Presentation is loading. Please wait.

Presentation is loading. Please wait.

Odour offensiveness of a mink farm Dependence of annoyance spread on the size of a farm Milena Połeć Part of a master thesis carried out in the Laboratory.

Published byKelton Skiff Modified over 9 years ago

Similar presentations

Presentation on theme: "Odour offensiveness of a mink farm Dependence of annoyance spread on the size of a farm Milena Połeć Part of a master thesis carried out in the Laboratory."— Presentation transcript:

1 Odour offensiveness of a mink farm Dependence of annoyance spread on the size of a farm Milena Połeć Part of a master thesis carried out in the Laboratory for Odour Quality of the Air under supervision of prof. dr hab.eng. Joanna Kośmider Szczecin University of Technology Department of Technology and Chemical Engineering Institute of Chemical Engineering and Environmental Protection Processes

2 Plan of presentation Introduction Aim and scope of the work Methodology Calculations of odour concentration in the ambient air in the surroundings of animal farms of various sizes –typical meteorological situation –calendar year Summary of the results

3 Introduction Complaints about odour nuisance of animal breeding and raising make 17% of all complaints about nuisance of economic activity (data from the year 1993).

4 In the year 1993 complaints about odour nuisance of fur farms made 6% of all complaints about nuisance of animal raising.

5 One can assume that nowadays the share of the complaints about this sort of animal breeding is even bigger. Recently complaints about mink farms, whose number is rising (4,5% of the world fur production), have been more and more recent. Mink breeding is most intensely developed in the north-western Poland (West-Pomeranian Province).

6 Legislative works do not catch up with farming development. In Poland an executive ordinanace of Minister for the Environment on standards of odour quality of the air and methods of its evaluation has not been published so far. One of the ordinance projects is based upon the rules similar to the ones determined in Germany at the beginning of 1990s. Way of an area development D 60 [ ou/m 3 ] T% existing state till 31.12.2012 according to an aim from 01.01.2013 A2 1 83 B2158 A2 – area of housing estates: detached housing, house of flats; area of service housing: housing connected with administration, health service, trade, religious cult, science, education, culture and art, rest; areas of recreation and rest: areas of holiday resorts, areas of children plays resorts, beaches, arranged parks and squares, greenery (beyond street ways), sport areas; B2 – agricultural areas: housing estates, farming estates; D 60 [ou/m3] – admissible level of odour substances in the ambient air, average value reffering to 60 minutes, T % – admissible freequency of D 60 exceeding [% hours a year].

7 Aim and scope of the work The considered aim of this work was to determine the size of the areas, on which the probability of a nuisant odour occurence exceeds the levels of 8 and 15%. The basis for calculations was the odour emission factor – determined by Mr Jacek Zdyb (median of a set of experimantal values collected in Strumiany): Fq od = 4,4 Gou / year x 1000 minks Calculations were conducted for six hypothetical mink farms with the stock of: 10 000, 30 000, 50 000, 70 000, 90 000 and 110 000 minks.

8 Methodology It was assumed that animal houses are arranged in squares of various dimensions (distances between the animal houses – analogically to NOREX Strumiany ltd.). Dispersion simulations were conducted according to a model recommended by the Minister for the Environment (program: Operat, PROEKO). Calculations of: – average concentrations c od,60-m [ou/m 3 ] in a stable meteorological condition (typical for the province) – probability of occurence of exceeding defined levels of c od,60-m [ou/m 3 ] in a year scale were conducted. The wind rose of Szczecin-Dąbie was utilised.

9 Number of observations = 29220 List of shares of individual wind directions % 123456789101112 NNEENE EESESSE SSSWWSW WWNWNNW N 8,17 7,17 6,79 10,34 5,97 3,05 7,00 21,50 15,57 6,37 3,90 4,18 List of shares of individual wind velocities % 1 m/s 2 m/s 3 m/s 4 m/s 5 m/s 6 m/s 7 m/s 8 m/s 9 m/s10 m/s11 m/s 11,01 16,30 17,87 16,31 13,28 9,66 7,42 4,64 2,13 0,78 0,60

10 Results of odour concentration calculations c od,60-m [ou/m 3 ] in a stable meteorological condition: wind velocity: 3 m/s wind direction: WSW

11 10 000 minks wind velocity: 3 m/s wind direction: WSW

12 30 000 minks wind velocity: 3 m/s wind direction: WSW

13 50 000 minks wind velocity: 3 m/s wind direction: WSW

14 70 000 minks wind velocity: 3 m/s wind direction: WSW

15 90 000 minks wind velocity: 3 m/s wind direction: WSW

16 110 000 minks wind velocity: 3 m/s wind direction: WSW

17 In a meteorological situation prevalent on the area of the Province, average odour concentration exceeds the level of c od, 60-m = 0,1 ou/m 3 (environmental detection threshold) on the downwind side of a farm to the distances of: 10 000 minks 200 m 30 000 minks 500 m 50 000 minks 700 m 70 000 minks 800 m 90 000 minks 1 000 m 110 000 minks 1 150 m Conclusion 1

