When you live in a small apartment or if you want to keep things minimalist, you want to have appliances that can save you on space and clutter. But a lot of times, the ones that work the best are those that take up a lot of space and have huge storage. Or so we thought. There are now companies that have made it their mission to create the thinnest or slimmest things. Dyson is one of those. Dyson has unveiled its latest innovation in home cleaning technology: the PencilVac, touted as the world’s slimmest and most powerful cordless vacuum cleaner. With a diameter of just 38mm, comparable to Dyson’s Supersonic hair dryer, and weighing approximately 1.8 kilograms, the PencilVac combines minimalist design with advanced functionality, making it an ideal solution for compact living spaces and hard-to-reach areas. Designer: Dyson The PencilVac’s slender form factor houses Dyson’s newly developed Hyperdymium motor, the smallest and fastest the company has produced to date. Spinning at 140,000 RPM, this motor delivers 55 air watts (AW) of suction power, ensuring efficient cleaning despite the vacuum’s compact size.The device’s design allows it to lay nearly flat, with an operational height of less than 10cm, enabling it to clean under furniture and in tight spaces with ease. Departing from Dyson’s traditional cyclone technology, the PencilVac employs a two-stage linear dust-separation system that captures 99.99% of microscopic particles, releasing cleaner air back into the environment. Its unique Fluffycones cleaning head features four conical brush bars that rotate in opposite directions, effectively detangling long hair and ejecting it as small hairballs to prevent clogging. Additionally, green LED lights on either side of the brush head illuminate dust particles, ensuring thorough cleaning. The PencilVac is equipped with an LCD screen that displays battery life and power mode, providing users with real-time information during cleaning sessions. It offers up to 30 minutes of runtime in Eco mode and features a hot-swappable battery system for extended use.The vacuum also connects to the MyDyson app, allowing users to access settings, maintenance alerts, and usage statistics. Currently available in Japan, the PencilVac is expected to launch in the UK in 2026, with pricing details yet to be announced. Its combination of sleek design, powerful performance, and innovative features positions it as a compelling option for urban dwellers and those seeking a high-tech, space-saving cleaning solution. The Dyson PencilVac proves that powerful performance doesn’t have to come in a bulky package. It redefines what a vacuum cleaner can be: thin, light, and smart enough to keep up with modern lifestyles. Whether you’re tidying up a studio apartment or navigating the tight corners of a minimalist home, the PencilVac offers a sleek and intelligent cleaning companion that doesn’t compromise on efficiency. With Dyson continuing to push the envelope on innovation and form, the PencilVac might just be the future of compact home cleaning. The post Dyson shows off the slimmest but still powerful vacuum cleaner first appeared on Yanko Design.

Cases News Noctua Has Competition: HAVN Performance Fans, BF360 Case, & Engineering DataMay 23, 2025Last Updated: 2025-05-23We take an early look at HAVN’s new BF360 case and the company’s new unique fans at Computex 2025The HighlightsFor its new products, HAVN has put a heavy emphasis on thermal performance and acousticsHAVN’s upcoming BF360 case brings in new fans in the 180mm, 140mm, and 120mm categoriesHAVN’s 180mm fan uses a 40mm thick frame and special shaping on the hub for what HAVN claims will improve pressure performance across the hub Visit our Patreon page to contribute a few dollars toward this website's operation (or consider a direct donation or buying something from our GN Store!) Additionally, when you purchase through links to retailers on our site, we may earn a small affiliate commission.We visited HAVN’s lab in Taiwan during our Computex 2025 trip. We saw that they were experimenting with a 52mm thick fan for a case it was showing off. The company didn’t end up using that for its case and instead used a new fan design that we’ll discuss in this article.Editor's note: This was originally published on May 17, 2025 as a video. This content has been adapted to written format for this article and is unchanged from the original publication.CreditsHost, WritingSteve BurkeCamera, EditingVitalii MakhnovetsMike GaglioneWriting, Web EditingJimmy ThangDuring our visit, the company showed off its new BF360 case, which follows up their HS 420.  Taking a closer look at the company’s new fan design, you can see some careful shaping to the fan’s hub, which is supposed to help with guiding air flow. We’ll have to see how it performs in our testing, but the idea is taking a thicker fan approach and thickening it even more. The company ended up using a 40mm-thick fan, which should help with pressure.    The company also uses 2x180mm fans mounted to the front of the case.  While we were there, HAVN prepared some CFD simulations for the flow and some simulations for mechanical stresses, on the panel for example, which is pretty interesting.Taking a look at the BF360, the front panel pops out with a tug as it uses magnets to attach itself to the front of the case and has 3 plastic feet that help it snap in at the bottom. The interior of the case’s front panel has a removable fan tray. Its design is somewhat typical but refined from what we’ve seen. HAVN has done a lot of iterations on it. The top panel pulls off and its design is familiar to the HS 420 with its structural design. Once you remove the top panel, it exposes the case’s top fan/radiatory tray, which has rubber bumpers and a slide mechanism that lets you pull it out of the case, providing full access to the top of the chassis and should help with ease of installation. A lot of the steel on the case is either .8mm thick and there’s some that’s 1.0mm, which is thick by today’s standards. Taking a look at the backside of the case, we can see that it has marked cable management pathways, much like the HAVN HS 420 (read our review). This was kind of a nice thing for brand new system builders. Whereas the HS 420 used stickers, the BF360 incorporates it into the molding. Our understanding is that they may refine its design to try and get more light reflection so it’s easier to see. This is a nice attention to detail that adds to the ease of installation. HAVN learned from the HS 420 on the 3 and ½-inch drive support and improved its implementation. There are 2 bays on the back side of the case for those drives and they can be removed. HAVN also