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Ridding the oceans of plastics by turning the waste into valuable fuel

April 03, 2017

SAN FRANCISCO, April 3, 2017 -- Billions of pounds of plastic waste are littering the world's oceans. Now, a Ph.D. organic chemist and a sailboat captain report that they are developing a process to reuse certain plastics, transforming them from worthless trash into a valuable diesel fuel with a small mobile reactor. They envision the technology could someday be implemented globally on land and possibly placed on boats to convert ocean waste plastic into fuel to power the vessels.

The researchers will present their results today at the 253rd National Meeting & Exposition of the American Chemical Society (ACS). ACS, the world's largest scientific society, is holding the meeting here through Thursday. It features more than 14,000 presentations on a wide range of science topics.

A sailor for 40 years, James E. Holm says he has watched the sea and coastline become more and more polluted. "A few years ago, I was sailing through the Panama Canal, and when I stopped at an island on the Atlantic side, I was stunned by the amount of plastic covering the beach. I thought if I had a chance to do something about it, I should."

His partner, Swaminathan Ramesh, Ph.D., was driven by the desire and excitement of searching for a new "killer idea" with the power to change the world. Ramesh took early retirement in 2005 from BASF after 23 years as a research chemist and began looking for new opportunities. Ramesh formed EcoFuel Technologies and coupled his chemical knowledge with Holm's concerns about plastic wastes and ocean pollution. In the meantime, Holm had formed Clean Oceans International, a nonprofit organization.

They sought to optimize a technology that can use waste hydrocarbon-based plastics as a feedstock for valuable diesel fuel. Their goal was to rid the world of plastic waste by creating a market for it.

For years, Ramesh explains, pyrolysis technologies have been used to break down or depolymerize unwanted polymers, such as plastic wastes, leaving a hydrocarbon-based fuel. But the process usually calls for complex and costly refining steps to make the fuel useable.

Ramesh set out to change the game and developed a metallocene catalyst deposited on a porous support material that, coupled with a controlled pyrolysis reaction, yields diesel fuels directly without further refining. It is also cost-effective on a small scale, runs at lower temperatures and is mobile.

"The catalyst system also allows us to perform the pyrolysis as a continuous-feed process and shrink the footprint of the whole system," Ramesh says. "We can scale the capacity to handle anywhere from 200 pounds per 10-hour day to 10,000 or more pounds per 10-hour day. Because of its small size, we also can take the technological process to where the plastic wastes are." The whole system can fit in a 20-foot shipping container or on the back of a flat-bed truck, Holm says.

The next step, they say, is to show the technology works well and that it can create a useable drop-in diesel fuel. They will soon conduct a demonstration project for the government of the city of Santa Cruz, California. Officials there are interested in implementing the technology to address waste plastics that currently cannot be recycled, as well as to formulate diesel fuel the city can use for its vehicles, Holm adds.

"If we can get people around the world to pick this up and use it to shift waste plastics to fuel and make money, we are winning," Holm says. "We can even eliminate plastic waste before it gets to the oceans by creating value for it locally on a global basis."
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A press conference on this topic will be held Monday, April 3, at 1:30 p.m. Pacific time in the Moscone Center. Reporters may check-in at the press center, South Building, Foyer, or watch live on YouTube http://bit.ly/ACSLive_SanFrancisco. To ask questions online, sign in with a Google account.

The team has received private funding for this project. Development of the catalyst system and reactor are self-funded by Ramesh and his company EcoFuel Technologies.

The American Chemical Society is a nonprofit organization chartered by the U.S. Congress. With nearly 157,000 members, ACS is the world's largest scientific society and a global leader in providing access to chemistry-related research through its multiple databases, peer-reviewed journals and scientific conferences. ACS does not conduct research, but publishes and publicizes peer-reviewed scientific studies. Its main offices are in Washington, D.C., and Columbus, Ohio.

To automatically receive press releases from the American Chemical Society, contact newsroom@acs.org.

Note to journalists: Please report that this research was presented at a meeting of the American Chemical Society.

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Title

Oceans of plastic converted to liquid fuels via small scale thermal depolymerization reactors

Abstract

An estimated 10 to 28 billion pounds of plastic waste has entered the oceans annually since 2010, beyond the 500 million pounds already floating there, causing irreparable damage to the marine life and environment. Both remediation and prevention of further migration of plastic into the oceans are imperative.

Clean Oceans International (COI) offers an innovative and sustainable long-term global solution to plastic pollution on land and sea. That plastic stream can be diverted from the ocean and converted to 20-50 million barrels of liquid fuels annually by Plastic to Fuel (PTF) reactors developed by Eco-Fuel Technologies (EFT) and in concert with Clean Oceans International. Each of these small-to-medium-scale reactors can convert 100-10,000 pounds of plastic per day via catalytic thermal depolymerization technology.

EFT's reactor size allows its placement aboard vessels on or near ships actively engaged in floating plastic retrieval, solving key logistical problems in remediation. Storage and transport of plastic waste to land-based sites is no longer needed, saving money and reducing environmental impact. Best of all, plastic wastes are converted to liquid fuels to be directly used by these vessels.

Mobile land-based PTF reactors are optimal for converting plastic waste at remote sites, such as plastic sheeting used in agriculture, from which transport to a central location is unfeasible.

The PTF reactor design must be sufficiently robust to process floating plastic wastes of varying shapes, sizes, concentrations, and chemical composition. The resulting feedstock is a salt-water soaked mix of several plastics, including polyester, polyethylene, nylon, and others.

COI's vision of global plastic remediation and energy production provides a world of environmental and economic benefits.

American Chemical Society

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