Another weekend is ending, and I guess we’re supposed to care about games or something. Kotaku has a guide about four great games they can’t wait to get back to. Honestly, I can’t remember the last time I felt that excited about anything. Anyway, summer’s still around, and I didn’t bother getting an air conditioner, so here we are, just chilling... or not. Just check out the guide if you want to know which games they’re talking about. #WeekendGaming #KotakuGuide #LazyDays #VideoGames #Boredom

June 13, 20256 min readAir-Conditioning Can Surprisingly Help the Power Grid during Extreme HeatSwitching on air-conditioning during extreme heat doesn’t have to make us feel guilty—it can actually boost power grid reliability and help bring more renewable energy onlineBy Johanna Mathieu & The Conversation US Imagedepotpro/Getty ImagesThe following essay is reprinted with permission from The Conversation, an online publication covering the latest research.As summer arrives, people are turning on air conditioners in most of the U.S. But if you’re like me, you always feel a little guilty about that. Past generations managed without air conditioning – do I really need it? And how bad is it to use all this electricity for cooling in a warming world?If I leave my air conditioner off, I get too hot. But if everyone turns on their air conditioner at the same time, electricity demand spikes, which can force power grid operators to activate some of the most expensive, and dirtiest, power plants. Sometimes those spikes can ask too much of the grid and lead to brownouts or blackouts.On supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.Research I recently published with a team of scholars makes me feel a little better, though. We have found that it is possible to coordinate the operation of large numbers of home air-conditioning units, balancing supply and demand on the power grid – and without making people endure high temperatures inside their homes.Studies along these lines, using remote control of air conditioners to support the grid, have for many years explored theoretical possibilities like this. However, few approaches have been demonstrated in practice and never for such a high-value application and at this scale. The system we developed not only demonstrated the ability to balance the grid on timescales of seconds, but also proved it was possible to do so without affecting residents’ comfort.The benefits include increasing the reliability of the power grid, which makes it easier for the grid to accept more renewable energy. Our goal is to turn air conditioners from a challenge for the power grid into an asset, supporting a shift away from fossil fuels toward cleaner energy.Adjustable equipmentMy research focuses on batteries, solar panels and electric equipment – such as electric vehicles, water heaters, air conditioners and heat pumps – that can adjust itself to consume different amounts of energy at different times.Originally, the U.S. electric grid was built to transport electricity from large power plants to customers’ homes and businesses. And originally, power plants were large, centralized operations that burned coal or natural gas, or harvested energy from nuclear reactions. These plants were typically always available and could adjust how much power they generated in response to customer demand, so the grid would be balanced between power coming in from producers and being used by consumers.But the grid has changed. There are more renewable energy sources, from which power isn’t always available – like solar panels at night or wind turbines on calm days. And there are the devices and equipment I study. These newer options, called “distributed energy resources,” generate or store energy near where consumers need it – or adjust how much energy they’re using in real time.One aspect of the grid hasn’t changed, though: There’s not much storage built into the system. So every time you turn on a light, for a moment there’s not enough electricity to supply everything that wants it right then: The grid needs a power producer to generate a little more power. And when you turn off a light, there’s a little too much: A power producer needs to ramp down.The way power plants know what real-time power adjustments are needed is by closely monitoring the grid frequency. The goal is to provide electricity at a constant frequency – 60 hertz – at all times. If more power is needed than is being produced, the frequency drops and a power plant boosts output. If there’s too much power being produced, the frequency rises and a power plant slows production a little. These actions, a process called “frequency regulation,” happen in a matter of seconds to keep the grid balanced.This output flexibility, primarily from power plants, is key to keeping the lights on for everyone.Finding new optionsI’m interested in how distributed energy resources can improve flexibility in the grid. They can release more energy, or consume less, to respond to the changing supply or demand, and help balance the grid, ensuring the frequency remains near 60 hertz.Some people fear that doing so might be invasive, giving someone outside your home the ability to control your battery or air conditioner. Therefore, we wanted to see if we could help balance the grid with frequency regulation using home air-conditioning units rather than power