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under the grid in the rear. Each chamber had large windows and three doors. The ventilation system was a mechanical central flow system. The airflow was monitored by a module integrated in the air exhaust of each chamber, that was equipped with an integrated full size free-running impeller, that continually
measured the airflow, and a control damper that regulates the amount of air. The refresh rate was adjustable between 200 and 1300 m3/hour.The methane (CH4), carbon dioxide (CO2), nitrous oxide (N2O) and ammonia (NH3) concentrations were measured with an interference free self-calibrating infrared laser optical-feedback cavity-enhanced absorption spectrometer, in the exhaust channels of each chamber.
The detection ranges for CH4, CO2, N2O and NH3 are set between 0-700 ppm, 0-5000 ppm, 0-5 ppm, and 0-70 ppm respectively. The whole measuring system functioned at a continuous underpressure of 110 mbar, created by a sonic nozzle at the each sampling point.The system was continuously monitored for temperature, air flow, water, system pressure and gas concentrations. If values fall outside the set thresholds, the operator is warned via telephone. To our knowledge this is a unique and reliable system
for measuring gas emissions in open-circuit chambers for large ruminants, with no interference between the gases and low maintenance costs.
|Proceedings of the 9th International Livestock Environment Symposium
|Gepubliceerd - 2012
|International Conference of Agricultural Engineering, CIGR-AgEng 2012 - Valencia, Valencia, Spanje
Duur: 8-jul.-2012 → 12-jul.-2012
VingerafdrukBekijk de onderzoeksthema's van 'Implementation of Open-circuit Chambers for Monitoring Gas Emissions from Large Ruminants'. Samen vormen ze een unieke vingerafdruk.
1/01/10 → 31/12/13