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Archive for the ‘solar power’ category: Page 61

Dec 26, 2021

Fantastical Thundertruck EV rocks fold-out solar awnings and a snap-on 6WD caboose

Posted by in categories: military, solar power, sustainability

This all-electric 4×4 off-road concept has a monster battery pack, a brutally angular and military look that borrows heavily from the Cybertruck, and pop-out solar panels for off-grid charging. Oh, and if you need extra range, you can snap two extra wheels and a battery onto the back of it with a self-balancing caboose that makes it a six-wheel-drive.

First things first: Thundertruck is the brainchild of a Los Angeles “creative consultancy,” conceived mainly as a way to keep the team busy during the first wave of COVID lockdowns. “Instead of baking bread or making puzzles,” says the Wolfgang L.A. team, “we decided to make a new state-of-the-art EV truck.”

So while Wolfgang says it “has the ability to support an entire product development program, from research and strategy to initial sketches and first prototypes, all the way to advertising launch campaigns and content creation,” it’s fair to say it’s unlikely we’ll be seeing the Thundertruck out bush-bashing or crushing hillclimbs any day soon.

Dec 26, 2021

Carbon-air battery as a next-generation energy storage system

Posted by in categories: solar power, sustainability

One of the barriers to generating electricity from wind and solar energy is their intermittent nature. A promising alternative to accommodate the fluctuations in power output during unfavorable environmental conditions are hydrogen storage systems, which use hydrogen produced from water splitting to generate clean electricity. However, these systems suffer from poor efficiency and often need to be large in size to compensate for it. This, in turn, makes for complex thermal management and a lowered energy and power density.

In a study published in Journal of Power Sources, researchers from Tokyo Tech have now proposed an alternative electric energy storage system that utilizes carbon © as an energy source instead of hydrogen. The new system, called a “carbon/air secondary battery (CASB),” consists of a solid-oxide fuel and electrolysis cell (SOFC/ECs) where carbon generated via electrolysis of carbon dioxide (CO2), is oxidized with air to produce energy. The SOFC/ECs can be supplied with compressed liquefied CO2 to make up the energy storage system.

“Similar to a battery, the CASB is charged using the energy generated by the to reduce CO2 to C. During the subsequent discharge phase, the C is oxidized to generate energy,” explains Prof. Manabu Ihara from Tokyo Tech.

Dec 24, 2021

Tetris Handheld Powered By Tritium Cell, Eventually

Posted by in categories: cybercrime/malcode, mathematics, nuclear energy, solar power, sustainability

The idea of a tritium power cell is pretty straightforward: stick enough of the tiny glowing tubes to a photovoltaic panel and your DIY “nuclear battery” will generate energy for the next decade or so. Only problem is that the power produced, measured in a few microwatts, isn’t enough to do much with. But as [Ian Charnas] demonstrates in his latest video, you can eke some real-world use out of such a cell by storing up its power over a long enough period.

As with previous projects we’ve seen, [Ian] builds his cell by sandwiching an array of keychain-sized tritium tubes between two solar panels. Isolated from any outside light, power produced by the panels is the result of the weak green glow given off by the tube’s phosphorus coating as it gets bombarded with electrons. The panels are then used to charge a bank of thin-film solid state batteries, which are notable for their exceptionally low self-discharge rate.

Continue reading “Tetris Handheld Powered By Tritium Cell, Eventually” »

Dec 24, 2021

AFRL, Northrop Grumman lab tests space-based solar power technology

Posted by in categories: solar power, space, sustainability

The Air Force Research Laboratory’s (AFRL)and Northrop Grumman’s Space Solar Power Incremental Demonstrations and Research (SSPIDR) Project announced that they are one step closer to collecting solar energy in space and transmitting it to Earth using radio frequency (RF). The team has successfully conducted the first end-to-end demonstration of key hardware for the Arachne flight experiment.

A ground demonstration of novel components for the “sandwich tile” was used to successfully convert solar energy to radiofrequency (RF) – a fundamental step required to pave the way for a large-scale solar power collection system in space. For this to work, it is necessary to use receiving antennas on Earth to convert RF energy into usable power.

