Analysis of different methods to compute ammonia concentration and emission rate

M. F.P. Amaral; R. S. Gates; D. G. Overhults; I. F.F. Tinôco; H. Li; R. T. Burns; H. Xin; J. W. Earnest

Analysis of different methods to compute ammonia concentration and emission rate

M. F.P. Amaral, R. S. Gates, D. G. Overhults, I. F.F. Tinôco, H. Li, R. T. Burns, H. Xin, J. W. Earnest

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This work evaluates a simple method to measure ammonia concentration average for building emissions measurements, using a low-cost system (Portable Monitoring Unit, PMU). The method is compared to a more sophisticated (Mobile Air Emission Monitoring Unit, MAEMU) as a standard. The research was conducted in two similar broiler houses in western Kentucky, USA. Four PMU monitors were randomly assigned to three locations in each broiler house in which simultaneous MAEAU measurements were being conducted as part of a year-long ammonia emissions project. The PMUs were confired to record data every 30s. Samples were taken from within the house for six minutes, followed by a fourteen minute purge with outside air. Three different methods for computing 60-minute averages of ammonia concentration were evaluated based on the concentration readings taken from the PMU, considering that final concentration value and sampling intervals directly affect the computation of ammonia emission. The methods studied were denoted AVE2, AVE4 and MAX The AVE2 method used values from the last two minutes of the sampling period, excluding the last value, whereas the AVE4 method used values from the middle four minutes of the sampling period, and the MAX method used the maximum concentration value over the sampling period. The MAEMU system obtained more frequent and accurate concentration and ER measurements (six to thirty measurements per location per hour). The three methods showed values very close to the standard results, and the method AVE 4 seems to be the more similar with MAEMU. The average differences between PMU AVE4 method and MAEMU are -1.06 ppm and -0.052 g/hr for NH₃ concentration and emission rate, respectively considering 20-minute averages. Results demonstrate the importance of careful selection of representative concentration readings when fans are operating, and the significant impact that different ventilation regimes can have on the accuracy.

Original language	English (US)
Title of host publication	Livestock Environment VIII - Proceedings of the 8th International Symposium
Pages	1-10
Number of pages	10
State	Published - 2008
Externally published	Yes
Event	8th International Livestock Environment Symposium, ILES VIII - Iguassu Falls, Brazil Duration: Aug 31 2008 → Sep 4 2008

Publication series

Name	Livestock Environment VIII - Proceedings of the 8th International Symposium

Other

Other	8th International Livestock Environment Symposium, ILES VIII
Country/Territory	Brazil
City	Iguassu Falls
Period	8/31/08 → 9/4/08

Keywords

Air quality
Gaseous emission
Ventilation rate

ASJC Scopus subject areas

Agricultural and Biological Sciences (miscellaneous)
Animal Science and Zoology

Library availability

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Amaral, M. F. P., Gates, R. S., Overhults, D. G., Tinôco, I. F. F., Li, H., Burns, R. T., Xin, H., & Earnest, J. W. (2008). Analysis of different methods to compute ammonia concentration and emission rate. In Livestock Environment VIII - Proceedings of the 8th International Symposium (pp. 1-10). (Livestock Environment VIII - Proceedings of the 8th International Symposium).

Analysis of different methods to compute ammonia concentration and emission rate. / Amaral, M. F.P.; Gates, R. S.; Overhults, D. G. et al.
Livestock Environment VIII - Proceedings of the 8th International Symposium. 2008. p. 1-10 (Livestock Environment VIII - Proceedings of the 8th International Symposium).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Amaral, MFP, Gates, RS, Overhults, DG, Tinôco, IFF, Li, H, Burns, RT, Xin, H & Earnest, JW 2008, Analysis of different methods to compute ammonia concentration and emission rate. in Livestock Environment VIII - Proceedings of the 8th International Symposium. Livestock Environment VIII - Proceedings of the 8th International Symposium, pp. 1-10, 8th International Livestock Environment Symposium, ILES VIII, Iguassu Falls, Brazil, 8/31/08.

