One way or another, via government research or the countless new startups, fusion is well on it’s way.
Chinese scientists have managed to create a hydrogen gas that is three times hotter than the sun.
The artificial solar energy could eventually be used as an inexhaustible source of power, ending reliance on fossil fuels and solving the world energy crisis.
Chinese boffins created the gas in a huge magnetic fusion reactor at the Institute of Physical Science in Hefei.
Danaher’s Instruments of Change — If you feel like your industry that has always been on a slow & stable growth curve is now under greater pressure to change; you’re not alone. Recent indicators are showing with the latest changes in tech and consumers (namely the millennials as the largest consumers today); industries have been shaken up to perform at new levels like never before or companies in those industries will cease to be relevant.
Doing well by doing good is now expected for businesses, and moral leadership is at a premium for CEOs. For today’s companies to maintain their license to operate, they need to take into account a range of elements in their decision making: managing their supply chains, applying new ways of measuring their business performance that include indicators for social as well as commercial returns, and controlling the full life cycle of their products’ usage as well as disposal. This new reality is demonstrated by the launch last September of the Sustainable Development Goals (SDGs), which call on businesses to address sustainability challenges such as poverty, gender equality, and climate change in new and creative ways. The new expectations for business also are at the heart of the Change the World list, launched by Fortune Magazine in August 2015, which is designed to identify and celebrate companies that have made significant progress in addressing major social problems as a part of their core business strategy.
Technology and millennials seem to be driving much of this change. Socially conscious customers and idealistic employees are applauding companies’ ability to do good as part of their profit-making strategy. With social media capable of reaching millions instantly, companies want to be on the right side of capitalism’s power. This is good news for society. Corporate venturing activities are emerging, and companies are increasingly leveraging people, ideas, technology, and business assets to achieve social and environmental priorities together with financial profit. These new venturing strategies are focusing more and more on areas where new partnerships and investments can lead to positive outcomes for all: the shareholders, the workers, the environment, and the local community.
Furthermore, this is especially true in the technology sector. More than 25% of the Change the World companies listed by Fortune are tech companies, and four are in the top ten–Vodafone, Google, Cisco Systems, and Facebook. Facebook’s billionaire co-founder and CEO, Mark Zuckerberg, and his wife have helped propel the technology sector into the spotlight as a shining beacon of how to do good and do well. Zuckerberg and Priscilla Chan pledged on December 1, 2015, to give 99 percent of their fortune to charity. Facebook shares are valued between $40 and $45 billion, which makes this a very large gift. The donations will initially be focused on personalized learning, curing disease, connecting people, and building strong communities.
As oil was to Saudi Arabia, could solar be to Morocco?
Morocco has turned on its enormous solar power plant in the town of Ourrzazate, on the edge of the Saharan desert. The plant already spans thousands of acres and is proficient of generating up to 160 megawatts of power. It’s already one of the largest solar power grids in the world, capable of being seen from space. And it’s only going to get bigger.
The present grid, called Noor I, is just the first phase of a planned project to bring renewable energy to millions living in Morocco. It will soon be followed by expansions, Noor II and Noor III, that will add even more mirrors to the present plant. Once the project is finished around 2018, the whole grid will cover 6,000 acres. It will be capable of producing up to 580 megawatts of power, comparable to that of a small nuclear reactor.
Tesla CEO Elon Musk, speaking at the Hyperloop Pod Competition this week, said he has been thinking more and more about electric jets.
New method to make purify water and eliminate clean water shortages in the future by purifying waste water via artificial leafing.
For years, scientists have been pursuing ways to imitate a leaf’s photosynthetic power to make hydrogen fuel from water and sunlight. In a new twist, a team has come up with another kind of device that mimics two of a leaf’s processes — photosynthesis and transpiration — to harness solar energy to purify water. Their development, reported in the journal ACS Applied Materials & Interfaces, could help address issues of water scarcity.
More than 1 billion people around the world live in areas where clean water is hard to come by, and that number will likely rise as the population grows.
One possible solution to the shortage is to clean up wastewater or other water sources that would otherwise not be drinkable or usable for agriculture. But methods to scrub contaminants from water mostly rely on conventional energy sources. To address the water problem without adding to the dependence on fossil fuels, Peng Tao, Wen Shang and colleagues developed a way to purify water by copying the way green leaves work.