plants – without affecting how residents use their appliances or how comfortable they are in their homes.From 2019 to 2023, my group at the University of Michigan tried this approach, in collaboration with researchers at Pecan Street Inc., Los Alamos National Laboratory and the University of California, Berkeley, with funding from the U.S. Department of Energy Advanced Research Projects Agency-Energy.We recruited 100 homeowners in Austin, Texas, to do a real-world test of our system. All the homes had whole-house forced-air cooling systems, which we connected to custom control boards and sensors the owners allowed us to install in their homes. This equipment let us send instructions to the air-conditioning units based on the frequency of the grid.Before I explain how the system worked, I first need to explain how thermostats work. When people set thermostats, they pick a temperature, and the thermostat switches the air-conditioning compressor on and off to maintain the air temperature within a small range around that set point. If the temperature is set at 68 degrees, the thermostat turns the AC on when the temperature is, say, 70, and turns it off when it’s cooled down to, say, 66.Every few seconds, our system slightly changed the timing of air-conditioning compressor switching for some of the 100 air conditioners, causing the units’ aggregate power consumption to change. In this way, our small group of home air conditioners reacted to grid changes the way a power plant would – using more or less energy to balance the grid and keep the frequency near 60 hertz.Moreover, our system was designed to keep home temperatures within the same small temperature range around the set point.Testing the approachWe ran our system in four tests, each lasting one hour. We found two encouraging results.First, the air conditioners were able to provide frequency regulation at least as accurately as a traditional power plant. Therefore, we showed that air conditioners could play a significant role in increasing grid flexibility. But perhaps more importantly – at least in terms of encouraging people to participate in these types of systems – we found that we were able to do so without affecting people’s comfort in their homes.We found that home temperatures did not deviate more than 1.6 Fahrenheit from their set point. Homeowners were allowed to override the controls if they got uncomfortable, but most didn’t. For most tests, we received zero override requests. In the worst case, we received override requests from two of the 100 homes in our test.In practice, this sort of technology could be added to commercially available internet-connected thermostats. In exchange for credits on their energy bills, users could choose to join a service run by the thermostat company, their utility provider or some other third party.Then people could turn on the air conditioning in the summer heat without that pang of guilt, knowing they were helping to make the grid more reliable and more capable of accommodating renewable energy sources – without sacrificing their own comfort in the process.This article was originally published on The Conversation. Read the original article. #airconditioning #can #help #power #grid

SwitchBot has a knack for crafting ingenious IoT devices, those little problem-solvers like robotic curtain openers and automated button pressers that add a touch of futuristic convenience. Yet, the true linchpin, the secret sauce that elevates their entire ecosystem, is undoubtedly their Hub. It’s the central nervous system that takes individual smart products and weaves them into a cohesive, intelligent tapestry, turning the abstract concept of a ‘smart home’ into a tangible, daily experience. This unification through the Hub is what brings us closer to that almost mythical dream: a home where technology works in concert, where devices understand each other’s capabilities and, critically, anticipate your needs. It’s about creating an environment that doesn’t just react to commands, but proactively adapts, making your living space more intuitive, responsive, and, ultimately, more attuned to you. The new Hub 3 aims to refine this very connection. Designer: SwitchBot Click Here to Buy Now: The predecessor, the Hub 2, already laid a strong foundation. It brought Matter support into the SwitchBot ecosystem, along with reliable infrared controls, making it a versatile little box. It understood the assignment: bridge the old with the new. The Hub 3 takes that solid base and builds upon it, addressing not just functionality but also the nuanced interactions that make a device truly intuitive and, dare I say, enjoyable to use daily. Matter support, the industry’s push for interoperability, remains a cornerstone. The Hub 3 acts as a Matter bridge, capable of bringing up to 30 SwitchBot devices into the Matter fold, allowing them to play nice with platforms like Apple Home. Furthermore, it can send up to 30 distinct commands to other Matter-certified products already integrated into your Apple Home setup, with Home Assistant support on the horizon. This makes it a powerful orchestrator. One of the most striking additions is the new rotary dial, something SwitchBot calls its “Dial Master” technology. Giving users an intuitive tactile control that feels very familiar, it makes the Hub 3 even more user-friendly. Imagine adjusting your