changed how it handles the grommets with the case. The string-like material in between is the same but there’s now a little rubber tab that helps to prevent it from popping out by accident once it’s filled with cables. The point here is that HAVN is trying to learn from what they’ve done with the HS 420 and to refine their designs. Taking a look at the BF360’s front panel, it’s supposed to look like stone, but is made of plastic as stone would be extremely heavy. Behind the front panel in the unit we saw are 2x180mm fans. HAVN has shoved a piece of steel at the top, which is supposed to prevent recirculation. This was a huge issue in old BitFenix cases, where due to the company’s design, it would recirculate hot air back into its fans. This design can improve performance in big ways.HAVN tells us that the best setup for the BF360 is to have the top front fan be intake and the top back fan be exhaust, providing you’re using 180mm fans on the top. This matches our testing for other cases in the past. We’ve also found that if you’re populated the top slots, doing intake in front of an air cooler works better because otherwise air gets in the front and would get stolen by an exhaust fan out of the top. The case we looked at had 4x180mm fans (2 in the front and 2 on top) and 1x140mm in the rear.   HAVN tried different types of power supply shroud designs. One had an angled scoop to bring in air from the front bottom 180mm fan. One design had what we’re calling a “toilet-bowl” design, but that ultimately didn’t go through. The next design we looked at featured a more cylindrical/conical design. We asked one of the company’s thermal engineers why that design didn’t work better as it looks like it would project air towards the GPU, which would be a hot spot, and the rep told us that going with a wider design ended up performing thermally better. HAVN provided us some numbers for that, which we’ll take a look at below, but we’ll eventually do our own testing if we can get an early sample. Taking a look at the first mock-up of the case, we can see some rails for the front fans. This design did not progress into the final. It uses a rail system and we’ve seen it in other cases. Corsair has implemented it and has a trademark for it which they call the “InfiniRail.”Looking at the second mock-up, the company moved to vertical rails coupled with horizontal slats. HAVN ended up ditching that design altogether and moved to a tray design, which is sort of moving to a tried-and-true approach. The company incorporated another change where they’ve stamped and folded the tooling. Then we took a look at a design that was closer to final, which has its full corner covered. HAVN showed us 3 different prototypes for the front panel of the case. The first one we looked at featured a wood panel design, which we’ve seen on a lot of cases lately. Wood has certain manufacturing challenges to consider. The white panel you see above is made of aluminum, which is very expensive.The last thing that HAVN is working on that they showed off are fans. There’s been a lot of fan development in the last few years. One of the big marketing phrases you hear a lot these days is LCP (liquid crystal polymer), which is something we talked a lot about at the last Computex. One of the benefits of LCP fans (which HAVN isn’t using here) is that you can get the blades way closer to the interior of the frame. The downside is that it’s incredibly expensive. We have an interview with Noctua’s Jakob Dellinger from 2 years ago that delves into how the company wanted to avoid using LCP for a long time but determined it was necessary to get the performance they wanted. HAVN isn’t using LCP but has designed a fan that has some “teeth” cut out on its blades, which is something we’ve seen before. The company has also shaped its fan hub to be able to scoop air in more. HAVN tells us that having the hub protrude out like a little mountain would offer the best performance but this presents clearance/compatibility issues, especially if you want to put a radiator up against it. Taking a look at the 180mm fan, there’s a 2.0mm distance from the blade to the frame of the fan. We asked if HAVN tried to get it closer and were provided with a lot of data. The company showed us 3 revisions. 1 had a 1.8mm spacing, another had 2.0mm of spacing, and the third had 2.2mm. What they ended up seeing for pressure in mmH2O, is that a 2.0mm spacing ran at 2.19. The 1.8mm fan ran at 2.23, which is an improvement. The CFM (cubic feet per minute) for both was nearly indistinguishable at around 165. The 2.2mm spacing, however, had a big drop off, which is a design they didn’t go with. It had a 2.21 mmH2O pressure, which is more or less within error of the others, but the 159.9 is where that drop off occurs in the CFM. Comparing the 1.8 vs the 2.0mm spacings, they are basically hitting diminishing returns. Seeing this information is nice. We imagine that the benefits here weren’t worth the yields and costs because getting the blades closer to the inner frame could lead to a bad yield during manufacturing or might have the blades expand and hit the frame as it ages with time. This is what happened with a lot of Enermax fans in the past.  Grab a GN15 Large Anti-Static Modmat to celebrate our 15th Anniversary and for a high-quality PC building work surface. The Modmat features useful PC building diagrams and is anti-static conductive. Purchases directly fund our work! (or consider a direct donation or a Patreon contribution!)Now we’re going to go over HAVN’s first-part numbers, but we plan to do our own performance review of the case and fans once they’re available. First-party data should be looked at with some reasonable care. Thermal comparisons should only be made against their own results here, not against ours, as the benches are different. The flat, typical shroud style was comparable to the rectangular type in result, with the rectangular type slightly better. We think this will see a larger impact in our testing, but we'd need the three types to know for sure. The important comparison is against the cylindrical type, where HAVN saw worse results by a measurable amount. Performance worsened by 1-2 degrees on the CPU and about 2 degrees on the GPU. That's a large GPU temperature increase.In their next test slide, HAVN tested various fan configurations with the flat shroud. The results were mostly as expected: CPU performance is hurt drastically by having only a bottom intake fan, to no surprise.More interestingly, the ramp type shroud makes comparisons in "B" with a fan level with the top of it and "A" with a fan sunken to the floor of the ramp. The sunken approach resulted in marginally worse