3 votes Making an improved multi-blade forge blower Posted June 3, 2022 by cfabbro Tags: survivalism, homesteading, pottery, clay, smelting, forging, blacksmithing, author.john plant, videos, primitive technology https://www.youtube.com/watch?v=fR9u2oLHFN8 Link information This data is scraped automatically and may be incorrect. Title Primitive Technology: Improved Multi-Blade Blower Authors Primitive Technology Duration 7:49 Published Jun 2 2022 1 comment Collapse replies Expand all Comments sorted by most votes newest first order posted relevance OK cfabbro (OP) June 3, 2022 Link Obligatory: - Don't forget to turn on the closed captioning before watching the video - Link to his Patreon - Video description Obligatory: - Don't forget to turn on the closed captioning before watching the video - Link to his Patreon - Video description About This Video: In the 6 years since I developed the first forge blower (https://youtu.be/VVV4xeWBIxE) I had made very few improvements to it's design. So I decided to do some research and development to see if I could improve it's efficiency. From my research, increasing the number of fan blades from 4 to 8 yielded an increase of 19% volume of airflow. So I set about building a better fan. Instead of splitting the rotor and inserting blades made of bark into it, I made spokes from split cane to hold the blades leaving the rotor intact. This increased the longevity of the rotor as well as the spokes being heavier contributing more momentum, assisting the impeller in winding back in the other direction after each rotation. Instead of bark being used to for the blades, simple (and easier to find) folded leaves formed the blades. These, being flexible, are less likely to break against the walls of the housing as stiff bark does. Finally, a lid was added to the housing to make maintenance easier. The new blower works better than the old one with more airflow occurring. I experimented with different numbers of blades on the impeller (4,6 and 8). The more blades used, the slower the impeller can be spun to produce the same airflow. This makes it easier to operate as the users arms don't have to move as quickly, making it more ergonomic. This conservation of effort will be important in iron smelting later.