thermostat not by tapping an arrow repeatedly, but by smoothly turning a dial for that exact ±1°C change. The same applies to volume control or any other granular adjustment. This tactile feedback offers a level of hyper-controlled interaction that screen taps often lack, feeling more connected and satisfying. Beyond physical interaction, the Hub 3 gets smarter senses. While the trusty thermo-hygro sensormakes a return for indoor temperature and humidity, it’s now joined by a built-in light sensor. This seemingly small addition unlocks a new layer of intuitive automation. Your home can now react to ambient brightness, perhaps cueing your SwitchBot Curtain 3 to draw open gently as the sun rises, or dimming lights as natural light fades. Aesthetically, SwitchBot made a subtle but impactful shift from the Hub 2’s white casing to a sleek black for the Hub 3. This change makes the integrated display stand out significantly, improving readability at a glance. And that display now does more heavy lifting. It still shows essential indoor temperature and humidity, but can also pull in local outdoor weather data, giving you a quick forecast without reaching for your phone. Pair it with a SwitchBot Meter Pro, and it’ll even show CO2 levels. The Hub 2 featured two handy customizable buttons. The Hub 3 doubles down, offering four such buttons. This means more of your favorite automation scenes, like “Movie Night,” “Good Morning,” and “Away Mode,” are just a single press away. This reduces friction, making your smart home react faster to your needs without diving into an app for every little thing. It’s these quality-of-life improvements that often make the biggest difference in daily use. Crucially, the Hub 3 retains everything that made its predecessor a strong contender. The infrared control capabilities are still robust, supporting over 100,000 IR codes for your legacy AV gear and air conditioners, now with a signal that’s reportedly 150% stronger than the Hub Mini. Its deep integration with the existing SwitchBot ecosystem means your Bots, Curtain movers, and vacuums will feel right at home, working in concert. Of course, you still have your choice of control methods. Beyond the new dial and physical buttons, there’s comprehensive app control for setting up complex automations and remote access. Voice control via the usual assistants like Alexa and Google Assistant is present and accounted for, ensuring hands-free operation whenever you need it. This flexibility means the Hub 3 adapts to your preferences, not the other way around. The true power, as always, lies in the DIY automation scenes. Imagine your AC, humidifier, and dehumidifier working together, orchestrated by the Hub 3 to maintain your perfect 23°C and 58% humidity. Or picture an energy-saving scene where the built-in motion sensor, coupled with geofencing, detects an empty house and powers down non-essential appliances. It’s these intelligent, personalized routines that transform a collection of smart devices into a truly smart home. The SwitchBot Hub 3 feels like the most potent iteration of that “secret sauce” yet. It takes the individual brilliance of SwitchBot’s gadgets and, through enhanced sensory input and more tactile controls, truly deepens that crucial understanding between device, environment, and user. The best part? It plugs right into your smart home’s existing setup, communicating with your slew of IoT devices – even more efficiently if you’ve got a Hub 2 or Hub Mini and you’re looking to upgrade. Click Here to Buy Now: The post Your Smart Home Got a New CEO and It’s Called the SwitchBot Hub 3 first appeared on Yanko Design. #your #smart #home #got #new

California's battery power capacity rose from 500 megawatts in 2018 to nearly 16,000 megawatts in 2025. Nearly a quarter of America's battery capacity is now in California alone, according to Bloomberg. At their daily peak around 8pm, batteries can provide as much as 30% of the state's electricity. The batteries charge in the afternoon when solar power is cheap and release energy in the evenings when Californians get home and crank up their air conditioners. In the middle of the day, when the sun is strongest, as much as three-quarters of the state's electricity can come from solar. California relied on regulation to achieve this scale. In 2013, the California Public Utilities Commission ordered the state's three big investor-owned utilities to procure 1,325 megawatts of energy storage by 2020 to help meet renewable targets and stabilize the grid. That goal was easily met. Mark Jacobson, an engineering professor at Stanford University, told Economist that most days this year contained periods when solar, hydropower and wind, helped by batteries, met 100% of California's demand -- even though just 54% of the state's electricity generation comes from renewables. of this story at Slashdot. #california #has #got #really #good

