‘Peeling the Onion’ to Get Rid of Odors Near Wastewater Treatment Plants

Article ID: 671182

Released: 20-Mar-2017 8:00 AM EDT

Source Newsroom: American Chemical Society (ACS)

EMBARGOED FOR RELEASE: Sunday, April 2, 2017, 5 a.m. Eastern Time Note to journalists: Please report that this research will be presented at a meeting of the American Chemical Society.

Newswise — SAN FRANCISCO, April 2, 2017 — Powerful nuisance odors from sewage and wastewater treatment facilities are a worldwide problem, but finding and eliminating the sources of such unpleasant aromas can be difficult. Scientists have compared the search to peeling an onion — one layer is found and removed, but then a second and third emerge, ready to make their odoriferous presence known. Scientists have now developed a system to sample, measure, categorize and control these smells and are applying it from Seattle to Sydney. 

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.

“Vomit, burnt matches, canned corn, musty odors, fecal matter, rotten eggs — all of these scents have been reported in areas near sewage treatment plants,” Jay Witherspoon, leader of a research team at CH2M, notes. Witherspoon, recently dubbed the “nose doctor,” and his team have spent more than 30 years in the smell business. “Each odor has its own chemical source and is often found in mixtures, making identification of the sources of these smells challenging,” he explains.

“People have become more sensitive to odors, and they are living closer to treatment facilities,” Witherspoon notes. In the past, plants were built far from where people lived, but today homes are built ever closer to such facilities as cities have expanded. “Smells have become a quality of life issue,” he says.

For field testing, Irwin Suffet, Ph.D., a collaborator from the University of California, Los Angeles (UCLA), developed an “odor wheel.” It displays public-friendly general descriptions of a range of smells on the outside and the chemical composition of the smelly agents on the inside. The team uses this wheel to ask the public about a bothersome stench. To capture and measure odors, the researchers use plastic bags, metal containers, sorbent tubes, hand held devices and electronic noses. The samples are then analyzed in laboratories using both sensitive detection devices and human panels. One of the detection devices is typically a mass spectrometer, which can help identify the compounds that make up the offensive scent. The human odor panels determine how strong and offensive the smell is to people, based on their experience.

Once identified, the chemical and its aroma can be eliminated with scrubbers, biofilters or the introduction of other chemicals that can mask the offensive one.

Over the years, the most common stink — the odor of rotten eggs from hydrogen sulfide — has been mostly eliminated by extensive chemical and biological odor control equipment. However, Witherspoon notes, other smells can cause concern, such as the odor of rotten vegetables that can come from methyl mercaptan and dimethyl disulfide; the canned corn smell emitted by dimethyl sulfide; the musty smells from 2-methyl isoborneol and 2-isopropyl-3-methoxypyrazine; the fecal odor of skatole and indole; and the pungent smell of ammonia.

The cheapest way to control these chemicals is at their source but that is not always possible, Witherspoon says. For instance, an odor from a chemical emitted by an industrial facility was not apparent until the compound reached a Philadelphia sewage treatment plant. The strong odor of dimethyl sulfide was only released when the chemical was exposed to oxygen and bacteria in the sewage treatment facility’s aeration tank.

Right now, Witherspoon and other researchers are working to refine and standardize the technology to measure and control odors. Currently, Witherspoon has to take most of the samples to his collaborator at UCLA for analysis, but he says this technique is being expanded to other laboratories and is spreading throughout the industry as a whole as a viable alternative to traditional methods.

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CONTACT:Jay WitherspoonCH2MSan Francisco, CA 94105Phone: 425-985-5636Email: jay.witherspoon@ch2m.com

TitleFrom Philly to smell A - tracking, measuring, and controlling non-H2S odor nuisances

Abstract This paper covers a unique nuisance odorant measurement approach, sampling results, and control investigations for two large U.S. wastewater treatment plants located in Philadelphia and Los Angeles areas. These plants both were receiving non-Hydrogen Sulfide (H2S) related odor complaints from the surrounding communities. Both plants had installed extensive chemical and/or biological odor control abatement equipment that were designed to primarily remove H2S. CH2M and UCLA partnered to investigate, measure, and recommend abatement strategies that removed these non-H2s odorants. The common description of these odors from the community included “canned corn;” “burnt matches,” “rotten cabbage;” and, “putrid” smells. UCLA developed an “Odor Profile Method (OPM)” sensory analysis approach that was used to identify key nuisance odorants at these plants. CH2M provided technologies or combination of technologies to address these odorants. This paper shows the approach, measurement results, and potential abatement strategies to meet the plant’s “Level of Service” to the community.

SUMMARYNuisance smells from sewage and wastewater treatment facilities are a worldwide problem. Finding and eliminating the sources of such unpleasant odors can be difficult. However, scientists have now developed a system to sample, measure, categorize and control these smells and are applying it worldwide. They present their work today at the 253rd National Meeting & Exposition of the American Chemical Society.

KEYWORDSChemistry/Physics/Materials Sciences (Industrial Engineering/Chemistry); Social/Behavioral Science (Anthropology: Quality of Life); Technology/Engineering/Computer Science (Industrial Engineering/Chemistry)


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