When most people imagine wind turbines, they think of huge wind farms dominating the landscape with pristine, sleek, white towers, or perhaps instead think about old-fashioned windmills in an idyllic Dutch landscape. While there is a place for both these large-scale types of wind harvesting in the world, it’s well worth a look at smaller wind turbines as well, particularly those that could be used in remote locations.
These small installations could have a huge impact on communities relying on them for power — and this is exactly the stance one Canadian PhD candidate has in mind. Kyle Bassett, a student at the University of Windsor, has created a project called “A Small Turbine to Make a Big Difference,” and is pitching his plan for 3D printed wind turbines now for use in far-flung villages and other remote areas.
Bassett, who is familiar with the needs inherent in a small, remote community from the year-and-a-half he spent living in Venecia, Nicaragua. Life in Venecia looked to be beautiful…unless you wanted to use electricity. As so often has happened throughout human history, necessity was the mother of invention, and Bassett got to work designing a small-scale wind turbine that could function in any weather conditions to convert wind energy to storable power thanks to a generator that could turn the system into a direct USB charging station or could charge up a lithium-polymer (LiPo) battery pack for portable use.
When looking at the turbine design, the most striking aspect is simply their look; these don’t look like the standard turbines dotting the roadsides all around (or maybe we just have a bunch around Cleveland, and I’ve gotten used to them). The unique sail blade design enables the blades to catch whatever wind there may be, even on seemingly still days, via their vertical-axis array. The vertical-axis design also allows for the entire unit to be packed up into a compact tube, just 100 cm x 10 cm, to transport — and then requires only two minutes to set up once ready for installation on-site to produce about 5V USB power.
Importantly, Bassett’s design is sustainable. Bassett remarked that turning to 3D printing technology truly made possible the ultimate aspects of
The prototypes for the Venecia wind turbines have been almost entirely 3D printed. While they still require non-3D printed components like stepper motors, the large portion of 3D printing used allows for cost- and time-efficient manufacture.
Ahead of the Kickstarter campaign, which it seems may upgrade the equipment RMRD TECH has at hand, Bassett has been utilizing a PrintrBot 3D printer, which he has modified for his needs. The PrintrBot Simple Metal prints the turbine components in PLA. All this has been good enough for now, but Bassett admits that PLA, which is famously biodegradable, is not the best long-term choice for technology that might end up in a rainforest. He’s hoping to move to ABS at some point. The goal is also to keep total costs in the sub-$300 range, enhancing affordability as best possible.
Check out the video below where Kyle Bassett describes his project’s beginnings as well as his ideas for the Venecia wind turbines. More videos of the project’s work-to-date are available via YouTube and RMRD TECH’s Experience site.
What do you think of Bassett’s design? Let us know in the RMRD TECH Sustainable Wind Turbine Blades forum thread over at 3DPB.com.