Your search keyword '"thermophilic adaptation"' showing total 2 results

1. Thermophilic adaptation of a mesophilic anaerobic sludge for food waste treatment

Author

Ortega, Luis, Barrington, Suzelle, and Guiot, Serge R.

Subjects

*THERMOPHILIC microorganisms, *WASTE treatment, *BIOMASS, *SEWAGE sludge

Abstract

Abstract: As opposed to mesophilic, thermophilic anaerobic digestion of food waste can increase the biogas output of reactors. To facilitate the transition of anaerobic digesters, this paper investigated the impact of adapting mesophilic sludge to thermophilic conditions. A 5L bench scale reactor was seeded with mesophilic granular sludge obtained from an up-flow anaerobic sludge blanket digester. After 13 days of operation at 35°C, the reactor temperature was instantaneously increased to 55°C and operated at this temperature until day 21. The biomass was then fed food waste on days 21, 42 and 63, each time with an F/M (Food/Microorganism) ratio increasing from 0.12 to 4.43gVS/gVSS. Sludge samples were collected on days 0, 21, 42 and 63 to conduct substrate activity tests, and reactor biogas production was monitored during the full experimental period. The sludge collected on day 21 demonstrated that the abrupt temperature change had no pasteurization effect, but rather lead to a biomass with a fermentative activity of 3.58g Glucose/gVSS/d and a methanogenic activity of 0.47 and 0.26g Substrate/gVSS/d, related respectively, to acetoclastic and hydrogenophilic microorganisms. At 55°C, an ultimate gas production (Go) and a biodegradation potential (Bo) of 0.2–1.4LSTP/gVSfed and of 0.1–0.84LSTP CH4/gVSfed were obtained, respectively. For the treatment of food waste, a fully adapted inoculum was developed by eliminating the initial time-consuming acclimatization stage from mesophilic to thermophilic conditions. The feeding stage was initiated within 20 days, but to increase the population of thermophilic methanogenic microorganisms, a substrate supply program must be carefully observed. [Copyright &y& Elsevier]

Published

2008

2. Thermophilic adaptation of a mesophilic anaerobic sludge for food waste treatment

Author

Luis Ortega, Serge R. Guiot, and Suzelle Barrington

Subjects

anaerobic digestion, Environmental Engineering, Hot Temperature, Population, Biomass, Management, Monitoring, Policy and Law, Garbage, biogas production, Bacteria, Anaerobic, Bioreactors, Biogas, Animals, Anaerobiosis, education, Waste Management and Disposal, Waste Products, education.field_of_study, Waste management, Chemistry, General Medicine, Pulp and paper industry, Refuse Disposal, Waste treatment, Food waste, Anaerobic digestion, Milk, food waste, Malus, Fermentation, heat, Sludge, mesophilic conditions, thermophilic adaptation, Mesophile

Abstract

As opposed to mesophilic, thermophilic anaerobic digestion of food waste can increase the biogas output of reactors. To facilitate the transition of anaerobic digesters, this paper investigated the impact of adapting mesophilic sludge to thermophilic conditions. A 5L bench scale reactor was seeded with mesophilic granular sludge obtained from an up-flow anaerobic sludge blanket digester. After 13 days of operation at 35 degrees C, the reactor temperature was instantaneously increased to 55 degrees C and operated at this temperature until day 21. The biomass was then fed food waste on days 21, 42 and 63, each time with an F/M (Food/Microorganism) ratio increasing from 0.12 to 4.43 gVS/gVSS. Sludge samples were collected on days 0, 21, 42 and 63 to conduct substrate activity tests, and reactor biogas production was monitored during the full experimental period. The sludge collected on day 21 demonstrated that the abrupt temperature change had no pasteurization effect, but rather lead to a biomass with a fermentative activity of 3.58 g Glucose/gVSS/d and a methanogenic activity of 0.47 and 0.26 g Substrate/gVSS/d, related respectively, to acetoclastic and hydrogenophilic microorganisms. At 55 degrees C, an ultimate gas production (Go) and a biodegradation potential (Bo) of 0.2-1.4 L(STP)/gVS(fed) and of 0.1-0.84 L(STP) CH(4)/gVS(fed) were obtained, respectively. For the treatment of food waste, a fully adapted inoculum was developed by eliminating the initial time-consuming acclimatization stage from mesophilic to thermophilic conditions. The feeding stage was initiated within 20 days, but to increase the population of thermophilic methanogenic microorganisms, a substrate supply program must be carefully observed.

Published

2006