Invention to save the Planet
There is an invention being made which can help save the planet. Learn all about this technology and how it can be used to help save the planet.
As a species, we have filled landfills and oceans with non-perishable waste and have been pumping more and more greenhouse gases into the atmosphere over the past century. And now, the whole world is getting wiser because this garbage is going nowhere without serious intervention.
Some outstanding scientists have developed products and machines that help us treat our planet more carefully. Here are ten lesser-known inventions that can be implemented on a large scale and lead to a healthier, happier world.
Biodegradable cellular green foam packaging
The development of Styrofoam mounds in our landfills is one of the most worrying problems on the planet. KTM Industries may have the answer. They created a material made from cornstarch designed to provide an eco-friendly packaging that can be used for almost anything you want.
About 1,369 tons of Styrofoam are shipped daily to the United States. Buried in the landfill. And by volume, foam products fill 25 to 30 percent of landfill space worldwide. And it takes about seven births (500 years) to decompose completely. Meanwhile, green cell foam takes four months to decompose in any compost pile fully.
Green car foam doesn’t even need to be recycled. They “provide disposal options that go beyond recycling.” It can be safely brewed or burned during your barbecue. And it’s completely water-soluble – meaning that as soon as it touches water, it’ll completely disappear before your eyes.
Developing trash heaps that will take centuries to disappear is a severe problem, which (thankfully) means there’s a growing interest in creating eco-friendly alternatives. The field for everyday items that we take for granted.
Transparent Solar Cell
Transparent solar cells could answer some of our most pressing environmental concerns. Achieving a fully transparent solar cell has been the ambition of many researchers for over a decade. And now, thanks to an unprecedented discovery by Michigan State University, it is starting to become a reality.
In his research, he used organic salts that absorb specific wavelengths of invisible light, such as ultraviolet light. When the lights are turned on, the panel’s contents are transferred to its sides, where uniquely designed cells convert sunlight into electricity.
It is said that the technology can also be applied to portable devices such as tablets and mobile phones. They have recently developed this technology with a lifespan of 30 years. They also predict that production costs will be competitive with existing solar technologies.
Thanks to these prominent scientists, a world without fossil fuels is becoming a reality. There’s a good chance you’ll drive a car in the future powered entirely by solar energy. The application opportunities for transparent solar cells are practically endless, so one day, they could be so widely produced that we’ll never have to plug in a cell phone again. !
Gass Bottle Recycling Machine
Back in 2015, DB Breweries assembled Brewtoleum, the world’s first biofuel made entirely from by-products of the brewing process. But they don’t stop here. In 2017, he launched the “Beer Bottle Sand” initiative, which aims to make beer bottle grinders into fine, usable sand within 5 seconds.
They want to diminish the world’s dependence on beach sand. The company’s chief PR and the digital officer explains: “Two-thirds of the world’s beaches are retreating as people around the globe use non-renewable beach sand for construction, road construction, and other purposes. Other. Whether introducing these machines is a clever marketing ploy or a genuine concern for environmental issues, we must admit that this is a great way to eliminate unused bottles. Your use.
The machine can be placed in supermarkets and bars so that customers and their beer enthusiasts can contribute to reducing the environmental impact of enjoying a cold beer. What do you not like? They desire to be the country’s most sustainable beer and stay true to their word, and they are reducing plastic use by 45,275 kg (99,814 lb) and ink used by 50,000 liters (13,205 gallons).
Water ooh — Edible Shells
Notpla’s Ooho Water Pods are among the world’s first water bottle alternatives. One million plastic bottles are bought every minute around the world. And better than half a trillion will be sold yearly by the end of this decade. For him to drown, It takes 162 grams (5.7 oz) of oil and 7 liters (7.39 liters) of water to make one water bottle. This is equivalent to emitting 100 grams of carbon dioxide (CO2).
Between 5 and 13 million excesses of plastic leak into the earth’s oceans yearly for seabirds, fish, and other creatures to eat. According to research from the Ellen MacArthur Foundation, by 2050, there will be more plastic by weight in the oceans than fish. That’s why plastic bottles are such a severe problem. But the beautiful people of Ooho have developed an innovative alternative.
The tiny water shell is surrounded by durable packaging material containing seaweed and plants. The content of the ingredients means that it is entirely biodegradable and edible. “So it goes wrong like a bit of fruit in 4-6 weeks. Or you can eat it, ideal for on-the-go consumption!”
Sadly, the water shell doesn’t have enough incentive to be accepted by society. Ooho, the company behind Notpla, recently switched to producing eco-friendly packaging (identical materials used on Ooho). It’s an intuitive invention that can solve many problems but doesn’t quite get there. Maybe the world is not prepared for it yet?
Vertical farming: The future of Collective Farming
Agricultural practice is more than 10,000 years old, and our approach to it has changed dramatically, especially in the last ten years. Vertical farming (also comprehended as vertical hydroponics) has been introduced gradually over the past two decades when Professor Dixon Despomier, a professor at Columbia University in New York, encouraged the development of the concept. This is among its students.
