A team of waste management experts has developed a way of storing waste for years, even decades.
The technique is the first to use an ionic water as a waste disposal system, which they say has the potential to save billions of dollars in the United States and the world.
“I think that we have to be ready for a change in the environment,” said the senior waste management scientist at the Waste Management Corporation of America.
The team, which is working with a large company called Waste-to-Energy, has developed an ionics-based waste management system that could save $1 billion a year in the US and Europe by 2050.
“We have a really unique opportunity to save money on waste management, which could be a game-changer in the waste management industry,” said Dr. Jeffrey Fagan, an associate professor of waste-to–energy management at Rutgers University.
He says that the ionics system could save energy as well as money.
“The ionics will store the waste as a liquid, which means the energy that goes into the waste, or waste that comes from the waste in the system, will go into the system and be recycled.
This way, the waste is no longer stored as a solid waste.
Instead, it is stored as an ionized liquid, where it’s not a solid, but can be recycled.”
Dr. Fagan says the ionic waste system will save $100,000 to $200,000 per year per wastewater treatment plant, which would be a substantial saving for the US.
“It’s a lot of money,” he said.
“There are other ways that you can save money, but that’s the one that I would personally prefer to see.”
For the team, the ionization system is the answer to a question that has long been vexed by waste management.
“We have this idea that we’re always going to be burning more and more fossil fuels,” said Dan Poulin, a waste management specialist at Waste-To-Energy.
The team of experts has been studying waste management for decades. “
What’s happening in the world is that we are using less and less of what we already have.”
The team of experts has been studying waste management for decades.
Their research, which began with a study by a group of waste treatment experts in the 1970s, has become an important area of study for the industry.
“What’s been really fascinating is that there’s this big debate about whether or not we are burning as much fossil fuels as we are supposed to, but what we are actually actually burning is less than we are allowed to burn,” said Poulins.
“If you look at the United Nations report, there’s about two thirds of what they call the global fossil fuel reserves.
And the rest is not being burned at all.
And we’re burning the rest of what’s left.
It’s a huge problem.”
The ionic system is one of the first systems that uses an ion as a storage medium, which allows the ion to act as a filter to prevent the waste from reaching the ground.
This system uses the ion and the water in the water to produce a liquid that can be used as a water filtration system.
This liquid is called ionic solution, and it is a solid that can also be used to make soap.
It is also used in the manufacture of detergents, detergent oil and other products.
“For a long time, there has been a misconception that we had to burn fossil fuels to get the fuel out of the ground,” said Tom Fagan.
“The problem is that the ground is actually the natural reservoir for a lot, and we need to do that for a long, long time.”
Fagan said the technology has a long way to go before it can be widely adopted in the industry, and he hopes to have a commercial product in the next few years.
But the research could help spur changes in waste management practices.
“With our technology, it’s much more straightforward for us to make a water filter for a product, which we use in our products, and to actually have that product in our supply chain, and be able to use that product,” said Fagan of the ionically-based system.
“That’s really important to us, to make sure we don’t have to use the water that comes out of our system to make our products.”