Odour measurements for sewage treatment works.

Public concern over odours from sewage treatment works is increasing. More people are being exposed to odours, due to development around existing works or construction of new works. Increased awareness of both the environment and individual rights has meant people are now more likely to complain. Odour abatement and control is a major issue for sewage works operators. To control odours, they must first be measured. This is no easy task as response to odours is subjective. Our understanding of the sense of smell is incomplete, and there is no single measure that will directly relate to the likelihood of complaint. Odour measurement has often been regarded as an art as opposed to a science. Odour measurement techniques fall into two classes. Sensory measurements employ the human nose and measure the effects of the odour as perceived by an observer. Analytical measurements characterise odours in terms of their chemical composition and attempt to quantify the odorants present. Both methods are less than ideal--sensory measurements can be overly subjective and the interpretation of results requires care. Analytical measurements are complicated by the large number of odorants present, often at concentrations close to detection limits. Our incomplete understanding of odour perception makes linking analytical and sensory measurements difficult. This paper reviews the methods applied to sewage treatment works odour measurement. Sensory and analytical measurements are reviewed, along with a recent development, the electronic nose.

[1]  T. Pearce Computational parallels between the biological olfactory pathway and its analogue 'the electronic nose': Part I. Biological olfaction. , 1997, Bio Systems.

[2]  K C Persaud,et al.  Assessment of conducting polymer odour sensors for agricultural malodour measurements. , 1996, Chemical senses.

[3]  K. Hanaki,et al.  Fate of dissolved odorous compounds in sewage treatment plants , 1998 .

[4]  Neil A. Webster,et al.  Odor and corrosion control in sanitary sewerage systems and treatment plants , 1989 .

[5]  Thorkild Hvitved-Jacobsen,et al.  Sulfide production and wastewater quality in pressure mains , 1998 .

[6]  Lawrence C. C. Koe,et al.  Hydrogen sulphide odor in sewage atmospheres , 1985 .

[7]  Richard M. Stuetz,et al.  Sewage odour measurements using a sensory panel and an electronic nose , 1998 .

[8]  Anders Grimvall,et al.  Drinking water off-flavour caused by the formation of short-chain fatty acids in slow sand filters , 1995 .

[9]  T. Pearce,et al.  Computational parallels between the biological olfactory pathway and its analogue 'the electronic nose': Part II. Sensor-based machine olfaction. , 1997, Bio Systems.

[10]  R. Buttery,et al.  Additive Effect of Sub-Threshold Concentrations of Some Organic Compounds Associated with Food Aromas , 1963, Nature.

[11]  T. J. Schulz,et al.  International moves towards standardisation of odour measurement using olfactometry , 1996 .

[12]  W S Cain,et al.  Life-Span Development of Odor Identification, Learning, and Olfactory Sensitivity , 1995, Perception.

[13]  William S. Cain,et al.  Perception of Odor and Nasal Pungency from Homologous Series of Volatile Organic Compounds , 1994 .

[14]  Krishna C. Persaud,et al.  Use of an Electronic Nose to Measure Odour Concentration Following Application of Cattle Slurry to Grassland , 1997 .

[15]  Irwin H. Suffet,et al.  The determination of compounds causing fishy/swampy odors in drinking water supplies , 1995 .

[16]  Paul N. Cheremisinoff Industrial odour control , 1992 .

[17]  Simon A. Parsons,et al.  Sewage treatment works odour measurement , 2000 .

[18]  William S. Cain,et al.  Detection thresholds for an olfactory mixture and its three constituent compounds , 1993 .

[19]  D Mergler,et al.  Measurement precision of an olfactory perception threshold test for use in field studies. , 1991, American journal of industrial medicine.

[20]  D L Massart,et al.  Food odor thresholds in relation to age, nutritional, and health status. , 1995, The journals of gerontology. Series A, Biological sciences and medical sciences.

[21]  Richard A. Duffee,et al.  Consideration of Physical Factors in Dynamic Olfactometry , 1980 .

[22]  A. Zeman,et al.  Mass spectrometric analysis of malodorous air pollutants from sewage plants , 1983 .

[23]  D. G. Laing,et al.  Perceptual characteristics of binary, trinary, and quaternary odor mixtures consisting of unpleasant constituents , 1994, Physiology & Behavior.

[24]  R. Balling,et al.  A model for evaluating the dispersion of wastewater plant odors , 1980 .

[25]  H. Langenhove,et al.  GC-MS identification of odorous volatiles in wastewater , 1985 .

[26]  Steve E. Hrudey,et al.  A chemical and sensory study of odour compounds in the Athabasca River, Alberta, Canada , 1995 .

[27]  Gregory Leonardos,et al.  Selection of Panelists , 1980 .