We may earn a commission from links on this page.Even though the residential burglary rate has been dropping steadily in recent years, many of us still worry about being robbed or experiencing a home invasion.Alarm systems and other high-tech security are really effective—a study once found that 83% of criminals check for an alarm before selecting a house to rob—but they don’t actually stop someone from breaking into your home. If you want to prevent a determined criminal from getting inside in the first place, you don’t need to spend a fortune turning your house into some sort of smart home fortress—there are plenty of cheap, low-tech steps that will make it difficult for criminals to get into your safe space.Secure the garageIf your home has a garage with an automatic door, it almost certainly has a manual release mechanism designed to let you open the door from the inside during a power outage or malfunction. That’s an essential safety feature—but it can also be a vulnerability. As shown in this video, a patient and experienced thief can fish for that manual release, open the garage door, and gain access to your home that way.Securing the manual release is an easy way to make this a lot more difficult. There are two low-tech ways to do this:Install a garage shield. A garage shield is just a barrier installed between the manual release and the door, and simplyprevents a coat hanger or other fishing tool from finding the manual release. You can DIY one of these with a piece of plywood if you’re relatively handy.Zip-tie the release. Most garage door manual release mechanisms can be held closed simply by threading a small zip-tie through the release. The zip-tie should be strong enough to resist the relatively weak pull of a fishing wire, but not strong enough to resist a hard yank on the release cord. You might want to test this a few times to ensure you can break the tie easily—the worst time to find out your manual release won’t work is during an active emergency.One more thing you should do to secure the garage? Use a keychain remote instead of one clipped to your car’s visor or sitting in the glovebox. A garage remote in your car is convenient for you and criminals, because they can break into your car to access the remote, then stroll into your house. If the garage remote is attached to your keys, it stays with you at all times, removing this invasion vector.Reinforce doors and windowsThe most vulnerable aspects of any home are the spots designed to allow entry of some sort—your doors and windows. Locks can be picked and glass can be broken, but a few simple, low-tech additions can enhance their resistance to intruders significantly:Reinforce door frames. One of the most effective ways to get through a locked door is simply battering it in or using a prybar to crack the frame. Reinforcing the door frame with a simple kit makes it a lot harder for thieves to do so.Use tamper-proof screws. If any screws are exposed on your door, replace them with tamper-proof versions to stop thieves from simply dismantling part or all of your door frame to gain entry.Add extra window locks. The locks that come with standard sash windows are fine, but not exactly unbeatable—plus, they’re either engaged or not, meaning your window is either closed or not. A hinged wedge lock can be positioned to allow the window to open enough to let some air flow into the room while preventing it from being opened far enough to grant entry, and can be swung open to allow normal use of the window.Consider foot locks and sliding locks. If you have sliders leading out to a patio or backyard, or sliding windows instead of sash windows, adding locks along the track is an easy way to reinforce them. It’s relatively easy to pry sliders off their tracks just enough to circumvent standard locking mechanisms, so a foot lock on a set of patio sliders or an adjustable security bar for a set of sliding windows will make it a lot more difficult to force entry.Secure air conditioners. If you have window AC units in your house, it’s almost trivial for thieves to push them in through the window itself to gain entry. You cansecure the unit to the window frame, and add window locks to ensure the sash can’t be moved from the outside.LandscapingSome straightforward landscaping and hardscaping choices can make it a lot more difficult for burglars to get inside:Keep entryways visible so thieves can’t work on your locks in privacy.Trim trees to prevent anyone from climbing up to your windows.Surround windows with thorny, painful plants.Don’t have a trellis or other ersatz ladder attached to your walls.And if you’ve got a dog or security system installed, adding a low-tech sign announcing them can be the first-line deterrent that makes thieves skip your house in the first place.Get a dogStudies have shown that dog ownership reduces the incidence of crime in various ways. A dog can be a deterrent, and can even drive off someone who successfully breaks in. And dog ownership in a neighborhood increases foot traffic and strengthens bonds between neighbors, making it more likely that someone will observe a break-in attempt and/or warn you about any suspicious activity they might spot. So, yes, getting a puppy will help keep people out of your house. #lowtech #ways #protect #your #home