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abstract = "This work evaluates a simple method to measure ammonia concentration average for building emissions measurements, using a low-cost system (Portable Monitoring Unit, PMU). The method is compared to a more sophisticated (Mobile Air Emission Monitoring Unit, MAEMU) as a standard. The research was conducted in two similar broiler houses in western Kentucky, USA. Four PMU monitors were randomly assigned to three locations in each broiler house in which simultaneous MAEAU measurements were being conducted as part of a year-long ammonia emissions project. The PMUs were confired to record data every 30s. Samples were taken from within the house for six minutes, followed by a fourteen minute purge with outside air. Three different methods for computing 60-minute averages of ammonia concentration were evaluated based on the concentration readings taken from the PMU, considering that final concentration value and sampling intervals directly affect the computation of ammonia emission. The methods studied were denoted AVE2, AVE4 and MAX The AVE2 method used values from the last two minutes of the sampling period, excluding the last value, whereas the AVE4 method used values from the middle four minutes of the sampling period, and the MAX method used the maximum concentration value over the sampling period. The MAEMU system obtained more frequent and accurate concentration and ER measurements (six to thirty measurements per location per hour). The three methods showed values very close to the standard results, and the method AVE 4 seems to be the more similar with MAEMU. The average differences between PMU AVE4 method and MAEMU are -1.06 ppm and -0.052 g/hr for NH3 concentration and emission rate, respectively considering 20-minute averages. Results demonstrate the importance of careful selection of representative concentration readings when fans are operating, and the significant impact that different ventilation regimes can have on the accuracy.",

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AU - Amaral, M. F.P.

AU - Gates, R. S.

AU - Overhults, D. G.

AU - Tinôco, I. F.F.

AU - Li, H.

AU - Burns, R. T.

AU - Xin, H.

AU - Earnest, J. W.

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N2 - This work evaluates a simple method to measure ammonia concentration average for building emissions measurements, using a low-cost system (Portable Monitoring Unit, PMU). The method is compared to a more sophisticated (Mobile Air Emission Monitoring Unit, MAEMU) as a standard. The research was conducted in two similar broiler houses in western Kentucky, USA. Four PMU monitors were randomly assigned to three locations in each broiler house in which simultaneous MAEAU measurements were being conducted as part of a year-long ammonia emissions project. The PMUs were confired to record data every 30s. Samples were taken from within the house for six minutes, followed by a fourteen minute purge with outside air. Three different methods for computing 60-minute averages of ammonia concentration were evaluated based on the concentration readings taken from the PMU, considering that final concentration value and sampling intervals directly affect the computation of ammonia emission. The methods studied were denoted AVE2, AVE4 and MAX The AVE2 method used values from the last two minutes of the sampling period, excluding the last value, whereas the AVE4 method used values from the middle four minutes of the sampling period, and the MAX method used the maximum concentration value over the sampling period. The MAEMU system obtained more frequent and accurate concentration and ER measurements (six to thirty measurements per location per hour). The three methods showed values very close to the standard results, and the method AVE 4 seems to be the more similar with MAEMU. The average differences between PMU AVE4 method and MAEMU are -1.06 ppm and -0.052 g/hr for NH3 concentration and emission rate, respectively considering 20-minute averages. Results demonstrate the importance of careful selection of representative concentration readings when fans are operating, and the significant impact that different ventilation regimes can have on the accuracy.

AB - This work evaluates a simple method to measure ammonia concentration average for building emissions measurements, using a low-cost system (Portable Monitoring Unit, PMU). The method is compared to a more sophisticated (Mobile Air Emission Monitoring Unit, MAEMU) as a standard. The research was conducted in two similar broiler houses in western Kentucky, USA. Four PMU monitors were randomly assigned to three locations in each broiler house in which simultaneous MAEAU measurements were being conducted as part of a year-long ammonia emissions project. The PMUs were confired to record data every 30s. Samples were taken from within the house for six minutes, followed by a fourteen minute purge with outside air. Three different methods for computing 60-minute averages of ammonia concentration were evaluated based on the concentration readings taken from the PMU, considering that final concentration value and sampling intervals directly affect the computation of ammonia emission. The methods studied were denoted AVE2, AVE4 and MAX The AVE2 method used values from the last two minutes of the sampling period, excluding the last value, whereas the AVE4 method used values from the middle four minutes of the sampling period, and the MAX method used the maximum concentration value over the sampling period. The MAEMU system obtained more frequent and accurate concentration and ER measurements (six to thirty measurements per location per hour). The three methods showed values very close to the standard results, and the method AVE 4 seems to be the more similar with MAEMU. The average differences between PMU AVE4 method and MAEMU are -1.06 ppm and -0.052 g/hr for NH3 concentration and emission rate, respectively considering 20-minute averages. Results demonstrate the importance of careful selection of representative concentration readings when fans are operating, and the significant impact that different ventilation regimes can have on the accuracy.

KW - Air quality

KW - Gaseous emission

KW - Ventilation rate

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SN - 9781892769688

T3 - Livestock Environment VIII - Proceedings of the 8th International Symposium

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EP - 10

BT - Livestock Environment VIII - Proceedings of the 8th International Symposium

T2 - 8th International Livestock Environment Symposium, ILES VIII

Y2 - 31 August 2008 through 4 September 2008

ER -

Analysis of different methods to compute ammonia concentration and emission rate

Abstract

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