Even before the first Pentium era of the early 1990s, PC CPUs were already powerful enough to require meaningful and capable cooling setups to keep their temperatures in check. Although there were configurations that could make it by with passive cooling, most PCs were already relying on active cooling solutions. Not many years later, active cooling not only became a de facto requirement, but the high thermal loads generated by processors required that heatsinks have powerful and noisy fans. The pushback from this increasingly noisy era of computing, in turn, effectively spurred the modern market for high-end passive coolers for use in low-noise (but still high-performance) PCs.

The history of passive coolers for high-performance PCs is not very rich – the physics of heatsinks is a well understood field – but, occasionally, we would see some companies make a valiant effort to produce a passive cooler that would be viable on the open market. There were even instances where manufacturers tried to make the entire PC passively cooled, as Zalman’s effort 20 years ago with the hefty TTN-500AF case. Nevertheless, no solution was long-lived, mainly because the ever-rising power (and cooling) requirements would quickly overwhelm the capabilities of the passive coolers of the time.

But now in 2022, perhaps the world is ready for a change? To answer that question, in today’s review we are having a look at the NH-P1, a surprising passive CPU cooler released by one of the most reputable active PC cooler manufacturers, Noctua.

Having already established their name (and then some) with low-noise active coolers, Noctua has turned their attention to the final frontier of low-noise cooling: passive CPU coolers. And in order to accomplish this, Noctua has built a pure heatsink. A very, very large pure heatsink that's suitable for CPUs.

Throughout all of their history, Noctua has never made a purely passive cooler before, which makes the NH-P1 a remarkable product from the company. The company has significant experience with cooling with their traditional actively cooled products, but suffice it to say, moving a lot of heat without the help of forced airflow is a much bigger challenge – and one we're eager to see a company like Noctua undertake. So is the NH-P1's sheer size alone capable of withstanding the intense thermal loads of modern processors? Let's find out.

Noctua NH-P1 CPU Cooler Specifications
Height 158 mm
Width 154 mm
Depth 152 mm
Weight 1180 g
Supported Sockets Intel: LGA1700, LGA1200, LGA1156, LGA1155, LGA1151, LGA1150, LGA2066, LGA2011-0 & LGA2011-3 (Square ILM)

AMD: AM4, AM2, AM2+, AM3, AM3+, FM1, FM2, FM2+ (backplate required)
Warranty 6 Years
Price $110
 

Packaging & Bundle

The NH-P1 comes into a well-designed cardboard box, following the same simple artwork that Noctua is using for nearly all of their products. It is an elegant design, focused on delivering as much information as possible rather than relying on striking colors to catch the eye. The sheer size of the packaging hints that the NH-P1 is nothing alike any air cooler we have seen before. Inside the box, we found the cooler very well protected below layers upon layers of thick cardboard packaging. The supplied mounting hardware and extra items can be found in a smaller, compartmentalized cardboard box.

Aside from the typical mounting hardware necessary to mount the NH-P1 onto a CPU socket, Noctua also supplies a nice screwdriver, a tube of NT-H2 thermal grease, and a metallic case badge. And, while perhaps sacrilegious for what's meant to be a fully passive cooler, there are also two wire holders for installing a fan, should the user ever wish to do that.

The Noctua NH-P1 CPU Cooler

A simple glimpse on the Noctua NH-P1 is enough for anyone to realize that this is no run-of-the-mill CPU cooler. To begin with, the sheer proportions of the NH-P1 are massive beyond comparison. At 15.8cm x 15.4cm x 15.2cm (essentially a 6.5-inch cube), the NH-P1 dwarfs typical tower coolers – which are already pretty large – taking about three times the volume of a fully-assembled NH-U12S. And its 1.18kg weight makes it heavier than some laptop computers.

Considering both the size and the nature of the NH-P1, it is bound to face compatibility issues with both systems and cases, as well as limited compatibility with CPUs. To that end, Noctua provides detailed compatibility tables that include both system parts and PC cases, to help buyers get a better idea ahead of time over where the plus-sized passive cooler can fit.

Case compatibility aside, the NH-P1 supports nearly all modern CPU sockets, including Intel's LGA-11xx/1200 socket and latest LGA-1700 socket, as well as AMD’s socket AM4. Threadripper is left out in the cold, however, as it would not be possible for the NH-P1 to handle the extreme thermal requirements such a high-end processor.

Despite its massive proportions, the NH-P1 sports only thirteen fins. The fin spacing is nearly ten times that of a typical air cooler, and every single fin is perforated with 33 rectangular holes so as to optimize passive airflow. This configuration would make typical cooler fins too thin and flimsy, so Noctua greatly increased the thickness of each fin as well. Finally, the fins also are not pressed onto the heatpipes but soldered, ensuring the long-term mechanical strength of the cooler.