[28]  Frank H. Jarke,et al.  Odor Threshold Measurement by Dynamic Olfactometry: Significant Operational Variables , 1980 .

[29]  D L Massart,et al.  Odour perception in relation to age, general health, anthropometry and dental state. , 1997, Archives of gerontology and geriatrics.

[30]  Amos Turk,et al.  Suprathreshold Odlor Measurements by Dynamic Olfactometry: Principles and Practice , 1980 .

[31]  M. Laska,et al.  A comparison of the detection thresholds of odour mixtures and their components , 1991 .

[32]  José Saldanha Matos,et al.  The Forecasting of Hydrogen Sulphide Gas Build-Up in Sewerage Collection Systems , 1992 .

[33]  J. Hobson,et al.  The Odour Potential: A New Tool for Odour Management , 1995 .

[34]  R. T. Stordeur,et al.  A New Microprocessor-Controlled Dynamic Olfactometer , 1981 .

[35]  Lawrence C. C. Koe,et al.  GC-MS analysis of odorous emissions from the dissolved air flotation units treating surplus activated sludge at a wastewater treatment works , 1987 .

[36]  Julian W. Gardner,et al.  A brief history of electronic noses , 1994 .

[37]  G. A. Holder,et al.  Kinetic Studies of the Microbiological Conversion of Sulphate to Hydrogen Sulphide and their Relevance to Sulphide Generation within Sewers , 1985 .

[38]  Richard M. Stuetz,et al.  Assessment of odours from sewage treatment works by an electronic nose, H2S analysis and olfactometry , 1999 .

[39]  R. B. Kaye,et al.  Odour measurement — factors affecting olfactometry panel performance , 1996 .

[40]  John M. Sweeten,et al.  A Butanol Olfactometer for Field Measurement of Ambient Odors , 1984 .

[41]  B. F. Pain,et al.  Assessment of Odours from Livestock Wastes by a Photoionization Detector, an Electronic Nose, Olfactometry and Gas Chromatography-Mass Spectrometry , 1995 .

[42]  J. Amoore,et al.  CURRENT STATUS OF THE STERIC THEORY OF ODOR , 1964, Annals of the New York Academy of Sciences.

[43]  R. H. Wright,et al.  Sense of Smell , 1982 .

[44]  R. Delaune,et al.  Emission of Reduced Malodorous Sulfur Gases from Wastewater Treatment Plants , 1999 .

[45]  P. Young Odours from effluent and waste treatment , 1984 .

[46]  George E. Wilson,et al.  Atmospheric Sublayer Transport and Odor Control , 1980 .

[47]  D. K. B. Thistlethwayte,et al.  The control of sulphides in sewerage systems , 1972 .

[48]  T. Cooper Department of Health, Education, and Welfare. , 1976, Military medicine.

[49]  Richard M. Stuetz,et al.  Electronic nose technology: a new tool in odour management , 1998 .

[50]  T A Dickinson,et al.  Current trends in 'artificial-nose' technology. , 1998, Trends in biotechnology.

[51]  B. M. Brennan,et al.  Peat biofiltration as an odour control technology for sulphur-based odours , 1996 .

[52]  Steve E. Hrudey,et al.  Characterization of odorous compounds from bleached kraft pulp mill effluent , 1995 .

[53]  Franz-Bernd Frechen,et al.  Odour Emissions and Odour Control at Wastewater Treatment Plants in West Germany , 1988 .

[54]  William S. Cain The Case Against Threshold Measurement of Environmental Odors , 1980 .

[55]  J. K. Jiang Concentration measurement by dynamic olfactometer : Butanol threshold based on certainty and guessing , 1996 .

[56]  Franz-Bernd Frechen,et al.  ODOUR EMISSIONS OF WASTEWATER TREATMENT PLANTS – RECENT GERMAN EXPERIENCES , 1994 .

[57]  L. C. Broering,et al.  Objective odor pollution control investigations. , 1960, Journal of the Air Pollution Control Association.

[58]  George Tchobanoglous,et al.  Wastewater Engineering Treatment Disposal Reuse , 1972 .

[59]  Christophe Bonnin,et al.  Odor Nuisances Created by Sludge Treatment: Problems and Solutions , 1990 .

[60]  Richard M. Stuetz,et al.  USE OF AN ELECTRONIC NOSE TO DETECT TAINTING COMPOUNDS IN RAW AND TREATED POTABLE WATER , 1998 .

[61]  Arthur G. Boon,et al.  Septicity in sewers: causes, consequences and containment , 1992 .

[62]  Doron Lancet,et al.  The strong scent of success , 1991, Nature.

[63]  Robert C. Balling,et al.  The diurnal flux in the dispersion of sewage plant odors , 1980 .

[64]  G Preti,et al.  Letting the nose lead the way. Malodorous components in drinking water. , 1993, Analytical chemistry.