1. Pyrazines: A diverse class of earthy-musty odorants impacting drinking water quality and consumer satisfaction.
- Author
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Wang, Chunmiao, Yu, Jianwei, Gallagher, Daniel L., Byrd, Julia, Yao, Wenchuo, Wang, Qi, Guo, Qingyuan, Dietrich, Andrea M., and Yang, Min
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DRINKING water quality , *ODORS , *CUSTOMER satisfaction , *PYRAZINES , *HENRY'S law , *DRINKING water , *METHOXY compounds - Abstract
The presence of earthy-musty odors in drinking water is a major concern for water suppliers and consumers worldwide. While geosmin and 2-methylisoborneol are the most studied earthy-musty odor-causing compounds, pyrazine and its alkyl and methoxy compounds possess similar odors and are widely distributed in nature, foods, and beverages. In this study, odor characteristics of pyrazines and their presence in natural and treated waters were determined. Pyrazine, 2,6-dimethyl-pyrazine (DMP), 2,3,5-trimethyl-pyrazine (TrMP), 2-ethyl-5(6)-methyl-pyrazine (EMP), 2,3,5,6-tetramethyl-pyrazine (TeMP), 2-isobutyl-3-methoxy-pyrazine (IBMP) and 2-isopropyl-3-methoxy-pyrazine (IPMP) were measured in source and finished drinking water across China. 2-Methoxy-3,5-dimethyl-pyrazine (MDMP), IBMP, and IPMP were investigated in rivers in Virginia, USA. The results showed that "musty" and "sweet" were the most common descriptors for pyrazine, DMP, MDMP, TrMP, and TeMP. While IBMP and IPMP were never detected in 140 source or drinking water samples from across China, pyrazine, DMP, MDMP, TrMP, and TeMP occurred throughout with concentrations of n.d.−62.2 ng/L-aq in source water and n.d.−39.6 ng/L-aq in finished water. IBMP, IPMP, and MDMP were present in two Virginia rivers; MDMP occurred in 18% of the samples with concentrations of n.d.−4.4 ng/L, many of which were above the aqueous odor threshold of 0.043 ng/L MDMP. The removal efficiencies through conventional water treatment were poor, ranging from negative removals to ∼10%. Advanced oxidation water treatment could only remove EMP and TrMP. The widespread presence of earthy-musty-sweet pyrazines in source and drinking waters on two continents, their poor removal during water treatment, and ng/L odor threshold concentrations confirm their potential to be T&O issues for consumers. Image 1 • Pyrazines co-occur widely and are often found in source and drinking waters. • "Musty" and "sweet" were the dominant descriptors applied to all five pyrazines. • Pyrazines can have low ng/L OTCs and are overlooked as T&O contributors. • Conventional and advanced oxidation treatment showed limited removal of pyrazines. • Using Henry's Law and OTCs in water to predict OTCs in air could be a powerful tool. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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