PDF download Download Article
Revealing the secrets to air multiplying fans
PDF download Download Article

Bladeless fans can seem like some sort of magic. How does a fan without blades manage to move any air? Well, there’s one sneaky little secret to the trick: bladeless fans actually do have blades, you just can’t see them. But there’s more to it than that. Namely, there are some pretty clever physics at play that let these mystifying devices do their thing. We’ll let you in on the secret of how bladeless fans work, how they differ from traditional fans, and the best bladeless fans on the market right now.

Things You Should Know

  • Bladeless fans have a hidden propeller in their base, which draws air into the pedestal and up into the bladeless ring.
  • The air exits through the ring, which is shaped in such a way that the expelled air pulls even more surrounding air into and through the ring.
  • Bladeless fans are more powerful, safer, quieter, use less energy, and are more expensive than their bladed counterparts.
Section 1 of 3:

How do bladeless fans work?

PDF download Download Article
  1. That’s right, bladeless fans aren’t actually bladeless. It’s a tad misleading, since there is actually a propeller with blades concealed in the base of the fan, which takes in air through the vents in the fan’s pedestal. [1] These fans are “bladeless” because you don’t see the blades, not because they don’t have them!
  2. Once inside the base of the fan, air is directed up into the ring of the fan. Then, the air is expelled out through a slot in the fan’s ring. This slot spans the entire length of the ring, creating a circle of flowing air. [2]
    Advertisement
  3. The inside of the fan’s ring is shaped like a slight cone, and the expelled air exits the wider end of the cone. This movement creates what’s known as “negative pressure” around the ring of the fan. The air around the fan wants to fill this area of negative pressure, and so more surrounding air is directed or sucked through the fan, creating a more intense breeze. [3]
    • “Negative pressure” occurs because the air inside the ring is moved out of the ring, and so more air is pulled into the ring in order to equalize the pressure.
    • This phenomenon of air getting sucked into the ring of the fan due to negative pressure is known as “inducement.”
  4. As the air is expelled through the fan’s ring, it pulls additional air outside the ring along with it. This process is called “entrainment,” and adds to the overall airflow created by the fan. [4] Note that the air is “multiplied” now in 2 different ways: air pulled in through the ring, and air pulled along from outside the ring as the air inside the ring exits. By the time the air exits the fan, its flow is about 15 times more intense than when it started, all thanks to some clever physics!
    • The physics that make bladeless fans possible, namely air inducement and entrainment, are the same physics that lift an airplane as air flows over its wings.
  5. Advertisement
Section 2 of 3:

How are they different from standard fans?

PDF download Download Article
  1. A traditional fan merely pushes air with its blades. Though many of the same principles are in play—air still pulls more air along as it passes through the blades—bladeless fans optimize this process with their clever design, which takes full advantage of physics.
  2. Because the “blades” of a bladeless fan are tucked away in its base, they pose less danger, especially to curious infants and pets. [5] While most traditional fans are surrounded by a cage, the cage may break or fail to prevent children from sticking their fingers into the fan itself.
  3. The original Dyson bladeless fans had something of a noise problem, but later redesigns smoothed out the harsh noise. Bladeless fans are now typically much quieter than their bladed counterparts, which makes for a cooler, more peaceful space. [6]
  4. Heating and cooling typically comprise the largest percentage of your energy bills, so you want to lower that however possible. Bladeless fans are capable of circulating air much faster than traditional fans, which cools any given space much faster, which lowers the amount of power needed to stay cool yourself. [7]
  5. While bladeless fans may offer better airflow and safety, they also are significantly more expensive, due to their highly engineered design. In addition, many bladeless fans now come with additional features, like remote controls and air purifying or even heating capabilities, which will cost you more. [8]
  6. Advertisement
Section 3 of 3:

What are the best bladeless fans?

PDF download Download Article
  1. The Dyson TP01 is the base, flagship Dyson bladeless fan. It has a built-in air purifier, and can cool any large room. Dyson pioneered and originated the bladeless fan technology, so the company’s own bladeless fans are top-of-the-line. That said, it will run you a hefty $300. [9]
  2. If you’re looking for a step up in the Dyson line, the Pure Hot + Cold is just the ticket. It includes a space heating function along with the built-in air purifier, and is WiFi enabled so you can pair it with the Dyson app to monitor your space’s air quality and remotely control the machine. All those features don’t come cheap, though, and this model costs about $900 [10]
  3. The Dreo Bladeless Fan is the optimal compromise between price and functionality. True, it’s not the brand-name workhorse the Dyson fans are, but for $80 you get 6 customizable speeds at a quiet 34 decibels, with 90 degrees of oscillation and a 12-hour timer. [11]
  4. If you’re on an (understandably) tighter budget, the Lasko Wind Curve will suit you well. It’s not as pretty as a Dyson, and it’s a bit noisier, but for a modest $60 it provides ample airflow in an unobtrusive form factor.
  5. Advertisement

Expert Q&A

Ask a Question
      Advertisement

      Video

      Tips

      Submit a Tip
      All tip submissions are carefully reviewed before being published
      Name
      Please provide your name and last initial
      Thanks for submitting a tip for review!

      About This Article

      Thanks to all authors for creating a page that has been read 41,097 times.

      Did this article help you?

      Advertisement