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Archive for the ‘energy’ category: Page 174

Dec 22, 2021

Form Energy’s 100-hour iron-air battery is 10 times cheaper than lithium

Posted by in categories: energy, sustainability

Solar and wind resources are the lowest marginal cost sources of electricity in most of the world. Solar, wind, and other forms of green energy produce power as and when it’s available. And as the world starts to transition away from cheap, responsive, and heavily polluting energy sources like coal, the electric grid now faces a challenge: how to manage the multi-day variability of renewable energy, even in periods of multi-day weather events, without sacrificing energy reliability or affordability.

In 2017, Tesla built and installed the world’s largest lithium-ion battery at Hornsdale in South Australia, which was a huge success. But there are inherent issues with lithium batteries; they are expensive, better suited to quick turnaround than long-term storage.

However, Form Energy is focused on developing low-cost energy storage technology to enable a reliable, secure, and fully renewable electric grid year-round. The Massachusetts-based startup recently unveiled a new rechargeable iron-air battery capable of delivering electricity for 100 hours at system costs competitive with conventional power plants and at less than 1/10th the cost of lithium-ion.

Dec 22, 2021

World’s largest operating offshore wind farm generates first power

Posted by in categories: energy, sustainability

Danish energy firm Orsted has announced that its Hornsea 2 offshore wind farm generated its first power, representing a significant milestone in the facility’s development.

When fully operational, Hornsea 2’s wind turbines will be capable of generating 1.32 GW of clean electricity – taking the title of ‘world’s largest operating offshore wind farm‘from its sibling project, Hornsea 1. Together, the two projects will be capable of providing enough power for well over 2.3 million homes.

Located 89 km off the UK’s east coast, the Hornsea 2 achieved its first power after its offshore substation (OSS), the world’s largest offshore AC substation, and reactive compensation station (RCS), were installed in late October 2021. Since that time, Ørsted and its partner companies have been working hard to commission and energize the wind farm in preparation for its anticipated operational date next year.

Dec 21, 2021

A Mining Company Is Using Hydrogen Power in Its Trucks, Cutting CO2 Emissions

Posted by in categories: chemistry, energy, engineering, sustainability, transportation

And it’s a hybrid mix of hydrogen and electric power.

Global mining company Anglo American is experimenting with hydrogen to power the giant mining trucks.

Mining trucks consume 35.3 gallons (134 liters) of diesel per hour with their enormous weight of around 220 metric tonnes and therefore emitting vast amounts of carbon dioxide into the atmosphere.

Continue reading “A Mining Company Is Using Hydrogen Power in Its Trucks, Cutting CO2 Emissions” »

Dec 21, 2021

Flying Saucers on the Moon? MIT Engineers Tested a New Hovering Rover Concept

Posted by in categories: energy, space

The power needed is so small, you could do this almost for free.’

Flying saucers are on their way to the Moon.

MIT scientists are developing a new concept for a circular hovering rover that levitates thanks to the moon’s natural electric field, a press statement reveals.

Continue reading “Flying Saucers on the Moon? MIT Engineers Tested a New Hovering Rover Concept” »

Dec 19, 2021

Proposal for an experimental test of the many-worlds interpretation of quantum mechanics

Posted by in categories: energy, quantum physics

The many-worlds interpretation of quantum mechanics predicts the formation of distinct parallel worlds as a result of a quantum mechanical measurement. Communication among these parallel worlds would experimentally rule out alternatives to this interpretation. A procedure for “interworld’’ exchange of information and energy, using only state of the art quantum optical equipment, is described. A single ion is isolated from its environment in an ion trap. Then a quantum mechanical measurement with two discrete outcomes is performed on another system, resulting in the formation of two parallel worlds. Depending on the outcome of this measurement the ion is excited from only one of the parallel worlds before the ion decoheres through its interaction with the environment. A detection of this excitation in the other parallel world is direct evidence for the many-worlds interpretation.

Dec 19, 2021

Beyond Qubits: Unlocking the Third State in Quantum Processors

Posted by in categories: energy, mathematics, quantum physics

By Alex Hill, Senior Quantum Systems Engineer

Qubits are the basic building block of a quantum processor, and are so named because they represent a continuum of complex superpositions of two basic quantum states. The power of qubits comes in part from their ability to encode significantly more information than a classical bit — an infinite set of states between 0 and 1. In mathematical terms, quantum gates that manipulate the state of individual qubits are unitary operators drawn from SU.

Rigetti’s superconducting quantum processors are based on the transmon design [1]. Each physical qubit is an anharmonic oscillator, meaning that the energy gaps between subsequent qubit energy states decrease as the qubit climbs higher up the state ladder. We typically only address the first two states, 0 and 1 (in the literature, sometimes referred to as g(round) and e(xcited)); however, the design of our qubits supports even higher states. The simple structure of the transmon energy levels gives superconducting qubits the unique ability to address many of these states in a single circuit.

Dec 19, 2021

JinkoSolar launches next-generation N-type solar modules

Posted by in category: energy

JinkoSolar has announced that it has launched the 2021 series of Tiger Neo modules. The new technology promises to be much more efficient.


The new Tiger Neo adopts N-type TOPCon technology with further enhancements in performance, power, energy density and reliability. In mass production, the new module delivers a maximum power output of up to 620 watts and an ultra-high conversion efficiency of up to 22.30 per cent.

JinkoSolar’s N-type TOPCon technology provides about 5 per cent to 6 per cent more efficiency than mono PERC and about 3 per cent to 4 per cent more energy generation. Mass produced from 182mm wafers, the new Tiger Neo modules feature Multi-Busbar (MBB) and half-cut cell technology to reduce internal resistance loss, and the circular solder strip design increases optical gain so that the module has an ultra-high efficiency of up to 22.30 per cent.

Continue reading “JinkoSolar launches next-generation N-type solar modules” »

Dec 19, 2021

This Zeppelin-Shaped Business Jet Offers Longer Range and Better Fuel Efficiency

Posted by in categories: business, energy

It can connect any two points in the continental U.S. without refueling.

Dec 17, 2021

Step inside a lush 2-story container home with the most shabby-chic living room ever

Posted by in categories: energy, space, sustainability

Created from five shipping containers, Debbie Glassberg’s home, constructed with the help of BNIM, is a dreamy, two-story residence that looks nothing like the containers it began life as. With two bedrooms, three bathrooms, a garden, and a patio, the home is obviously on the bigger side, but it’s such a luxurious and beautiful space that it truly deserves a tour.

Glassberg, an industrial designer who works for Mattel, wanted to create a sustainable, energy-efficient, affordable, and gorgeous home, so using shipping containers was the right idea. The planet-friendly home uses features like geothermal heating and plant foam insulation to lessen its carbon footprint. The home is drenched in color, and each room has its own feel, creating a stylish, chic setting for everyday life. From the moment you enter the home, it’s evident that someone who knows about style lives here.

Dec 16, 2021

A New 0.4-MM-Thick ‘Paper Battery’ Can Power a Small Fan for 45 Minutes

Posted by in categories: energy, materials

The new zinc batteries are made up of electrodes that are screen-printed onto both sides of a sheet of hydrogel-reinforced cellulose paper. A layer of gold thin foil is coated on the electrodes to increase the conductivity of the battery. The battery is about 0.4mm thick, which is roughly the thickness of two strands of human hair.

Impressively, once the battery has reached the end of its lifespan, it can be buried in soil, where it will break down completely within a month.

Continue reading “A New 0.4-MM-Thick ‘Paper Battery’ Can Power a Small Fan for 45 Minutes” »