This project uses Simulink and Stateflow to create an Arduino-based oscillating fan.
At Akihabara Hackerspace, we have automated the ventilation process with CO2 monitors, a fan, AWS IoT Edukit, and IoT-related AWS Services.
Make a fan turn on when it reaches a certain temperature.
An API for monitoring and managing a greenhouse over the web with a Tessel.io
A basic guide teaching you how to set up a dual cooling fan and thermal tape on your Raspberry Pi for increased cooling and performance.
When it gets too hot
Testing out Raspberry Pi 4's temperature profile with and without fan(s) using ProtoStax for Raspberry Pi B+/Model 4B enclosure/case.
Let’s learn how to make a remote control fan using Seeeduino XIAO expansion board
Implementation for an easy fan CPU cooler to maintain your Raspberry Pi server in a normal temperature range.
A Bongilcheon High School FabLab Academy final project: this is a project that allows the ventilation shaft to be activated automatically.
Hack a low cost fan, connect it over wifi and control it from anywhere.
Made a Fume Extractor by using a custom Attiny13 Based Motor driver board and 3D Printed Body,
Unless you're addicted to the lead fumes released while soldering (and lost a few braincells), you could totally use one of these.
Do some soldering? Dislike the fumes burning your eyeballs? Build a quick flexible fume fan to extract those fumes away like a boss.
Are you ever sitting in your room gaming with your friends and your room gets really warm? Our solution, an IOT temperature sensor!
I will design a practical temperature controller that controls temperature of any device.
A desktop "bladeless" fan that uses a 1100KV brushless motor and it's powered by 12 V DC.
Easily repeatable 120W bench power supply circuit. Cheap, fast project.
Cheap and effective solder fume extractor, using waste cpu cooling fans
Testing the Seeed Studio – ICE Tower CPU Cooling Fan for Raspberry Pi 4! How well does it cool the toasty new single-board computer?
Alexa Controlled Fan is perfect for anyone that simply doesn't want to leave bed or whatever they're doing to turn the fan on.
Using the the relative temperatures between two sensors to control an attic fan in order to improve the efficiency of your home's AC.
This PIC-IoT project turns a fan on and off based on a temperature sensor.
Are you tired of being too hot in the middle of the night when the fan is off, but too cold when its on? Now there is a solution.