18

19 Results of calculations of probability of exceeding the recognition threshold in the year scale c od,60-m = 1 ou/m 3 Szczecin-Dąbie wind rose

20 10 000 minks Szczecin-Dąbie wind rose 1 ou/m 3

21 Szczecin-Dąbie wind rose 30 000 minks 1 ou/m 3

22 Szczecin-Dąbie wind rose 50 000 minks 1 ou/m 3

23 Szczecin-Dąbie wind rose 70 000 minks 1 ou/m 3

24 Szczecin-Dąbie wind rose 90 000 minks 1 ou/m 3

25 Szczecin-Dąbie wind rose 110 000 minks 1 ou/m 3

26 On the area embraced by Szczecin-Dąbie wind rose the probability of exceeding the 1 ou/m 3 concentration is bigger than 8% in the belt of maximum 120 m surrounding the emitter. Conclusion 2

27 Results of calculations of probability of exceeding the environmental odour detection thereshold in the year scale c od,60-m = 0,1 ou/m 3

28 10 000 minks 0,1 ou/m 3 Szczecin-Dąbie wind rose

29 Szczecin-Dąbie wind rose 30 000 minks 0,1 ou/m 3

30 Szczecin-Dąbie wind rose 50 000 minks 0,1 ou/m 3

31 Szczecin-Dąbie wind rose 70 000 minks 0,1 ou/m 3

32 Szczecin-Dąbie wind rose 90 000 minks 0,1 ou/m 3

33 Szczecin-Dąbie wind rose 110 000 minks 0,1 ou/m 3

34 On the area embraced by Szczecin-Dąbie wind rose the probability of exceeding the 0,1 ou/m 3 concentration is bigger than: 8% in the distance from 150 meters to 660 meters, 15% in the distance from 100 meters to 450 meters, depending on the size of the farm. It refers to the area located within the range of prevalent SW winds. Conclusion 3

35 Number of minks Distance from the emitter boundary to the selected isolines [m] 15%8% 10 000100150 30 000220300 50 000280420 70 000340500 90 000390580 110 000450660

36

37 Conclusions On the area embrased by the Szczecin-Dąbie wind rose the probability of excceding the concentration of 1 ou/m 3 is bigger than 8% in the belt of 120 m wide surrounding the emitter. On the area embraced by Szczecin-Dąbie wind rose the probability of exceeding the 0,1 ou/m 3 concentration is bigger than: - 8% in the distance from 150 meters to 660 meters, - 15% in the distance from 100 meters to 450 meters, depending on the size of the farm. It refers to the area located within the range of prevalent SW winds.  In a meteorological situation prevalent on the area of the Province on the downwind side of a farm, an average odour concentration exceeds the environmental detection threshold (c od, 60-m = 0,1 ou/m 3 ) at the distances: - to 200 m – for farms of 10 thousand minks, - to 1150 m – for farms of 110 thousand minks.

38 Thank you for your attention!

Download ppt "Odour offensiveness of a mink farm Dependence of annoyance spread on the size of a farm Milena Połeć Part of a master thesis carried out in the Laboratory."

Similar presentations

AIR QUALITY ASSESSMENT AND MANAGEMENT IN POLAND - air protection programmes for Silesia region Dorota Kamińska Ministry of the Environment Poland.

AIR QUALITY ASSESSMENT AND MANAGEMENT IN POLAND - air protection programmes for Silesia region Dorota Kamińska Ministry of the Environment Poland.
Ministry of Health Anna Starzewska-Sikorska, Ph.D. Coordinator of environmental part of Programme Institute for Ecology of Industrial Areas, Katowice POLISH.

Ministry of Health Anna Starzewska-Sikorska, Ph.D. Coordinator of environmental part of Programme Institute for Ecology of Industrial Areas, Katowice POLISH.
Why Choose Geography?. With Geography you know WHERE you are! Geographers study: Where places are in the world What it is like at these places How and.

Why Choose Geography?. With Geography you know WHERE you are! Geographers study: Where places are in the world What it is like at these places How and.
CONTRIBUTION OF MOUNT MERAPI VOLCANO EMISSION DURING QUIESCENT STATE TO BACKGROUND SO 2 CONCENTRATION IN D.I. YOGYAKARTA PROVINCE Regina Dhevita Purie.

