Sunshine Coast Chicken Farm
Energy Savings: 32% | Cost Savings: $11,977 | Capital Cost: $244,372 | CO2 Savings: 116 | Project Status: proposed
Industry:
Poultry
Location:
South-East
Pump Type:
Centrifugal
Irrigation Type:
Drip, Micro irrigation
Technology:
Solar Power and Renewables
The farm produces chickens for meat sales with seven on site chicken sheds, an office and a residential house. The sheds have approximately 13,360 m2 of usable floor area for poultry production with capacity for around 223,000 birds. Each shed has tunnel and cross flow ventilation fans with winter heating provided by LPG recirculating heaters. Auger feed vat systems supply feed to the birds.
Two dams provide for the farm water requirements with an on-site filtration and treatment facility.
The site energy consumption currently consists of:
- 266 x 70W incandescent lights.
- 99 ventilation fans ranging between 0.75 and 1 kW each.
- 14 x 0.75 kW evaporative cooling pumps.
- 21 auger feed vat motors at 0.75 kW each.
- 21 LPG recirculating heaters for winter heating.
- 2 centrifugal dam pumps (one 4 kW and the other 15 kW) transfer water to the treatment facility for use on site. The 15kW pump is a transfer pump lifting water between two dams and currently runs during the day.
The farm total energy consumption is 387,000 kWh at an annual cost of $85,000, to improve efficiency the energy audit recommended a number of measures listed at Table 1.
Table 1. Audit Recommendation and Resulting Savings.
Solution | 30 kW Solar PV | Power factor correction | Pump timer 15kW pump |
Annual energy savings (kWh) |
44,000 | – | – |
Annual operating cost saving ($) |
8,800 | 7,600 | 230 |
Annual emission savings (tCO2-e) |
35 | – | – |
Estimated cost to implement ($) |
54,000 | 25,000 | 800 |
Of the energy saving opportunities evaluated, three initiatives were identified with potential energy savings of 11% of the site total and a combined payback period of 4.8 years (approx.).
The energy audit also recommended a change in energy retail contract to realise potential savings of $5,700 p.a.
The initiatives identified in the audit report included installing a power factor correction unit, a pump timer to the 15 kW dam pump and a 30 kW solar PV system. The pump timer would ensure that pumping took place overnight during off-peak periods.
The tunnel ventilation fans were measured and together with manufacturer’s performance data compared with market alternatives. The fans used on site were considered to be efficient and not in need of replacement though fans that are more efficient have been identified should any of the existing fans require replacement.
Following a review of the opportunities identified, the farmer proceeded with the implementation of a 99 kW single axis tracking Solar PV system between two of the sheds. Actual savings from solar PV production are a conservative estimate only as since completion of the energy audit total site consumption has markedly increased, as can be seen in Table 2.
Table 2. Potential Savings for Implemented solution
Solution |
Energy Savings (kWh) |
Operating Cost Savings ($) | Cost to Implement ($) | Emission Savings (tCO2-e) |
99 kW Solar PV |
126,062 | 11,977 | 244,372 | 116 |
–
With the implementation of the 99 kW Solar PV system a 32% reduction in energy consumption and consequent emissions will result, with a 14% cost saving.
An energy audit is a good investment
An energy audit is a great first step in moving a business towards a more efficient future by reducing energy use, costs, and carbon emissions onsite.
The Energy Savers Plus Extension Program was delivered in by the Queensland Farmers' Federation with support and funding from the Queensland Department of Energy and Public Works.