CPU thermals in A as compared to B, with GPU thermals mostly unchanged.This slide shows CFD simulation and flow mapping for ramp angles at 120 and 135 degrees. HAVN has drawn a few highlights around areas of re-circulation or heat accumulation, particularly marked at "1" where the 120-degree ramp angle shows worse areas of heat build-up. HAVN tested this in 5-degree increments from 120 to 140, finding that 135 was a good balance when noise normalized.In the above image, they show the fan spacing again, with a 20mm height increase benefiting performance.HAVN didn't shy away from competitive comparisons. The company says its BF 360 with its final front panel, shown above in light blue, had competitive performance against the H6. They also suggest significant reductions in flow resistance (which is a good thing) versus the Lancool 3, with the HS 420 also making some appearances here.HAVN began studying its slot spacing and porosity of the ventilation slots in the panels next. The company found that a ratio of length divided by depth being ideally about equal to 6 was optimal for minimizing flow resistance, with the only downside being potential structural challenges. These charts show their flow performance with different slot sizes.As shown in this set of images, the point is that HAVN is really mocking up a ton of different styles of panels, from the shrouds to the slot spacing, to try and determine the thermal performance and optimize for it. This is a major progression for them. It’s a lot of work to do all of this, which is cool to see. Of course, we have to test the product to see how it came together, but the CFM performance of type 4, as they called it, was the best, but we're ultimately looking at tiny differences here. Still, all of those small differences across the case will add up in theory.This image was cool: After all of this thermal testing, HAVN next did mechanical stress simulation for torsional forces against the panel, which allowed them to dial-in the thickness and makeup of the plastics.That continued in this image, where the so-called "type 4" gets another highlight.HAVN highlighted "Design C" for having a 0.8mm metal thickness with the chosen hole sizing.By shaping the fan hub itself to guide flow, HAVN claims that it can better maintain pressure across the hub of the fan and along the inner wall of the blades. This is the area of worst performance in every fan, so optimizing here can also help minimize dead zones behind the hub. HAVN says that the molded flow guide in the hub benefited its noise significantly. The company claims its flow rate also improved significantly for the guided hub.The image above is really cool. Referencing whale-fin evolution, HAVN used tooth-like leading edges on the fan to improve its thermal performance. We've seen this plenty of times in the past, but it never seems to stick around and we're not sure why. In this simulation though, HAVN suggests that the air stream is more uniform along the wavy blade design.Using a 30% glass fiber composite, HAVN saw performance with the new design slightly improve in CFM but largely improve in static pressure, going from 2.21 to 2.40 mmH2O.There's a ton more that HAVN did. The P/Q chart above shows the mock-up performance, including the stall region centrally. We'll save all this discussion for the review, though.HAVN had about 41 pages of this technical presentation, which is actually greatly appreciated. A lot of what remains will be covered in our review, so we'll leave that for now.The bearings are also interesting to talk about. These are called FDBs (Fluid Dynamic Bearings), depending on how you want to define that. We looked at one that was designed for the company’s 180mm fan. It was a 15mm-tall FDB.  One of the things with fans, in terms of the support, is how the fan’s rod seats into the bearing. As we’re told, the longer the bearing is, the more it will help with the wobble of the blades. Internally looking at the 15mm-tall bearing for the 180mm fan, you can see 3 grooved channels. In our bearings-factory tour, we learned that the grooves are part of the mechanism that allows the fluid to circulate to keep that pressure even across the bearing. That’s supposed to be what's special here but we don’t test bearings individually, but the idea is that 3 channels are supposed to help with the stability of the fluids across the bearing. For the 120mm fans, HAVN is going for roughly a 12mm tall bearing. The company claims that most are between 9-11mm tall for 120mm fans. HAVN allowed us to look at the company’s thermal chamber. There are pros and cons to HAVN’s solution. The pro is that it’s supposed to help control the thermal environment as it circulates the air. The downside to the chamber is that we found it can influence the results, though it depends on the chamber. We found that for our testing specifically, having a larger, open-room environment works better. It is very environment-specific. The company also had a flow-rate tester, which is similar to ours, that can do PQ charts, which the company used to test its new fans. It has a throttle control and a laser tachometer, which provides a reading of the speed of the fan. On one side of the flow-rate tester, there are tubes for the counter blower, which our system also has. Their flow-rate tester also has an air compressor, which is used for actuating some of the nozzles inside the system. We also saw that their flow-rate tester also came with an inexpensive desktop OEM computer (in this case, a ThinkCentre PC running an i5-12400).HAVN also has an acoustic chamber, which has a pass-through on the outside coupled with a noise meter, which collects noise levels. One thing we liked seeing once we looked inside the chamber is that we saw a mechanical rigging for the fan, which allows it to be free flowing. They put their microphone in the corner, which we used to do when we had a chamber of a similar size. Putting the mic here allows you to maximize the distance of the chamber by going diagonal, providing maybe a half a meter of space. They also have a foam floor as well, which makes it closer to an anechoic chamber as opposed to something like our hemi-anechoic chamber. Grab a GN Tear-Down Toolkit to support our AD-FREE reviews and IN-DEPTH testing while also getting a high-quality, highly portable 10-piece toolkit that was custom designed for use with video cards for repasting and water block installation. Includes a portable roll bag, hook hangers for pegboards, a storage compartment, and instructional GPU disassembly cards.HAVN is targeting a launch around September for its new products at which point we aim to run our own benchmarks to see how it all performs.

