Higher Boards Via Science
So what do all these findings inform us? Finally, we’re quantifying how the board contour and different elements will be optimized to decrease drag. Drag undoubtedly impacts a board’s efficiency and your enjoyment out on the water by slowing you down and making you’re employed tougher. By understanding precisely which areas create drag and in what quantities, we will higher optimize our designs to scale back drag, improve stability and and glide, and provide the greatest SUP expertise on the water!
We’re all the time within the lab working exhausting to get essentially the most out of our gear and making use of the insights we uncover again into the designs and shapes of our paddleboards. Though it would appear to be the answer is to only create slim boards with a tapered nostril and tail to reduce drag, the advanced interaction of things comparable to stability, quantity, and supposed use, need to be considered. Preserve a watch out for extra tech associated posts like this one going ahead.
The extra we perceive about exactly the place and the way drag impacts a SUP within the water, the higher we’ll be at delivering the right mix of efficiency and stability for any SUP exercise or use. With the assistance of CFD, we will create extra correct fashions, carry out extra related assessments, and attain extra impactful conclusions. With these enhanced methods as a part of our analysis and growth course of we’re stoked to push the game ahead!
To paraphrase Matt Damon’s character within the Martian, “Within the face of overwhelming odds, we’re left with just one possibility. We’re gonna need to science the s*** out of this.”