Space solar power is a key focus of AFRL, which awarded Northrop Grumman a $100 million contract in 2018 for the development of a payload to demonstrate the key components of a prototype space solar power system. The sandwich tile is currently under development as an essential payload component for Arachne and as a building block for a large-scale operational system.

Dec 24, 2021

Solar Polysilicon Prices Start To Plummet

Posted by in categories: biotech/medical, computing, solar power, sustainability

In a bit of good news, the spot price for solar grade polysilicon is dropping quite rapidly. If the trend holds, the cost of solar panels in Australia should follow suit soon-ish.

Polysilicon is used in the manufacture of conventional photovoltaic cells used in solar panels. The sought-after stuff was as cheap as chips in July last year, when it was below USD $7/kg. But a series of events including impacts from the pandemic and a couple of factory fires saw it skyrocket.

Polysilicon spot prices were as high as US$36.64/kg at the beginning of this month. But here’s what’s happened in the last few weeks as reported by Bernreuter Research.

Dec 23, 2021

New Space-Based Solar Panels Could Beam a Great Abundance of Energy to Earth

Posted by in categories: solar power, space, sustainability

It’s the stuff of science fiction but it’s real.

Although it may sound like science fiction, space-based solar power has started making headway with several projects underway. In February, we brought you news of technology firm Redwire acquiring Deployable Space Systems (DSS), a leading supplier of deployable solar arrays capable of enabling space missions with the intention of using them to deploy space-based solar power.

Meanwhile, last August we brought you further news, of Caltech’s Space Solar Power Project (SSPP) that collected solar power in space to be transmitted wirelessly to Earth offering energy unaffected by weather or time of day. The project promised to make solar power that could be continuously available anywhere on earth.

Dec 22, 2021

A New Off-Road Electric Truck Concept Boasts Bat Wing-Shaped Solar Panels

Posted by in categories: solar power, sustainability, transportation

A multipurpose electric truck with a 400-mile range.

Wolfgang, a creative agency based in Los Angeles, California has recently unveiled the Thundertruck, an electric off-roader concept with dashing, futuristic features including bat wing-shaped solar panels.

The company says that the multipurpose EV offers superior on and off-road performance and an entirely new level of versatility and functionality without zero emissions.

Continue reading “A New Off-Road Electric Truck Concept Boasts Bat Wing-Shaped Solar Panels” »

Dec 21, 2021

The Wikipedia of perovskite solar cell research

Posted by in categories: internet, solar power, sustainability

An international team of experts has collected data on metal halide perovskite solar cells from more than 15,000 publications and developed a database with visualization options and analysis tools. The database is open source and provides an overview of the rapidly growing knowledge as well as the open questions in this exciting class of materials. The study was initiated by HZB scientist Dr. Eva Unger and implemented and coordinated by her postdoc Jesper Jacobsson.

Halide perovskites have huge potential for and other optoelectronic applications. Solar cells based on metal-organic perovskites achieve efficiencies of more than 25 percent, they can be produced cheaply and with minimal energy consumption, but still require improvements in terms of stability and reliability. In recent years, research on this class of materials has boomed, producing a flood of results that is almost impossible to keep track of by traditional means. Under the keyword “ solar,” more than 19,000 publications had already been entered in the Web of Science (spring 2021).

Now, 95 experts from more than 30 international research institutions have designed a to systematically record findings on perovskite semiconductors. The are prepared according to the FAIR principles, i.e. they are findable, accessible, interoperable and reusable. By reading the existing literature, the experts have collected more than 42,000 individual data sets, in which the data can be filtered and displayed according to various criteria such as material compositions or component type. Researchers from several teams at HZB were involved in this Herculean task.

Dec 18, 2021

Tiny solar-powered robot travels around on deserts, planting seeds to cultivate greenery

Posted by in categories: robotics/AI, solar power, sustainability

With an end goal of turning deserts into lush green landscapes, A’seedbot drives around autonomously using solar energy, and planting seeds in the sand.

Dec 17, 2021

Foldable solar cell can be bent perfectly more than 10,000 times without breaking

Posted by in categories: solar power, sustainability

The resulting solar cell exhibits a power conversion efficiency of 15.2% and almost 80% transparency.

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