Economic and Environmental Analysis of SmallScale Anaerobic Digestion Plants on Irish Dairy Farms /
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Date
2020Author
O’Connor, Sean
Ehimen, Ehiaze
Pillai, Suresh C.
Lyons, Gary
Bartlett, John
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The European Union’s (EU) climate and energy package requires all EU countries to
reduce their greenhouse gas (GHG) emissions by 20% by 2020. Based on current trends, Ireland is
on track to miss this target with a projected reduction of only 5% to 6%. The agriculture sector has
consistently been the single largest contributor to Irish GHG emissions, representing 33% of all
emissions in 2017. Small-scale anaerobic digestion (SSAD) holds promise as an attractive technology
for the treatment of livestock manure and the organic fraction of municipal wastes, especially in low
population communities or standalone waste treatment facilities. This study assesses the viability
of SSAD in Ireland, by modelling the technical, economic, and environmental considerations of
operating such plants on commercial Irish dairy farms. The study examines the integration of SSAD
on dairy farms with various herd sizes ranging from 50 to 250 dairy cows, with co-digestion
afforded by grass grown on available land. Results demonstrate feedstock quantities available onfarm to be sufficient to meet the farm's energy needs with surplus energy exported, representing
between 73% and 79% of the total energy generated. All scenarios investigated demonstrate a net
CO2 reduction ranging between 2059–173,237 kg CO2-eq. yr-1. The study found SSAD systems to be
profitable within the plant’s lifespan on farms with dairy herds sizes of >100 cows (with payback
periods of 8–13 years). The simulated introduction of capital subvention grants similar to other EU
countries was seen to significantly lower the plant payback periods. The insights generated from
this study show SSAD to be an economically sustainable method for the mitigation of GHG
emissions in the Irish agriculture sector.
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