Abstract
This work evaluated the effects of sodium ion concentration, ranging from 0 to 16000mg·L −1(Na +), on the conversion of sucrose to hydrogen by a high-activity anaerobic hydrogen-producing granular sludge. At the optimum sodium ion concentration [1000–2000mg·L −1(Na +)] for hydrogen production at 37°C, the maximum sucrose degradation rate, the specific hydrogen production yield and the specific hydrogen production rate were 393.6–413.1mg·L −1·h −1, 28.04–28.97ml·g −1, 7.52–7.83ml·g −1·h −1, respectively. The specific production yields of propionate, butyrate and valerate decreased with increasing sodium ion concentration, whereas the specific acetate production yield increased, meanwhile the specific production yields of ethanol and caproate were less than 55.3 and 12.6mg·g −1, respectively. The hybrid fermentation composition gradually developed from acetate, propionate and butyrate to acetate with the increase in sodium ion concentration.
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