The key feature of a Dyson vacuum cleaner has always been its grouping of cyclones. Those take up a fair bit of space, and their cordless vacs have by necessity been top-heavy, as they support the cylindrical dustbin near the handle. However, Dyson has made strides in designing powerful motors for their line of hair dryer lines, and are now looping that technology into their vacuums. The result is the new Dyson PencilVac, which ditches the dustbin altogether. Instead of relying on cyclones to separate the dust and heavier matter, the new design relies on a dual filtering system. Their new Hyperdymium motor—which spins at an absurdly powerful 140,000 rpm—is strong enough to blast vacuumed matter up the shaft and through the filters, greatly compressing the dust. The new form, at just 38mm (1.5") in diameter, isn't much thicker than a broomstick.In addition to yielding a much more compact form, an additional UX improvement is that the dust no longer poofs everywhere when you empty the thing. Being super-compressed, it ejects in a neater clump. Although the volume of the dust bin is just 0.08L, the company says it will actually hold five times that amount, so compressed is the dust.In the vacuum head, gone are the cylinders-with-bristles design. They've been replaced by Dyson's "Fluffycones," four conical brush bars that rotate in opposite directions. This design funnels hair tangles into the suction path and into the dust bin, rather than allowing hair to tangle around the brush bar. The head features two lasers that each fire a raking beam, making it easier to spot dust. The PencilVac has been launched in Japan and Australia. It won't come to U.S. shores until next year—though with the threat of looming tariffs, we'll have to wait and see.

Though many of the old artists’ residences have been gobbled up by new high-rises, pockets of nostalgia persist on the streets of New York’s NoHo neighborhood. Nine years ago, New Operations Workshop founder Gabriel Yuri was fortunate enough to find one when his real estate broker showed him a partially renovated 860-square-foot studio apartment in a 19th-century building that had been, at different times, a furrier, an artist refuge, and a home for women. Even in its haphazard state—with new walls plastered over some of the 1830s brickwork and half-finished hardwood flooring—the Diller Scofidio + Renfro alum could see the potential.Gabriel Yuri sits at a Tom Dixon screw table in the dining area, where custom shelving, a George Nelson pendant, and his grandmother’s Jens Risom chairs play off one another in their round and linear forms. “Most of what I was finding had been renovated to remove the charm,” Yuri remembers of the boring box apartments that had dominated the listings. “I wanted something that had history and character, so it was great that I got to this one while it still had some of that intact.”Many might have been daunted by the workload, but Yuri welcomed the challenge. He spent nearly four years peeling back the renovations—often himself, sometimes with the help of a handyman—restoring the original pine floors in the living room and revealing more of the existing brick, exposed pipework, and steel beams that had been covered up throughout the space. And his lucky streak continued: When new neighbors discarded the original tin ceiling tile during their own renovation, Yuri installed them in his kitchen and entry hallway—a sweet nod to the building’s past that complements the new industrial-style steel kitchen cabinetry. He also found original transom windows, which he used above the bedroom door to allow light to penetrate deeper into the apartment, and crafted a banquette sectional sofa and daybed in the living room to hide structural adjustments from the building’s façade work.A plaster of Paris bust of Yuri’s grandmother sits atop an old I-beam side table in the entry hallway, signaling the apartment’s industrial-chic aesthetic. The Tutsi milk jug was bought at auction. “I wanted to embrace the industrial aesthetic but also elevate it by blending it with a collection of things with balance and harmony,” says Yuri. In the living room, that meant pairing a vintage Hans Wegner lounge chair inherited from his grandmother with a sculptural Hinterlands cocktail table. But while the building itself served as an architectural muse, Yuri found inspiration in yet another beacon from a bygone era: his grandmother, who passed away just before he purchased the loft. “She wasn’t a designer but had the most incredible design sensibility,” he says. He repurposed her collection of midcentury furnishings—including the Jens Risom chairs in the dining room and the Hans Wegner lounge chair in the living room—as well as artwork and artifacts from her home in Queens. In the bedroom, he incorporated her stained glass pocket doors as a room divider and created a wood-and-cement-block bookcase inspired by the ones she often crafted herself. “The whole time I was keeping an eye out for what could fit in,” he says, noting the pops of red that were her (and his) favorite color. “It felt good to keep these things that I had grown up with and give them a new life.”Blended with contemporary additions, like the Tom Dixon table in the dining room and the live-edge platform bed in the bedroom, midcentury lighting that bridges the modern and industrial aesthetics at play, plus pieces picked up on his travels, the eclectic mix imparts layers of soul that give Yuri’s home a cocooning feeling of warmth and personal history.