DESIGNING THE FUTURE

Imagine buildings that generate more energy than they consume and factories whose waste water is clean enough to drink. William McDonough has accomplished these tasks and more. Architect, industrial designer and founder of McDonough Braungart Design Chemistry in Charlottesville, Va., he's not your traditional environmentalist. Others may expend their energy fighting for stricter environmental regulations and repeating the mantra "reduce, reuse, recycle." McDonough's vision for the future includes factories so safe they need no regulation, and novel, safe materials that can be totally reprocessed into new goods, so there's no reason to scale back consumption (or lose jobs). In short, he wants to overhaul the Industrial Revolution--which would sound crazy if he weren't working with Fortune 500 companies and the government of China to make it happen. The recipient of two U.S. presidential honors and the National Design Award, McDonough is the former dean of architecture at the University of Virginia and co-chair of the China-U.S. Center for Sustainable Development. He spoke in New York recently with NEWSWEEK's Anne Underwood.

UNDERWOOD: Why do we need a new industrial revolution?

MCDONOUGH: The Industrial Revolution as a whole was not designed. It took shape gradually as industrialists and engineers figured out how to make things. The result is that we put billions of pounds of toxic materials in the air, water and soil every year and generate gigantic amounts of waste. If our goal is to destroy the world--to produce global warming and toxicity and endocrine disruption--we're doing great. But if the goal isn't global warming, what is? I want to crank the wheel of industry in a different direction to produce a world of abundance and good design--a delightful, safe world that our children can play in.

You say that recycling, as it's currently practiced, is "downcycling."

What we call recycling is typically the product losing its quality. Paper gets mixed with other papers, re-chlorinated and contaminated with toxic inks. The fiber length gets shorter, allowing more particles to abrade into the air, where they get into your lungs and nasal passages, and cause irritation. And you end up with gray, fuzzy stuff that doesn't really work for you. That's downcycling.

[My mentor and colleague] Michael Braungart and I coined the term upcycling, meaning that the product could actually get better as it comes through the system. For example, some plastic bottles contain the residues of heavy-metal catalysts. We can remove those residues as the bottles come back to be upcycled.