Journal
MEMBRANES
Volume 11, Issue 11, Pages -Publisher
MDPI
DOI: 10.3390/membranes11110859
Keywords
ammonia capture; livestock housing; gas-permeable membranes; ventilation rate; seasonal variability of ammonia emissions
Categories
Funding
- European Union project LIFE+ Ammonia Trapping [LIFE15-ENV/ES/000284]
- LIFE+ Ammonia Trapping project [LIFE15ENV/ES/000284]
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Gas-permeable membrane (GPM) technology shows promise in reducing NH3 emissions from livestock housing, with NH3 recovery rates varying based on NH3 concentration and seasonal differences. Higher ventilation frequency in summer months led to lower NH3 capture efficiency compared to winter months.
Gas-permeable membrane (GPM) technology is a possible solution to reduce ammonia (NH3) emissions from livestock housing. This paper presents the results obtained with an NH3-capture prototype based on the use of expanded polytetrafluoroethylene (ePTFE) membranes in real conditions in a gestating sow house and a free-range laying hen house, comparing them with the results obtained in controlled laboratory conditions for the same type of waste. The NH3 present in the air of the livestock housing was captured by reaction with an acidic solution flowing inside the membranes. The periods of continuous operation of the pilot plant were 232 days at the pig farm and 256 days at the poultry farm. The NH3 recovery rate at the end of those periods was 2.3 and 0.4 g TAN & BULL;m(-2)& BULL;d(-1) in the pig and the poultry farms, respectively. The limiting factor for the capture process was the NH3 concentration in the air, with the highest recovery occurring in the most concentrated atmosphere. Differences in NH3 capture were observed between seasons and farms, with capture efficiencies of 1.62 and 0.33 g & BULL;m(-2)& BULL;d(-1) in summer and 3.85 and 1.20 g & BULL;m(-2)& BULL;d(-1) in winter for pig and poultry farms, respectively. The observed differences were mainly due to the higher ventilation frequency in the summer months, which resulted in a lower NH3 concentration inside the houses compared to the winter months. This is especially important when considering the real applicability of this technology. The results obtained suggest that GPM technology holds promise for limiting NH3 emissions from livestock housing with NH3 ambient concentrations close to 20 ppm or as part of manure storage facilities, given that it allows for recovery of nitrogen in a stable and concentrated solution, which can be used as a fertilizer.
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