“The biggest response I get is how calm it feels,” he says. “I’m a homebody. I like to read and listen to albums and usually work from home. It’s nice to be surrounded by so many references to the past in such a busy, constantly changing city.”Above the custom Maharam-upholstered banquette sofa, Yuri has arranged an assortment of artwork on a steel shelf, including works by Paul Sepuya, Sarah Oppenheimer, and his mother, as well as a self-made piece that was once on display in the lobby of the Guggenheim. The table lamp is by In Common With, and the wood-and-steel magazine rack is of his own design. A memento from his time working at the iconic Starrett-Lehigh building, the hanging window acts as a divider between the living and dining areas. The transom windows that appear in the newly erected bedroom wall, which was started before Yuri purchased the apartment but redone in a much slimmer configuration, were found on site, and Yuri installed a herringbone floor over the previous owner’s renovations. Steel cabinetry and stained butcher block countertops from IKEA give the kitchen a sleek update. A seagrass CB2 rug, an Alvar Alto stool, and a city-themed drying rack by Seletti, as well as a collection of his grandmother’s vintage Hasami pottery and a conical tea kettle by Aldo Rossi for Alessi, infuse the space with warmth and personality. A custom oak platform bed adds earthy elegance in the bedroom, a space made cozier with custom felted wool drapery, cotton cashmere sheets by RH, and a throw blanket by El Rey for Nordic Knots. A pair of Yuri’s grandmother’s Arthur Umanoff side chairs create a sense of symmetry, as do the antique glass naval sconces and reclaimed pine flooring. Inspired by the simple bookshelves his grandmother made in her Queens, New York, home, Yuri crafted this efficient cinderblock and wood organizational system in the bedroom. Yuri painted the existing clawfoot tub in Farrow & Ball’s Off Black to coordinate with the new RH vanity and slate tile flooring for a moody effect against the existing brick walls.

Dyson has announced what it’s claiming is the “world’s slimmest vacuum cleaner.” At first glance, its new PencilVac looks like a broom rather than a vacuum because the battery, motor, and electronics are all integrated into a thin handle that’s just 38mm in diameter — the same thickness as Dyson’s Supersonic r hair dryer. It weighs in at just under four pounds and is powered by the company’s smallest and fastest vacuum motor yet.The PencilVac is designed to be a replacement for the slim Dyson Omni-glide, which launched in 2021 with a cleaning head that used two spinning brushes so it could suck up dust and dirt in multiple directions. The new PencilVac is not only slimmer and lighter than the Omni-glide, it uses four spinning brush bars that Dyson calls Fluffycones.The PencilVac uses four conical brushes called Fluffycones that are designed to prevent long hair from getting tangled up around them. Image: DysonAs the name implies, the Fluffycones each feature a conical design that causes long hairs to slide down to the narrow end of each brush and fall off so they can be sucked up instead of getting tangled up around the brushes. The Fluffycones slightly protrude at the sides for better edge cleaning, and are paired with green LED lights (instead of the lasers that Dyson’s other vacuums use) that illuminate dust and debris so you can see when floors have been properly cleaned.The PencilVac is just 3.7-inches tall when laying flat, allowing it to slide and clean under furniture. Image: DysonOther innovations Dyson is introducing with the PencilVac include a motor that’s just 28mm in diameter but spins at 140,000RPM to generate 55AW of suction, and a new two-stage dust filtration system that prevents clogging and performance loss as the vac fills up. Given its size, the PencilVac has a smaller dust bin than Dyson’s other cleaners, but uses a new design that compresses dust as it’s removed from the airflow to help maximize how much dirt the bin can hold.A magnetic charging dock is included, which has storage for accessories and can charge an additional battery. Image: DysonThe PencilVac magnetically connects to a floor dock for charging and storage, and features a small LCD screen that shows the cleaning mode and an estimate of how long before the battery dies. It’s also Dyson’s first vacuum to connect to the MyDyson mobile app, which offers access to additional settings, alerts for when the filter needs to be cleaned, and step-by-step maintenance instructions.The vacuum’s slim design does come with some trade-offs when compared to the company’s larger models. Its cleaning head is designed for use on hard floors, not carpeting, and while it can be swapped with alternate attachments like a furniture and crevice tool, it doesn’t convert to a shorter handheld vac. Runtime is also limited to just 30 minutes of cleaning at its lowest power setting, but its battery is swappable and Dyson will sell additional ones to extend how long you can clean.Dyson hasn’t revealed pricing details yet, and while the PencilVac will launch in Japan later this year, it won’t be available in the US until 2026.See More:

It's been almost ten years since Dyson first unveiled its Supersonic hair dryer, which put its signature bladeless fan technology into a styling product. For a company that was known primarily for its vacuums at the time, this was a surprising move. Since then, Dyson has released several beauty tools like its Airwrap curling iron that have spawned countless imitations. The company also expanded into other categories like audio with its OnTrac headphones and the controversial Zone headphones-with-built-in-purifying-mask while continuing to make some of our favorite cordless vacuums.  Today, Dyson is going full circle by announcing the PencilVac, which it says is the "world's slimmest vacuum cleaner." The twist? It achieves that thinness by using a motor that's basically the same as the one in the Supersonic hair dryer. What makes the PencilVac different from existing vacuum cleaners is the fact that it's basically all shaft, with some attachment options for the head. That means there is no bulge unless you use the included conical brush bar cleaner head. All the parts that would normally take up space on a conventional vacuum (like a bin, filter and motor) all fit inside the long cylinder. At the very bottom, you can attach a variety of heads designed specifically for the PencilVac, including the main one that Dyson is calling a "Fluffycones" cleaner head.  