Abstract
The continuously increasing demand for renewable energy sources renders anaerobic digestion one of the most promising technologies for renewable energy production. Due to the animal production intensification, manure is being used as the primary feedstock for most biogas plants. Thus, their economical profitable operation relies on increasing the methane yield from manure, and especially of its solid fraction which is not so easily degradable. In the present study, aqueous ammonia soaking (AAS) at six different concentrations in ammonia (5%, 10%, 15%, 20%, 25% and 32%) and for 1, 3 and 5 days at 22 °C was applied on digested fibers separated from the effluent of a manure-fed, full-scale anaerobic digester. A methane yield increase from 76% to 104% was achieved during the first series of experiments, while the difference in reagent concentration did not considerably affect the methane yield. It was shown that the optimal duration was three days for both 5% and 25% w/w reagent concentrations in ammonia tested. Carbohydrates and phosphorus content remained unaffected, while a slight decrease in Klason lignin and non-soluble organic nitrogen content was observed after AAS. It is concluded that AAS is a very promising treatment resulting to an overall increase of the methane yield of digested manure fibers from 76% to 265% depending on the conditions and the batch of digested fibers used (an even higher increase of 190%–265% was achieved during the 2nd series of experiments, where different AAS durations were tested, compared to the 1st series were different ammonia concentrations were applied).
Highlights
Anaerobic digestion is one of the most promising renewable energy technologies, as it provides a solution to both environmental and energy considerations
NH3 concentration in the reagent, % w/w. As it can be seen, after the first 17 days, an overall methane yield increase from 93% to 127% was achieved compared to controls
While for the ammonia soaking (AAS) fibers the content of glycan, xylan and arabinan had an average value of 19.2 ± 0.8, 11.4 ± 0.5 and 4.1 ± 0.1 percent (%) of the total solids (TS) content, respectively
Summary
Anaerobic digestion is one of the most promising renewable energy technologies, as it provides a solution to both environmental and energy considerations. The intensification of animal production generates large amounts of manure, which in Denmark is mainly treated by anaerobic digestion. Increasing the methane productivity of manure has become a necessity for biogas plants to be economically viable. The addition of biomass products with high methane yield, e.g., fat sludge or fish oil [2] and the introduction of solid-liquid separation technologies [3] are some of the strategies that have been adopted the last years in order to increase the methane yield of manure. Digestion of manure with other biomass products is not always feasible and economically attractive as the volumes of such wastes streams are limited
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