Agriculture in general, as we all know, depends on many external factors, mainly the weather. That’s why we rely on everything working as planned to get the amount of harvest needed for the population. The world’s population is expected to exceed 9 million by 2050, so having a more reliable plant source that can be increased (and in any place) can sustainably more sustainable to feed the world’s population.
Applying other newly developed technologies such as LED grow lights and computer-aided systems can automatically control pH, nutrient levels, and temperature, allowing it to grow year-round with efficiency. Much higher than conventional farming.
Scientists have said that the adoption of large-scale vertical farming can have a significant positive impact on climate change. Growing food indoors allows the farm to return to its original (ecological) function. This farming method significantly reduces land needs (from 10 to 20 times). Therefore, bare land can be used for forest redevelopment.
Caterpillars Eat Plastic
The plastic-eating caterpillar is more of a discovery than an invention. However, these minor flaws certainly deserve an honorable mention.
With more than 350 million tons of plastic produced annually worldwide, finding solutions to dispose of it every year becomes even more urgent. The world has made more than 77 billion tons of plastic since 1950. That’s more than a ton for every person alive today.
Scientists claim to have found the answer to the enormous amount of biodegradable plastic waste we sit on – the plastic-eating caterpillars. To date, more than 50 species of microorganisms have been discovered capable of converting plastic into energy.
One particular bacterium, Ideonella sakaiensis, was discovered by scientists in Japan in 2016 outside a plastic recycling plant. Typically, bacteria consume dead organic matter, but Idonella sakiensis developed the taste of a particular plastic called polyethylene terephthalate (PET). Scientists have discovered that they produce two types of digestive enzymes that, once in contact with PET plastic, break down long molecular chains into shorter ones, which are then processed to release energy for the growth of bacteria.
For now, this rate at which microorganisms break down plastic is not a rate that can affect our plastic pollution problem. However, scientists are studying how they treat plastic and hope to one day regenerate or bioprocess these bacteria so we can solve the global situation.
Avani Eco Shopping Bag
Avni has created a completely biodegradable shopping bag made from materials that are very good for our planet. It is gauged that one trillion plastic grocery bags are consumed each year globally. That’s more than half a million tons of plastic. Despite the efforts of corporations to reduce and recycle plastic, an estimated 5.8 million tons of plastic is no longer in use, with only 9% being recycled since 1950.
Paper packs are also out of the question; They require four times more production energy than plastic bags – not to mention the harmful chemicals used in their manufacturing process. Therefore, the introduction of fully biodegradable products capable of completely replacing their plastic products would be welcomed. The Avani bio-cassava bag is a premium example of seamless product design using biodegradable materials.
The shopping bag is made from starch from tapioca root, and the whole bag is fully biodegradable in 180 days. Avani’s alternative to conventional grocery bags is certified non-GMO, free of petroleum, and the ink used for printing is entirely eco-friendly.
Home Biogas 2.0
HomeBiogas 2.0 has been marketed as a way for everyday consumers to participate in reducing the world’s greenhouse gas emissions. They had a Kickstarter in 2020, which concluded with a very successful campaign. It has achieved more than 600% of its target.
The biodigester can process up to 6.8 liters (1.5 gallons) of organic waste per day, producing up to two hours of free cooking gas. This great product allows individuals to make a huge impact and become more self-sufficient. If used at total capacity, it saves six tons of CO2 entering the atmosphere each year. The average global carbon footprint per person per year is 4 tons.
Screening of Potable Seawater
Next comes a solution to an age-old problem: a graphene sieve that makes seawater drinkable. A UNICEF study found that 884 million people did not have safe drinking water in 2017.
This breakthrough was devised by scientists from the University of Manchester under the leadership of Dr. Rahul Nair. He explained how the sieve works: “Water molecules can move apart, but sodium chloride can’t. It always requires the help of water molecules. The surrounding water shell. Salt is larger than the size of the channel, so it’s impossible. He says his water purification method is a simple, scalable method that removes 97% of sodium chloride (salt).
This sieve will not only solve the worldwide clean water crisis but the growing problem of microplastics on a global scale. Researchers have found that microplastics are a significant cause of plastic pollution and are widely found in the environment, even in humans and other animals. So overall, this extremely intuitive graphene sieve could be a game-changer in many ways.
Liters of light — Recycled Solar Lights
The company describes itself as a “global, grassroots movement” committed to providing affordable, sustainable sunlight to those with limited or limited access to electricity.
They form a low-cost light tube that refracts sunlight daily to provide electricity-free lighting. They aim to provide complimentary light in their homes to the one billion people facing power shortages worldwide. It works by filling a two-liter bottle with water and some bleach (which prevents algae growth).
It is an open-source technology combined with existing materials. They have been recognized by the United Nations and have installed more than 350,000 bottle lights in 15 countries. The great thing about Light of Light is that they have created partnerships worldwide to send volunteers to disadvantaged communities to use readily available materials to light up streets and homes. Their.
Overall, this invention (and the base movement that came with it) has been instrumental in reducing reliance on electricity, encouraging “disposable” plastic reuse, and, most importantly, bringing light to the world. Disadvantaged communities. A great approach.