The company said it has four cones in two brush bars that rotate in opposite directions, and they were designed to "strip and eject even long hair, preventing hair tangling around the brush bar." The laser-like lights at both ends of this head also help illuminate where dust particles might be so you can better see what spots you missed. Dyson Altogether, the PencilVac weighs about 3.96 pounds (1.8kg) and is meant to be easy to use in all kinds of hard-to-reach areas. Since it's got the same roughly 1.5-inch (38mm) diameter throughout, you can grip it fairly easily along its body, wherever you choose to place your hands. This should make it easier to pick up for overhead cleaning. To get the entire PencilVac to look like, well, a pencil, Dyson had to redesign quite a lot of components. This includes the new Hyperdymium 140k motor, which the company says is its "smallest (at 28mm) and fastest vacuum motor. " There's also a new dust compressing system to "maximize the bin capacity." Speaking of, the bin fits inside the cylinder itself, and it has a transparent window that allows you to not only see how full it is but also watch as debris gets sucked up. In fact, at a recent demo, I watched with a mixture of satisfaction and sadness as bits of crushed up Lotus Biscoff cookies flew to the top of the bin.  Despite its small size, the Hypderdymium 140k motor seemed plenty powerful in my brief time with it, as it sucked up Cheerios, cookies and other detritus with ease. I also found the entire device mostly easy to maneuver — it didn't feel too heavy and coasted over the bumpy food waste with ease. I was slightly confused by the locking system as I had to make sure to hold it precisely straight up (and wait for a click) after I was done to make sure the stick didn't just fall to the ground. Dyson also designed a new filtration system that the company said "effectively separates dust and debris from the airflow without causing filters to clog or cleaning performance to decline." It also made a new "two-stage linear dust separation system, which captures 99.99 percent of particles down to 0.3 microns so only cleaner air is expelled back into the home."  More interestingly, the PencilVac has an "air-compressing bin design" that allows the bin to contain "five times more dust and debris than its 0.08L capacity." In the few rounds of cleaning that I witnessed, the PencilVac certainly appeared to be packing in the garbage quite tightly, though whether it can actually hold 0.4L of stuff is something I didn't get to measure. Dyson When it comes time to empty the container, you can use what Dyson calls its "new hygienic syringe bin ejection system" to empty it. I didn't try this out myself, but it basically involves removing the cleaner head, aiming the bottom of the PencilVac at your trash receptacle and sort of shucking the transparent housing up and down to get the debris out. I watched a Dyson engineer do this and the process seemed straightforward, though it did look like parts of the housing trapped some crumbs. The good news is, you can detach the shell and filters to more thoroughly clean them. The PencilVac also has a swappable battery pack that can last up to 60 minutes of suction, and you can charge the machine on its magnetic charging dock. This is also Dyson's first connected cordless vacuum, meaning it works with the MyDyson app so you can see battery levels, access more settings and get maintenance alerts (like when and how to clean the filter). There's also an LCD screen at the top of the handle that shows the selected power mode as well as remaining run time (while you're cleaning). You'll largely interact with the controls via the two physical buttons here, too. Dyson hasn't shared pricing details on the PencilVac, but there's plenty of time for the company to figure that out, since it's only going to be available in the US next year. That's 2026. Meanwhile, the device will retail in other regions.  This article originally appeared on Engadget at https://www.engadget.com/home/the-dyson-pencilvac-is-the-most-stick-like-stick-vacuum-ever-020109491.html?src=rss

An internation contest – featuring a €445,000 prize fund – is inviting architects, designers and engineers to create a ‘new look’ for wind turbines (Deadline: 16 June) The two-stage ‘WinDesign’ competition – organised by Italian energy company Enel – seeks concepts for new wind farms which combine ‘functionality, aesthetics, innovation and sustainability.’ The call for concepts aims to identify a range of solutions to reduce the environmental impact of new wind turbines and to promote ‘harmony between infrastructure and landscape.’ A renewable energy development in the California Desert Credit: Image by Bureau of Land Management Attribution 2.0 Generic The contest – which is open to architects, designers, engineers, students and start-ups – comes amid rapid growth in alternative energy adoption with wind generation expected to surpass coal generation in Europe this year. According to the brief: ‘The wind energy market has experienced exponential growth in the last few decades, with thousands of wind turbines installed globally each year, helping the world to have safe, reliable and sustainable energy. ‘In this context, Enel intends to rethink the aesthetics of wind power plants through innovative solutions that combine functionality, design, innovation and sustainability in order to enhance the harmony between infrastructure and landscape, while reducing the environmental impact. ‘The proposed solutions must meet the criteria of increasing environmental and landscape integration, technical and functional feasibility, flexibility of use and economic sustainability.’ Headquartered in Rome, Enel is an Italian multinational manufacturer and distributor of electricity and gas. The company’s subsidiary, Enel Green Power, operates around 1,300 plants harnessing solar, geothermal, wind and hydropower sources around the world. The ‘WinDesign’ contest invites participants to rethink the aesthetics of wind power plants which are typically constructed using conical tubular steel towers supporting a generator in a nacelle with a hub and three or four rotor blades. A renewable energy development in the California Desert Credit: Image by Bureau of Land Management Attribution 2.0 Generic Submissions must meet the contest criteria of ‘increasing environmental and landscape integration, technical and functional feasibility, flexibility of use and economic sustainability.’ Concepts will need to have a rated power output of 5.5MW with a rotor diameter of 161m and a hub height of 98m. Teams selected to participate in the second round of the competition running frodm July to September will each receive a €5,000 honorarium. The overall winner – due to be announced on 10 November – will receive a €250,000 prize while a second prize of €150,000 and third prize €50,000 will also be awarded. Three special prizes worth €15,000 each for design, technical and economic feasibility, and innovation and sustainability will also be awarded. How to apply Deadline: 16 June Competition funding source: Not supplied Project funding source: Not supplied Owner of site(s): Not suppliedVisit the competition website for more information

Despite keyframes and scroll-driven events, CSS animations have remained relatively rudimentary. As I wrote in Part 1, they remind me of the 1960s Hanna-Barbera animated series I grew up watching on TV. Shows like Dastardly and Muttley in Their Flying Machines, Scooby-Doo, The Perils of Penelope Pitstop, Wacky Races, and, of course, Yogi Bear. Mike loves ’90s animation — especially Disney’s Duck Tales). So, that is the aesthetic applied throughout the design. I used animations throughout and have recently added an extra dimension to them using masking. So, to explain how this era of animation relates to masking in CSS, I’ve chosen an episode of The Yogi Bear Show, “Disguise and Gals,” first broadcast in May 1961. In this story, two bank robbers, disguised as little old ladies, hide their loot in a “pic-a-nic” basket in Yogi and Boo-Boo’s cave! What could possibly go wrong? What’s A Mask? One simple masking example comes at the end of “Disguise and Gals” and countless other cartoons. Here, an animated vignette gradually hides more of Yogi’s face. The content behind the mask isn’t erased; it’s hidden. In CSS, masking controls visibility using a bitmap, vector, or gradient mask image. When a mask’s filled pixels cover an element, its content will be visible. When they are transparent, it will be hidden, which makes sense. Filled pixels can be any colour, but I always make mine hot pink so that it’s clear to me which areas will be visible. A clip-path functions similarly to a mask but uses paths to create hard-edged clipping areas. If you want to be picky, masks and clipping paths are technically different, but the goal for using them is usually the same. So, for this article, I’ll refer to them as two entrances to the same cave and call using either “masking.” In this sequence from “Disguise and Gals,” one of the robbers rushes the picnic basket containing their loot into Yogi’s cave. Masking defines the visible area, creating the illusion that the robber is entering the cave. How do I choose when to use clip path and when to choose mask? I’ll explain my reasons in each example. When Mike Worth and I discussed working together, we knew we would neither have the budget nor the time to create a short animated cartoon for his website. However, we were keen to explore how animations could bring to life what would’ve otherwise been static images. Masking Using A Clipping Path On Mike’s biography page, his character also enters a cave. The SVG illustration I created contains two groups, one for the background and the other for the orangutan in the foreground: <figure> <svg viewBox="0 0 1400 960" id="cave"> <g class="background">…</g> <g class="foreground">…</g> </svg> </figure> I defined a keyframe animation that moves the character from 2000px on the right to its natural position in the center of the frame by altering its translate value: @keyframes foreground { 0% { opacity: .75; translate: 2000px 0; } 60% { opacity: 1; translate: 0 0; } 80% { opacity: 1; translate: 50px 0; } 100% { opacity: 1; translate: 0 0; } } Then, I applied that animation to the foreground group: .foreground { opacity: 0; animation: foreground 5s 2s ease-in-out infinite; } Try this yourself: I wanted him to become visible at the edge of the illustration instead. As the edges of the cave walls are hard, I chose a clip-path. There are several ways to define a clip-path in CSS. I could use a primitive shape like a rectangle, where each of the first four values specifies its corner positions. The round keyword and the value that follows define any rounded corners: clip-path: rect(0px 150px 150px 0px round 5px); Or xywh (x, y, width, height) values, which I find easier to read: clip-path: xywh(0 0 150px 150px round 5px); I could use a circle: clip-path: circle(60px at center); Or an ellipse: clip-path: ellipse(50% 40% at 50% 50%); I could use a polygon shape: clip-path: polygon(...); Or even the points from a path I created in a graphics app like Sketch: clip-path: path("M ..."); Finally — and my choice for this example — I might use a mask that I defined using paths from an SVG file: clip-path: url(#mask-cave); To make the character visible from the edge of the illustration, I added a second SVG. To prevent a browser from displaying it, set both its dimensions to zero: <figure> <svg viewBox="0 0 1400 960" id="cave">...