Here's what we looked at this week:The quest to optimize existing objects: The EDJY features an unusual single-blade fingernail clipper design that allegedly delivers better results. Apple's "Vehicle Motion Cues" are an on-screen anti-motion-sickness trick.From Australia, magnetic and custom-fit sun shades for your car.The Otemon splice: A crazy Japanese technique for splicing the bottom of a rotted column.Image and work: Chris Hall Stunning Frank Lloyd Wright art tiles by Motawi Tileworks.A glow-in-the-dark substitute for EDC gear: These Isotope Tritium Fobs rely on actual radioactive isotopes.Philips' Fixables initiative will offer free downloadable files to 3d print replacement parts for their products.Dutch researchers develop "countersnapping," the opposite of a push-to-open mechanism. An industrial design classic: The Brionvega Algol TV, by Marco Zanuso and Richard Sapper.Good or bad? The Trace camera system records entire sporting matches, but highlights just your child.From Latvia, Kanttari's bronze bar cabinet. This Solo Windchill 47 Cooler has a built-in air conditioner. Because heaven forbid you break a sweat outside.The Loki cleaning robot, here to end janitors.A new umbrella shape from Japan. Growl: An AR punching bag for training and gaming.Design solutions for beachside umbrella-wind wars, and one man vs. nature.Form follows function: Dyson's new approach yields the super slim PencilVac. An industrial design case study from Germany: Fluid Design updates Beurer's grooming devices. #core77 #weekly #roundup

To what extent should we attempt to tame nature, in the name of personal comfort? Already our homes are purpose-built to keep out weather and provide interior climate control. We commute in vehicles that keep us cool in summer and warm in winter. We shop, dine and view entertainment in temperature-controlled facilities.While camping, and attending outdoor events like barbecues and music festivals, we're at the mercy of the elements. Many would say that's an integral part of the experience. But for those who find the lack of comfort, the lack of control over nature, intolerable, there are companies ready to sell you a solution.Solo Stove, the outdoor gear manufacturer known for their smokeless fire pits, has expanded into other camping gear. Their new offering is the Solo Windchill 47, a drinks cooler with a built-in air conditioner. That you use outside. "At the push of a button, it turns icy temps inside the cooler into frigid, dry air-conditioning—thanks to a built-in heat exchanger, high-powered fan, and water pump," the company writes. "And yes, it's real air-conditioning. Upgrade your cooler setup with the Solo Windchill 47 to keep the chill coming—anytime, anywhere." You can also use it to charge your phone. While I find the product obscene, that's due to my personal preferences. I live on a rural property, enjoy being outside and try to work with nature, accepting that I will get sweaty when I'm working outside in July. While there is an element of mild suffering to it, it makes that moment when you take a break inside, and feel the cool air of an A/C or a fan, that much sweeter.However, Solo Stove is based in Texas, which experiences more 100-degree-plus days than my region; perhaps Texans view summer as a war on their comfort. And for plenty of Americans, I'm guessing hauling around a 40-plus-pound cooler with built-in lithium ion batteries is a small price to pay for keeping cool. Even at to depending on battery options, the Windchill 47 will find a ready market. "Glampers" will be thrilled. #cooler #with #builtin #air #conditioner

Google issued 100 announcements during its Google I/O developers conference this week, none of which involved the smart home. That apparent lack of enthusiasm for a topic close to our heart didn’t dissuade TV and smart-appliance manufacturer Hisense from announcing plans to integrate new Google Home APIs into its own ConnectLife app, so that third-party smart home devices can be folded into that ecosystem. Hisense first announced that it would open its ConnectLife app to third-party products in December, 2024. Today, it announced it will incorporate the latest Google Home APIs into the app by the fall of 2025, Hisense says this will enable users to onboard a wide range of third-party smart home devices—including Matter and Works With Google Home-certified products—to create a more integrated smart home experience. Hisense cited two examples of how this would benefit ConnectLife users: “One-touch modes and customized automations can blend Hisense products with third-party devices to create intelligent home responses, such as air conditioners automatically adjusting based on third-party air quality sensors, or smart lights providing visual notifications when the Hisense refrigerator’s VersaTemp drawer reaches the ideal temperature for chilling drinks.” “At Hisense, we are committed to simplifying smart living for everyone,” said Hisense Director of Smart Home Experiences, Hisense Americas Region Miguel Becerra. “This integration enhances ConnectLife to create seamless experiences that make everyday life more convenient and enjoyable for our consumers.” Further reading: Smart home got the cold shoulder at Google’s I/O keynote The new version of the Hisense ConnectLife app is expected to be available this fall for both the Android and iOS platforms. As for the new Google Home APIs, they were quietly announced on May 15, ahead of Google I/O, and aren’t included in the “100 things we announced at I/O” list that was published on May 21, after the conference wrapped up. #hisense #taps #new #google #home