Six heatpipes are responsible for transferring the bulk of the thermal energy generated by the CPU onto the fins of the cooler. The heatpipes start from the base of the cooler, positioned exactly in parallel to each other, and extend to just one side of the base towards the top half of the fins in a symmetric fan pattern. They are made out of copper but are fully nickel-plated to prevent surface corrosion.

The base of the NH-P1 is almost typical for any modern heatpipe-based cooler, with the exception that six of the fins extend and are directly attached to the base itself. This is mostly to increase the mechanical strength of the NH-P1, as the colossal fin array could not be reliably supported by the heatpipes alone. Yet it may also be playing a little part in the thermal performance of the cooler as well by allowing a little bit of thermal energy to transfer directly from the base towards the fins.

The bottom half of the base is made out of nickel-plated copper, maximizing the heat transfer rate from the CPU to the heatpipes. It is extremely well machined, perfectly flat, and smooth. The rest of the base serves only as a mechanical support and is mostly made out of aluminum, with the exception of the mounting bracket that is nickel-plated steel.

Testing Methodology
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  • Tom Sunday - Wednesday, February 16, 2022 - link

    I think with my other (total 6) rear, top and front case fans properly managed and active, that the NH P1 will be just fine for any required CPU cooling. With this I wish that passive cooling will be the future as anything mechanical and moving will always present problems and ongoing costs. Perhaps new and future chip development will ultimately reward us with cooling those not being required. Reply
  • JonTravisRyno - Sunday, November 27, 2022 - link

    Wouldn't the convective currents from the heat create airflow on their own? Is that not why they keep the fins so far apart? To facilitate that?

    If something is hot enough you can see these currents flowing pretty good, and the hotter the thing gets, the faster it flows.
    Reply
  • JonTravisRyno - Sunday, November 27, 2022 - link

    I feel like you'd mainly want to make sure that heat isn't getting trapped at the top of the case, and also that any inlets at the bottom (where air may find its way in to replace the air that flows out the top) are not cut/positioned/angled so that the incoming cool air bypasses the bottom area of the heating. (This would probably lead to the bottom/sides of the heatsink "pulling" in mostly recirculated air from within the case. And who knows, maybe this can compound to cause a further reduction of the whole case in-out flow I'm such a scenario)

    ....if that last part is is case, you might find that if you positioned the intakes just right so that the heatsink is fed mostly by fresh, cool outside air that it might create and maintain a very efficient airflow cycle in and out of the case just from that heat alone.
    Reply
  • Spunjji - Wednesday, February 9, 2022 - link

    "You" in that sense would be a big chunk of this type of cooler's target audience. Moving parts are weak points, for sure, but having one 120mm FDB fan spinning at ~600rpm is hardly disastrous in that regard - and if your case has decent dust filtration at the intake, then you're probably going to get less of it on sensitive components than by having the sort of highly-ventilated chassis needed for fully-passive cooling. Reply
  • Oxford Guy - Wednesday, February 9, 2022 - link

    Passive systems are less affected by dust. Reply
  • Review - Saturday, February 12, 2022 - link

    Nice post Reply
  • olde94 - Thursday, February 10, 2022 - link

    it's not a desktop but a laptop, but i use an older laptop with an intel y-series passively cooled CPU in my workshop as any fan would cause saw dust to fill the internal. Reply
  • pSupaNova - Friday, February 11, 2022 - link

    Yes, I used to use the same too, now I use a Mac m1 Air as that has no fan.

    I think having a fan in a laptop is nearly as silly as putting one in a smartphone.
    Reply
  • oleguy682 - Monday, February 7, 2022 - link

    Is the intent of this cooler to be used in a completely passive setup? Or is it relying on airflow from other components such as a case fan, PSU, etc? I ask because the Testing Methodology makes no mention of any kind of ambient airflow, which means this would be a worst-case scenario for the product. Even in a build meant to be nearly silent, there will be some kind of airflow. That airflow would add forced convection, which would do much more than the passive convection the test setup seems to provide.

    This product seems like one of those edge cases where an open bench test rig isn't going to come close to creating real-world results.

    Don't get me wrong, this is
    Reply
  • fcth - Monday, February 7, 2022 - link

    Yeah, I imagine this is intended to operate with a case fan nearby drawing air across it. I actually have that setup in my HTPC, fanless heatsink on the processor (currently a i3-9100F, though it previously had an i5-2500k), but with two 120mm fans in the case so there's some airflow. Reply

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