Evaluation of a Flux Chamber for Assessing Gaseous Emissions and Treatment Effects of Poultry Manure

Control of gaseous emissions from livestock operations is needed to ensure compliance with environmental regulations and sustainability of the industry. The focus of this research was to mitigate livestock odor emissions with UV light. Effects of the UV dose, wavelength, TiO2 catalyst, air temperature, and relative humidity were tested at lab scale on a synthetic mixture of nine odorous volatile organic compounds (VOCs) and real poultry manure offgas. Results show that it was feasible to control odorous VOCs with both photolysis and photocatalysis (synthetic VOCs mixture) and with photocatalysis (manure offgas). The treatment effectiveness R (defined as % conversion), was proportional to the light intensity for synthetic VOCs mixtures and followed an order of UV185+254 + TiO2 > UV254 + TiO2 > UV185+254; no catalyst > UV254; no catalyst. VOC conversion R > 80% was achieved when light energy was >~60 J L−1. The use of deep UV (UV185+254) improved the R, particularly when photolysis was the primary treatment. Odor removal up to ~80% was also observed for a synthetic VOCs mixture, and actual poultry manure offgas. Scale-up studies are warranted.

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Additives Used with Straw Bedding Can Mitigate Ammonia and Greenhouse Gaseous Emissions from Solid Cattle Manure in Sloping-Floor Housing System

10.20944/preprints202001.0297.v1 ◽

2020 ◽

Author(s):

Ghulam Abbas Shah ◽

Ghulam Mustafa Shah ◽

Muhammad Imtiaz Rashid ◽

Maqsood Sadiq ◽

Faheem Khan ◽

...

Keyword(s):

Sandy Soil ◽

Housing System ◽

Emission Rates ◽

Gaseous Emissions ◽

Flux Chamber ◽

N Losses ◽

Mass Balance Calculation ◽

Total N ◽

Nh3 Emission ◽

Reduction Of Co2

We studied the influence of lava meal, zeolite and top layer of sandy soil as bedding additives on gaseous C and N losses from a sloping-floor barn of naturally ventilated animal housing. We selected four barn units where eight young bulls’ group was reared in each barn. Chopped straw of wheat and barley applied daily at the rate of 5 kg per livestock unit (LU) in bedding areas where one LU consisted of 500 kg body mass of live bulls. Zeolite, lava meal and sandy soil (18% clay + silt) applied in barn at the rate of 10, 20 and 30% of straw dose, respectively. Static flux chamber was used to measure gases emissions from the barn unit and mass balance calculation was used to calculate straw manure total N (TN) losses during housing phase. On an average, all bedding additives decreased 85% of the NH3 emission compared to control; however, they did not influence CH4 emission. Zeolite decreased CO2 (35%) and N2O (37%) emission rates. Subsequently, lava meal, sandy soil and zeolite decreased 23, 37, and 50% of TN losses from barn manure, respectively. Overall, measured N emissions through NH3-N and N2O-N from the barns was 11% of calculated TN losses while remainder 89% was most probably attributed to di-nitrogen (N2), a harmless gas. Hence, in straw-based cattle housings, zeolite could be a promising additive for reduction of CO2, N2O and NH3 emissions and sandy soil can be considered as cheap and readily available resource for reducing NH3 emission.

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Comparing Closed Chamber Measures of Ammonia Volatilization from Kentucky Bluegrass Fertilized by Granular Urea1

Journal of Environmental Horticulture ◽

10.24266/0738-2898-36.3.85 ◽

2018 ◽

Vol 36 (3) ◽

pp. 85-91

Author(s):

Maxim J. Schlossberg ◽

Benjamin A. McGraw ◽

Kyle R. Hivner

Keyword(s):

Ammonia Volatilization ◽

Poa Pratensis ◽

Kentucky Bluegrass ◽

Ammonia Emission ◽

Gaseous Emissions ◽

Flux Chamber ◽

Closed Chamber ◽

Ambient Temperatures ◽

Static Chamber ◽

Flux Dynamic

Abstract Easy handling and low unit N cost make prilled urea (46-0-0) a popular fertilizer. While incomplete recovery of granular urea applications by turfgrass is documented, practical guidance for small-plot field assessment of ammonia (NH3) volatilization remains limited. Our objectives were to (i) develop a method for field-implementation of closed flux/dynamic chambers to measure ammonia emission over a 3-day period following granular urea application to turfgrass, and (ii) infer the significance of said measures to levels arising from simultaneous static-chamber measures. A Kentucky bluegrass (Poa pratensis L. ‘Midnight’) lawn was treated with granular urea-N at a rate of 0 or 43 kg.ha−1 (38 lb/A) twice in both 2014 and 2015. Flux chamber measures of mean ammonia volatilization from urea-N fertilizer applied 3 days previous exceeded simultaneous static chamber measures by a factor of 17. Relative to static, the closed dynamic/flux chamber system described affords a more precise and efficient method for measuring ammonia volatilization from small field plots. Furthermore, over a 3-day period of dry conditions and ambient temperatures fluctuating between 10 and 31 C (50 and 88 F), as much as 23.1% of a granular urea application broadcast over a Kentucky bluegrass lawn can be volatilized as ammonia. Index words: flux, gaseous emissions, methods, nitrogen, static, turfgrass. Species used in this study: ‘Midnight' Kentucky bluegrass (Poa pratensis L.).

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A Phonomotor Approach to Apraxia of Speech Treatment

American Journal of Speech-Language Pathology ◽

10.1044/2020_ajslp-19-00116 ◽

2020 ◽

Vol 29 (4) ◽

pp. 2109-2130

Author(s):

Lauren Bislick

Keyword(s):

Phase I ◽

Treatment Effects ◽

Single Case ◽

Motor Planning ◽

The Other ◽

Multimodal Approach ◽

Apraxia Of Speech ◽

Duration Of Treatment ◽

Treatment Gains ◽

Future Work

Purpose This study continued Phase I investigation of a modified Phonomotor Treatment (PMT) Program on motor planning in two individuals with apraxia of speech (AOS) and aphasia and, with support from prior work, refined Phase I methodology for treatment intensity and duration, a measure of communicative participation, and the use of effect size benchmarks specific to AOS. Method A single-case experimental design with multiple baselines across behaviors and participants was used to examine acquisition, generalization, and maintenance of treatment effects 8–10 weeks posttreatment. Treatment was distributed 3 days a week, and duration of treatment was specific to each participant (criterion based). Experimental stimuli consisted of target sounds or clusters embedded nonwords and real words, specific to each participants' deficit. Results Findings show improved repetition accuracy for targets in trained nonwords, generalization to targets in untrained nonwords and real words, and maintenance of treatment effects at 10 weeks posttreatment for one participant and more variable outcomes for the other participant. Conclusions Results indicate that a modified version of PMT can promote generalization and maintenance of treatment gains for trained speech targets via a multimodal approach emphasizing repeated exposure and practice. While these results are promising, the frequent co-occurrence of AOS and aphasia warrants a treatment that addresses both motor planning and linguistic deficits. Thus, the application of traditional PMT with participant-specific modifications for AOS embedded into the treatment program may be a more effective approach. Future work will continue to examine and maximize improvements in motor planning, while also treating anomia in aphasia.

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