-based instrument to measure long distances at a high resolution. Key to this is the ability of the Spectrum digitizer card to capture the data at its very high sampling rate of 3.2 GigaSamples per second with 12 bit resolution. This is actually more than we need but it gives us the margin to allow for ‘noisy’ conditions and weak signals. The extra bandwidth also means that we can immediately identify and filter out high frequency noise leaving only low frequency noise to be eliminated later when processing the data.”

Watch the wind simulation video (11 sec):

As can be imagined, keeping track of a vast number of dust particles moving in the wind generates a huge amount of data. Vind-Vind was initially going to use an FPGA platform but rejected this approach as being too complex to programme and not having enough compute power to handle the large amount of data being created every second. The data problem was solved by using Spectrum’s SCAPP drivers (Spectrum’s CUDA Access for Parallel Processing). In this solution, the M5i digitizer with its 16-lane PCIe interface sends the collected data with up to 12.8 GigaByte per second directly to a CUDA-based graphics card instead of the PC CPU. The graphic card, in this case a Nvidia Quadro A4000 including a GPU with 6,144 cores, is processing the data much faster than the CPU of the PC with only 6 or 8 cores.

Vind-Vind’s initial goal for its computer modelling is to assess how the turbulence compares to the measured turbulence over an urban environment. After that, turbulence modelling will be improved to include the effects of a higher section of the atmosphere with wind gusts from different directions. Accurate data gathered in the real world can then be used to verify and validate the predictions of the 3D computer simulation. “With proven accuracy, our 3D wind modelling can be used to provide greater levels of safety and wind comfort as it will predict the complex nature of the real world, and not the constrained version of the wind tunnel” added Jorgensen. “Eventually it will mean that the considerable over specification that architects have to build in because of the inaccuracy of wind tunnel models can be reduced. This means improving sustainability and saving costs by cutting down on the unnecessary use of materials.”

The company envisages that its 3D wind modelling will prove invaluable for the many situations where typical wind tunnels cannot provide useful results such as the complex wind interactions of atmospheric turbulence with urban environments, clusters of wind turbines, bridges or airports.

Vind-Vind consists of two sister companies: PJ Science ApS has its focus on producing and selling the innovative LIDAR systems, and Vind-Vind ApS is the consulting company doing wind analysis for the construction industry. More info:  www.vind-vind.dk