Press Release

Is It Safe to Breathe Yet?

"Double-flame" research seeks to improve soot combustion, reduce pollutants

FOR IMMEDIATE RELEASE  April 26, 2010

CONTACT:
Melissa Corley
301 405 6501
mcorley@umd.edu

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Photo by Peter Sunderland/Clark School of Engineering. Hi-res version here.

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COLLEGE PARK, Md.-Anyone who has ridden behind a truck belching black exhaust knows the smell and discomfort caused by soot, the airborne carbon particles that result from the incomplete combustion of hydrocarbons such as diesel fuel. Those soot particles remain in the body beyond the moment of discomfort and can lead to lung diseases and other conditions.

Peter Sunderland, assistant professor of fire protection engineering at the University of Maryland's A. James Clark School of Engineering, recently won a National Science Foundation Early Faculty Career Development Award to improve our understanding of how soot is formed and burned. The results of his research can show designers how to build cleaner and more efficient engines for trucks, buses, airplanes and other combustion systems, and reduce pollution that may harm our lungs and our environment.

Surprisingly, soot has been hard to study because of the complex chemistry in flames. Sunderland aims to separate experimentally two overlapping phases of soot production—soot formation and soot oxidation—so each can be more effectively analyzed and measured. This in turn will help engine designers improve the way fuel is injected and burned in engines.

Sunderland is the first to use a double-flame burner to study the chemical reactions that occur when soot oxidizes, or burns away.

"In a normal flame, like a candle, soot is formed low in the flame and burns off near the top," Sunderland says. "However there is a lot of overlap, making it difficult to measure the formation and oxidation rates. In this double flame, the upper flame has only soot oxidation, so there is no such overlap and thus the oxidation rates can be measured more accurately."

The burner has two distinct flames. The lower flame is a bright yellow hydrocarbon flame that emits a soot stream. This stream then enters the upper flame, which is a barely visible hydrogen flame. The soot chemistry in the upper flame is simpler and easier to study than in a normal flame.

Soot is made up of big carbon molecules. In some cases, soot is desirable – it is what lends the yellow color to a candle flame and it is processed into toner used in most printers. It also speeds fire growth and is a very dangerous pollutant that contributes to climate change. Soot is what colors the black exhaust emitted from diesel engines. Tiny soot particles can enter the lungs and bloodstream, leading to cardiovascular disease and lung cancer.

Both graduate and undergraduate students will help Sunderland with this new research, which will be incorporated into the courses that Sunderland teaches. He also will develop a day-long flame laboratory based on this project for high-school students. The Clark School's Department of Fire Protection Engineering has the only accredited undergraduate program of its type in the country.

National Science Foundation Faculty Early Career Development awards support and honor teacher-scholars for integrating outstanding research and education. For more information, visit the NSF web site: http://nsf.gov/funding/pgm_summ.jsp?pims_id=5262&org=NSF

More Information: More Information:

NSF CAREER Award Abstract

Prof. Sunderland's Profile

About the A. James Clark School of Engineering

The University of Maryland’s A. James Clark School of Engineering is a premier program, ranked among the top 20 in the world. Located just a few miles from Washington, D.C., the Clark School is at the center of a constellation of high-tech companies and federal laboratories, offering students and faculty access to unique professional opportunities.

Our broad spectrum of academic programs, including the world’s only accredited undergraduate fire protection engineering program, is complemented by a vibrant entrepreneurial ecosystem, early hands-on educational experiences, and participation in national and international competitions.

The Clark School is leading research advancements in aerospace, bioengineering, robotics, nanotechnology, disaster resilience, energy and sustainability, and cybersecurity. From the universal product code to satellite radio, SMS text messaging to the implantable insulin pump, our students, faculty, and alumni are engineering life-changing innovations for millions. Learn more at www.eng.umd.edu.