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Mitigation of ammonia and methane emissions with manure amendments during storage of cattle slurry.

Maxwell Y Owusu-TwumDavid KelleghanGeorge GleasureShaun ConnollyPatrick ForrestalGary J LaniganKarl G RichardsDominika J Krol
Published in: Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA (2024)
This study aimed at assessing the efficacy of manure amendments in abating ammonia (NH 3 ) and methane (CH 4 ) emissions during storage. Two experiments were carried out. Experiment 1 was conducted using 20 L of slurry for 98 days. Treatments were: aluminium sulphate (alum), lactogypsum, zeolite, actiglene, ammonium thiosulphate, biochar, dairy processing waste, Digest-IT and control (without amendment). Experiment 2 was conducted using 660 L of slurry in underground storage tanks for 77 days. Treatments were: sulphuric acid, gypsum, biochar and control (without amendment). NH 3 measurements for experiment 1 and experiment 2 were conducted using the photoacoustic gas monitor and dynamic chamber techniques, respectively. CH 4 was measured using the static chamber technique in both experiments. The effect of amendments on slurry composition was determined at the end of the experiments. Experiment 1 showed a significant reduction in NH 3 emissions in the alum (82%), lactogypsum (46%) and zeolite (32%) treatments relative to the control (100.3% total ammoniacal nitrogen (TAN)). CH 4 was reduced significantly in the alum (87%), ammonium thiosulphate (64%) and lactogypsum (67%) relative to the control (291.9 g m -2 ). Experiment 2 showed a significant reduction (32%) in NH 3 emissions in the sulphuric acid relative to the control (4.4% TAN). CH 4 was reduced significantly in the sulphuric acid (46%), gypsum (39%) and biochar (15%) treatments relative to the control (291.9 g m -2 ). In general, amendments altered slurry composition such as dry matter, volatile solids, carbon and nitrogen contents at the end of storage. Lactogypsum, alum and sulphuric acid were effective in abating both NH 3 and CH 4 emissions and can contribute to improving air quality.
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