TY - GEN
T1 - Electricity and fuel usage of aviary laying-hen houses in the Midwestern United States
AU - Hayes, Morgan
AU - Xin, Hongwei
AU - Li, Hong
AU - Shepherd, Timothy
AU - Stinn, John
PY - 2012
Y1 - 2012
N2 - Recently, there has been much interest in and movement toward alternative housing systems for laying hens. Associated with the movement are many questions to be addressed concerning sustainability of such systems. This study quantifies electricity and propane usage in two side-by-side aviary hen houses each holding 50,000 laying hens, located in Iowa, USA. Electricity usage was also partitioned into different housing components, including ventilation, lighting, and manure-drying. Electricity for ventilation is most variable in that it was the largest of all the components with 60% of the total electric energy in summer but only approximately 5% in winter. The mechanical ventilation efficiency was approximately 25.5 m3/(hr-Watt) (15 CFM per Watt) at static pressure of 12.5 Pa (0.05 inch water column). The continuously running manure-drying blowers accounted for the largest proportion of electricity use in winter with approximately 350 kWh daily consumption. Over the 15-month monitoring period, both houses had an average electricity cost of 3.6 cents per kg of egg produced (based on the rate of $0.09/kWh). The fuel usage was minimal (less than 425 liters of propane in one year), although the winter weather during the monitoring period was milder than the historical climatic conditions.
AB - Recently, there has been much interest in and movement toward alternative housing systems for laying hens. Associated with the movement are many questions to be addressed concerning sustainability of such systems. This study quantifies electricity and propane usage in two side-by-side aviary hen houses each holding 50,000 laying hens, located in Iowa, USA. Electricity usage was also partitioned into different housing components, including ventilation, lighting, and manure-drying. Electricity for ventilation is most variable in that it was the largest of all the components with 60% of the total electric energy in summer but only approximately 5% in winter. The mechanical ventilation efficiency was approximately 25.5 m3/(hr-Watt) (15 CFM per Watt) at static pressure of 12.5 Pa (0.05 inch water column). The continuously running manure-drying blowers accounted for the largest proportion of electricity use in winter with approximately 350 kWh daily consumption. Over the 15-month monitoring period, both houses had an average electricity cost of 3.6 cents per kg of egg produced (based on the rate of $0.09/kWh). The fuel usage was minimal (less than 425 liters of propane in one year), although the winter weather during the monitoring period was milder than the historical climatic conditions.
KW - Aviary
KW - Electricity
KW - Energy use
KW - Propane
KW - Ventilation efficiency
UR - http://www.scopus.com/inward/record.url?scp=84878342270&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84878342270&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84878342270
SN - 9781622769278
T3 - ASABE - 9th International Livestock Environment Symposium 2012, ILES 2012
SP - 436
EP - 444
BT - ASABE - 9th International Livestock Environment Symposium 2012, ILES 2012
T2 - 9th International Livestock Environment Symposium 2012, ILES 2012
Y2 - 8 July 2012 through 12 July 2012
ER -