I shared this same point of view yesterday; and glad to see Princeton shares the same perspective on Quantum and it’s abundant capabilities. Again; Quantum is going to truly change (if not everything) almost everything that we consume, use, and interact with even in raw material enrichment will benefit from Quantum.
Claire White, an assistant professor of civil and environmental engineering and the Andlinger Center for Energy and the Environment, studies ways to make building materials more sustainable. It turns out that cement production creates a lot of carbon dioxide, so much that it accounts for roughly 5 to 8 percent of man-made carbon dioxide emissions globally. White and her team are developing new types of cement using industrial byproducts such as coal fly ash and blast-furnace slag. They make these materials more durable by adding nanoparticles.
Watch Assistant Professor Claire White explain her research on a more sustainable type of cement.
Traditional farming has challenges that are now being overcome by innovative and sustainable solutions. One instance is a floating island that is powered by solar energy and has several farms that were created by the Forward Thinking Architecture. The islands are designed to work in an energy efficient manner where rainwater and sunlight are harvested so that the farming is done in a sustainable manner. The floating farms are designed to produce vegetables of the amount twenty tons every day. The advantage of this approach is that it has paved the way for farms such as this to be built and run across the world, even in places that are not accessible or do not have the right resources for farming. Locals can grow the food they need and reduce the need to import food and other goods which can then save money and provide opportunities for local employment. The floating farms and their amazing technology and possibilities are shown below. There are links given as well for those who wish to know more. It surely will revolutionize the problems of food production that has been plaguing many countries.
Becoming immortal is one of mankind’s many quixotic notions that most people will relegate to the world of fantasy and science fiction. However, there is a subset of prominent scientists who believe that immortality is not only attainable, but it is something that will come to fruition in as little as 25 years. This idea is shared by men like Google’s Director of Engineering, Ray Kurzweil; Tesla Motors CEO, Elon Musk; and one of the most interesting presidential candidates outside of Donald Trump and Deez Nuts, Zoltan Istvan. All three men identify as trans-humanist, and for those who don’t know, trans-humanism is the idea that mankind will one day be able to transcend our biological limitations through the use of science and technology; not to mention, the movement has accumulated over 3 million supporters worldwide. So the question remains, with the multitude of prominent intellectuals who believe immortality is a tangible goal, just how will they go about achieving it? Well, the six answers below could possibly hold the key to everlasting life.
Number Six: Uploading Minds to Computers. Futurists believe that at some point in the near future we will be able to copy and scan all of the data that exists in our brains and upload the information into a computer. This will allow us to perpetually exist as incorporeal inhabitants of cyberspace. Of course, the idea of mind uploading is still purely science fiction, but if it ever becomes tangible, progeny could possibly live in a limitless world, that echoes notions expressed in the Matrix; minus the robot despots.
A Japanese firm said Monday it would open the world’s first fully automated farm with robots handling almost every step of the process, from watering seedlings to harvesting crops.
Kyoto-based Spread said the indoor grow house will start operating by the middle of 2017 and produce 30,000 heads of lettuce a day.
It hopes to boost that figure to half a million lettuce heads daily within five years.
As solar power becomes a bigger and bigger part of the overall energy landscape, engineers around the world are busy working out how to build plants that are large and efficient enough to keep up with demand. Now Japanese electronics giant Kyocera is starting construction on what it says will be the largest floating solar power plant (in terms of overall capacity) in the world.
It’s the fourth such floating plant Kyocera has worked on so far, but this one promises to be the most impressive yet: the facility is going to be built on the Yamakura Dam reservoir to the south-east of Tokyo in Japan, and will pump out 13.7 megawatts (MW) of power once it’s completed in March 2018. Some 51,000 photovoltaic panels will be stitched together to cover around 180,000 square metres (about 44.5 acres) of space.
That’s roughly the same area as 18 soccer pitches, so you get a sense of the sort of scale we’re talking about here. Kyocera says the new plant will provide enough power for 4,970 average households and offset around 7,411 tonnes of CO2 emissions every year that it’s in operation (equivalent to 19,000 barrels of oil).
