First of all, and this is rather hilarious, ion thrusters are as sensitive to dust as a neat freak in a sandstorm. This is because ion thrusters rely on precise electric fields, which can be disrupted by dust accumulation. In addition, the ionization of air produces ozone (O3), a potentially harmful byproduct that is not really appreciated potentially harmful that is not really welcome inside. Ventiva claims to have solutions to both of these problems, using patented technology that is currently confidential for the first problem, and using a manganese dioxide catalyst (MnO2) which converts ozone into oxygen. Ventiva claims, unsurprisingly, that its technology meets safety standards, but it could be difficult to convince consumers.
But perhaps the most glaring limitation of Ventiva’s solid-state cooling system is its low static pressure, which is just 12 pascals, which is comically lower than laptop fans, which have a high static pressure, of the order of 45 pascals. This allows them to suck air into tight spaces, which is essential for a thin and light laptop. To realize the potential of ICE technology, laptop manufacturers will need to completely rethink the internal layout to optimize airflow and minimize resistance. This will inevitably translate into higher prices for consumers, especially considering that Ventiva’s ICE cooling system is almost guaranteed to be much more expensive to integrate than typical fans.
Regardless, it is extremely difficult to predict the future of any technology. If Ventiva’s ICE cooling solution works well enough, it’s only a matter of time before laptop makers rush to adopt it. After all, who wouldn’t want a quiet system that dissipates heat just as well as a fan-based system?
Do you care about quiet performance? Buy the impressive Mac Mini M4 on Amazon, available for $579 at the time of writing.
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