CONTRIBUTION OF MOUNT MERAPI VOLCANO EMISSION DURING QUIESCENT STATE TO BACKGROUND SO 2 CONCENTRATION IN D.I. YOGYAKARTA PROVINCE Regina Dhevita Purie.
Introduction to SCREEN3 smokestacks image from Univ. of Waterloo Environmental Sciences Marti Blad NAU College of Engineering and Technology.

Introduction to SCREEN3 smokestacks image from Univ. of Waterloo Environmental Sciences Marti Blad NAU College of Engineering and Technology.
Introduction to SCREEN3 smokestacks image from Univ. of Waterloo Environmental Sciences Marti Blad.

Introduction to SCREEN3 smokestacks image from Univ. of Waterloo Environmental Sciences Marti Blad.
ANALYSIS OF TRACER DATA FROM URBAN DISPERSION EXPERIMENTS Akula Venkatram and Vlad Isakov  Motivation for Field Experiments  Field Studies Conducted.

ANALYSIS OF TRACER DATA FROM URBAN DISPERSION EXPERIMENTS Akula Venkatram and Vlad Isakov  Motivation for Field Experiments  Field Studies Conducted.
Setting Acceptable Odor Criteria Using Steady-state and Variable Weather Data Z. Yu 1, H. Guo 2, C. Lague 3 1.Division of Environmental Engineering, University.

Setting Acceptable Odor Criteria Using Steady-state and Variable Weather Data Z. Yu 1, H. Guo 2, C. Lague 3 1.Division of Environmental Engineering, University.
Logo Module 4: Air Quality Around Production Facilities and Land Application Sites By Jeff Lorimor and David Schmidt.

Logo Module 4: Air Quality Around Production Facilities and Land Application Sites By Jeff Lorimor and David Schmidt.
Bayesian Biosurveillance Gregory F. Cooper Center for Biomedical Informatics University of Pittsburgh The research described in this.

Bayesian Biosurveillance Gregory F. Cooper Center for Biomedical Informatics University of Pittsburgh The research described in this.
TRENDS IN HOSPITALIZATION RATES FROM ASTHMA IN CHILDREN AND ADOLESCENTS IN POLAND Krystyna Szafraniec 1, Wieslaw Jedrychowski 1, Bogdan Wojtyniak 2 and.

TRENDS IN HOSPITALIZATION RATES FROM ASTHMA IN CHILDREN AND ADOLESCENTS IN POLAND Krystyna Szafraniec 1, Wieslaw Jedrychowski 1, Bogdan Wojtyniak 2 and.
ADMS ADMS 3.3 Modelling Summary of Model Features.

ADMS ADMS 3.3 Modelling Summary of Model Features.
Module 9 Atmospheric Stability Photochemistry Dispersion Modeling.

Module 9 Atmospheric Stability Photochemistry Dispersion Modeling.
Health and Safety Executive Health and Safety Executive Improving the efficiency of the regulatory process Rob Mason Head of Regulatory Policy Chemicals.

Health and Safety Executive Health and Safety Executive Improving the efficiency of the regulatory process Rob Mason Head of Regulatory Policy Chemicals.
Lecture(5) Instructor : Dr. Abed Al-Majed Nassar 2009-2010.

Lecture(5) Instructor : Dr. Abed Al-Majed Nassar
Analysis of wind energy with pumped storage systems in autonomous islands George Caralis Mechanical Engineer NTUA National Technical University of Athens.

Analysis of wind energy with pumped storage systems in autonomous islands George Caralis Mechanical Engineer NTUA National Technical University of Athens.
10th EIONET Workshop on Air Quality Management and Assessment, Vilnius, 17-18 October 2005 Air pollution at street level in European cities Nicolas Moussiopoulos,

10th EIONET Workshop on Air Quality Management and Assessment, Vilnius, October 2005 Air pollution at street level in European cities Nicolas Moussiopoulos,
Vietnam: Institutional arrangement in GDP measurement of provenience /city and national economy and solution to reconciliation of differences between national.

Vietnam: Institutional arrangement in GDP measurement of provenience /city and national economy and solution to reconciliation of differences between national.
Measurement of NO 2 Concentration in Ambient Air in Karachi using Diffusion Sampling By Zia-ul-Islam Director, Pak-EPA.

Measurement of NO 2 Concentration in Ambient Air in Karachi using Diffusion Sampling By Zia-ul-Islam Director, Pak-EPA.
MUSEC-EIE/06/024/SI2.445716 SUPPORTED BY POTENTIALITIES AND TARGETS OF THE LOCAL ENERGY PLAN Municipality of Asti - Italy.

MUSEC-EIE/06/024/SI SUPPORTED BY POTENTIALITIES AND TARGETS OF THE LOCAL ENERGY PLAN Municipality of Asti - Italy.

Similar presentations

Ads by Google