</svg> <svg height="0" width="0" id="mask">...</svg> </figure> This contains a single SVG clipPath. By placing this inside the defs element, this path isn’t rendered, but it will be available to create my CSS clip-path: <svg height="0" width="0" id="mask"> <defs> <clipPath id="mask-cave">...</clipPath> </defs> </svg> I applied the clipPath URL to my illustration, and now Mike’s mascot only becomes visible when he enters the cave: #cave { clip-path: url(#mask-cave); } Try this yourself: While a clipPath will give me the result I’m looking for, the complexity and size of these paths can sometimes negatively affect performance. That’s when I choose a CSS mask as its properties have been baseline and highly usable since 2023. The mask property is a shorthand and can include values for mask-clip, mask-mode, mask-origin, mask-position, mask-repeat, mask-size, and mask-type. I find it’s best to learn these properties individually to grasp the concept of masks more easily. Masks control visibility using bitmap, vector, or gradient mask images. Again, when a mask’s filled pixels cover an element, its content will be visible. When they‘re transparent, the content will be hidden. And when parts of a mask are semi-transparent, some of the content will show through. I can use a bitmap format that includes an alpha channel, such as PNG or WebP: mask-image: url(mask.webp); I could apply a mask using a vector graphic: mask-image: url(mask.svg); Or generate an image using a conical, linear, or radial gradient: mask-image: linear-gradient(#000, transparent); …or: mask-image: radial-gradient(circle, #ff104c 0%, transparent 100%); I might apply more than one mask to an element and mix several image types using what should be a familiar syntax: mask-image: image(url(mask.webp)), linear-gradient(#000, transparent); mask shares the same syntax as CSS backgrounds, which makes remembering its properties much easier. To apply a background-image, add its URL value: background-image: url("background.webp"); To apply a mask, swap the background-image property for mask-image: mask-image: url("mask.webp"); The mask property also shares the same browser styles as CSS backgrounds, so by default, a mask will repeat horizontally and vertically unless I specify otherwise: /* Options: repeat, repeat-x, repeat-y, round, space, no-repeat */ mask-repeat: no-repeat; It will be placed at the top-left corner unless I alter its position: /* Options: Keywords, units, percentages */ mask-position: center; Plus, I can specify mask-size in the same way as background-size: /* Options: Keywords (auto, contain, cover), units, percentages */ mask-size: cover; Finally, I can define where a mask starts: mask-origin: content-box; mask-origin: padding-box; mask-origin: border-box; Using A Mask Image Mike’s FAQs page includes an animated illustration of his hero standing at a crossroads. My goal was to separate the shape from its content, allowing me to change the illustration throughout the hero’s journey. So, I created a scalable mask-image which defines the visible area and applied it to the figure element: figure { mask-image: url(mask.svg); } To ensure the mask matched the illustration’s dimensions, I also set the mask-size to always cover its content: figure { mask-size: cover; } Try this yourself: figure { clip-path: ellipse(45% 35% at 50% 50%); } However, the hard edges of a clip clip-path don’t create the effect I was aiming to achieve: Try this yourself: Finally, to add an extra touch of realism, I added a keyframe animation — which changes the mask-size and creates the effect that the lamp light is flickering — and applied it to the figure: @keyframes lamp-flicker { 0%, 19.9%, 22%, 62.9%, 64%, 64.9%, 70%, 100% { mask-size: 90%, auto; } 20%, 21.9%, 63%, 63.9%, 65%, 69.9% { mask-size: 90%, 0px; } } figure { animation: lamp-flicker 3s 3s linear infinite; } Try this yourself: I started by creating the binocular shape, complete with some viewfinder markers. Then, I applied that image as a mask, setting its position, repeat, and size values to place it in the center of the figure element: figure { mask-image: url(mask.svg); mask-position: 50% 50%; mask-repeat: no-repeat; mask-size: 85%; } Try this yourself: To let someone know they might’ve reached the end of their adventure, I wanted to ape the zooming-in effect I started this article with: <figure> <svg>…</svg> </figure> I created a circular clip-path and set its default size to 75%. Then, I defined the animation keyframes to resize the circle from 75% to 15% before attaching it to my figure with a one-second duration and a three-second delay: @keyframes error { 0% { clip-path: circle(75%); } 100% { clip-path: circle(15%); } } figure { clip-path: circle(75%); animation: error 1s 3s ease-in forwards; } The animation now focuses someone’s attention on the hapless hero, before he sinks lower and lower into the bubblingly hot lava. Try this yourself: See the Pen Mike Worth’s error page [forked] by Andy Clarke. Bringing It All To Life Masking adds an extra dimension to web animation and makes stories more engaging and someone’s experience more compelling — all while keeping animations efficiently lightweight. Whether you’re revealing content, guiding focus, or adding more depth to a design, masks offer endless creative possibilities. So why not experiment with them in your next project? You might uncover a whole new way to bring your animations to life. The end. Or is it? … Mike Worth’s website will launch in June 2025, but you can see examples from this article on CodePen now.