(CNN) What do you get if you cross a tech entrepreneur with a farmer?
The world's largest, and possibly most sophisticated indoor farm -- where greens grow without sun, soil or water.
Well, almost no water. AeroFarms, the company behind the venture, say they will use 95% less water than a conventional outdoor farm.
Set to open in September in Newark, New Jersey, the 69,000-square-foot farm will be hosted in a converted steel factory. It combines a technique called "aeroponics" - like hydroponics, but with air instead of water - with rigorous data collection, which will help these modern farmers figure out optimal conditions for growth.
The goal? To produce tall, handsome, tasty baby greens and herbs such as kale, watercress and basil.
This will be the largest farm of its kind in the world in terms of production capacity: 2 million pounds of greens a year, according to Aerofarms founder David Rosenberg.
But the company's ambitions go beyond selling vast amounts of veg. They also hope to provide an answer to a looming food crisis.
The world's population will hit 8.5 billion by 2030, according to UN estimates, meaning many more mouths to feed.
Most people now live in cities, with 54% of the world's population already living in urban areas.
Rosenberg says innovation is urgently needed to feed everyone, and urban farming might be part of the solution.
"We are building this company to be wildly impactful. Not just to build a few farms, but to change the world."
Inside the farm, there are no natural seasons, nights or days. Light, air humidity and temperature are all tightly controlled.
As soon as one harvest is in, another begins -- each plant is expected to yield between 22 and 30 harvests a year.
Long rows of LED tubes shed light at the exact wavelength each plant needs to thrive. Instead of soil, the plants are grown on a cloth made from recycled materials, and their roots are misted with a solution of nutrients.
The company says their method is superior to more commonly used indoor farming techniques like aquaponics and hydroponics, which require much more water, and that the plants taste the same, or even better, than their conventionally grown counterparts.
Aeroponic farming techniques have been used before. NASA astronauts use it to grow food at the International Space Station, for example, and home-grow DIY kits can be ordered from a number of companies online.
To make sure the greens have everything they need, the company collects data from the plants to create algorithms for growth.
"We built our own software which take images of leaves to understand height, width, length, stem ratio, curving, color, spotting and tearing," says Rosenberg.
The long rows of so-called growing towers are more like computers than farms, with sensors everywhere observing the process. Every now and then, one of the farmers does an inspection to ensure all is well, explains co-founder Marc Oshima.
"We think of ourselves as plant whisperers, listening and observing everything we can do to optimize our plants. Our growing approach is really leading the way, marrying biology, engineering, and data science."
Their farms are partly run on renewables such as solar power, but what really gets the carbon footprint down is bypassing extensive transportation of the produce by only selling the greens to local markets, shops and restaurants.
Staying local is part of the philosophy. "We have had some request to go nationwide. It's tempting, but seems counter to our mission of locally produced food," Rosenberg says.
In addition to ultra-low water usage, not using any soil further reduces the environmental impact.
The crops are currently sold at a 20% premium, similar to organic and locally produced food, but because no soil is involved, they cannot get an organic certification, although some retailers consider them to be beyond organic, Rosenberg explains.
The closed-loop system uses only non-GMO seeds and no pesticides, herbicides or fungicides, and so it reduces the harmful agricultural run-off into the environment, says Rosenberg.
"I think we are going to have a bigger and bigger impact on leafy greens and other crops in the future. And the future is going to be very different, in large part because of data."