Posted on : May 22, 2025 By Tech World Times Business  Rate this post The consumer durables industry makes products we use daily. These products last a long time. Think of TVs, refrigerators, and washing machines. This industry is large and growing. Many people do not know it offers great jobs. Some jobs pay well. You just need to know where to look. In this article, we explore the Paying Jobs in Consumer Durables. We will look at what these jobs are, what they require, and why they pay so well. What Is the Consumer Durables Industry? Consumer durables are products we use often. But we do not buy them every day. These items last for years. Some examples are: Televisions Washing machines Refrigerators Air conditioners Laptops This industry needs many workers. It needs designers, engineers, marketers, and sales experts. Each role plays a part in making and selling products. Why This Industry Pays Well There are many reasons. First, the products are high in value. This means companies make big profits. Second, the work needs skill. Jobs like product design or quality control need experts. Lastly, competition is strong. Big brands want the best workers. They are ready to pay high salaries. Let’s now look at the Best best-paying jobs in Consumer Durables. 1. Product Manager What they do: They manage the full life of a product. From the idea to the final sale. Why it pays well: They make key decisions. They help make products that people love. Their work affects company profit. Skills needed: Market research Team management Decision making Strategy planning Average salary: to per year in the U.S. 2. Industrial Designer What they do: They design the look and function of products. They mix art with engineering. Why it pays well: Good design boosts sales. Brands need smart, creative designers to stand out. Skills needed: 3D modeling Design thinking Creative mindset User experience skills Average salary: to per year. 3. Sales Director What they do: They lead the sales team. They make plans to grow sales and enter new markets. Why it pays well: More sales mean more profits. Sales leaders are key to business success. Skills needed: Sales strategy Team leadership Communication CRM tools Average salary: to per year. 4. Marketing Manager What they do: They run marketing campaigns. They promote products and build brand trust. Why it pays well: Good marketing brings in more buyers. A strong brand leads to higher sales. Skills needed: SEO and ads Market research Digital Marketing Budget management Average salary: to per year. 5. Quality Control Manager What they do: They check that products meet set standards. They ensure everything works well before sales. Why it pays well: Bad products hurt sales. Good quality builds trust. This role keeps the brand strong. Skills needed: Inspection tools Problem-solving Report writing Teamwork Average salary: to per year. 6. Electrical Engineer What they do: They design and test electrical systems. These systems power the devices we use. Why it pays well: Good engineers make safe, energy-saving products. Their work is technical and in high demand. Skills needed: Circuit design Testing equipment CodingProject work Average salary: to per year. 7. Supply Chain Manager What they do: They manage how products move from factory to store. They handle shipping, storage, and delivery. Why it pays well: A smooth supply chain saves money. It keeps stores stocked and customers happy. Skills needed: Inventory systems Logistics planning Cost control Vendor management Average salary: to per year. 8. R&D SpecialistWhat they do: They work on new ideas. They test and improve products. Why it pays well: Innovation keeps brands ahead. R&D teams create the next big thing in the market. Skills needed: Product testing Lab tools Critical thinking Data analysis Average salary: to per year. 9. Software DeveloperWhat they do: They build software for smart consumer products. Think smart TVs or IoT kitchen tools. Why it pays well: More people want smart devices. Developers create the brains behind these products. Skills needed: Programming languages Embedded systems Testing tools UX/UI knowledge Average salary: to per year. 10. Human Resources Manager What they do: They hire staff, manage payroll, and handle employee issues. Why it pays well: Happy workers do better work. HR managers keep teams strong and working well. Skills needed: Conflict solving Recruitment skills Team building Payroll tools Average salary: to per year. Is This Industry Right for You? If you enjoy technology, design, or business, this industry may be perfect. It offers stable jobs and great pay. You do not always need a master’s degree. Some roles need experience, others need special skills or certifications. Try internships or entry-level roles to start. Over time, you can move to higher positions. Final Thoughts The consumer durables industry is growing. It offers many chances to earn well and grow fast. If you’re looking for high-income roles, explore the Best Paying Jobs in Consumer Durables. Jobs like product manager, sales director, and engineer are top choices. These roles pay well because they need skills and give big value to companies. With the right training and effort, you can land one of these jobs too. Start learning. Build your skills. And take the first step toward a well-paid career in consumer durables. Tech World TimesTech World Times, a global collective focusing on the latest tech news and trends in blockchain, Fintech, Development & Testing, AI and Startups. If you are looking for the guest post then contact at techworldtimes@gmail.com #explore #best #paying #jobs #consumer