Effects of nitrogen availability on the bioenergy production potential and CO2 fixation of Thermosynechococcus CL-1 under continuous cultivation

Chih Ming Su, Hsin Ta Hsueh, Hsing Hui Chen, Hsin Chu

研究成果: Article

3 引文 斯高帕斯(Scopus)


Nitrogen availability directly affects the microalgal metabolism. A thermophilic cyanobacterium named Thermosynechococcus CL-1 was cultivated in a continuous system to evaluate the effects of NO3- fluxes on the biomass production, bioenergy production, and CO2 fixation. The results show that decreasing the NO3- flux to a N-deprived level (1.01 mM/d) enhances the carbohydrate content in TCL-1 to 45%, accompanied by a decrease in the lipid content. However, increasing the NO3- flux from a N-deprived level (1.01 mM/d) decreases the carbohydrate content dramatically, accompanied by a slight increase in the lipid content. No matter whether the NO3- flux decreases from a N-replete level (8.35 mM/d) to a N-deprived one (1.01 mM/d), or increases from a N-deprived level to higher one, the peak biomass yield occurs at the same NO3- flux level, 4.18 mM/d. In addition, the peak lipid yield, carbohydrate yield, and CO2 fixation rate were recorded at 482 and 660 mg/L/d, and 3.9 g/L/d, respectively, under the same NO3- flux level (4.18 mM/d). Although cultivating TCL-1 under the 4.18 mM/d NO3- flux level exhibits great biomass production, CO2 fixation, and bioenergy production potential, different procedures (the NO3- flux decreasing from the N-replete level and the NO3- flux increasing from the N-deprived level) could influence the final quantity of bioenergy production and CO2 fixation. The NO3- flux, NO3- concentration in the bioreactor, and the NO3- flux variation routes are all important factors to determine the nitrogen availability of TCL-1 in continuous cultivation.

頁(從 - 到)1321-1330
期刊Aerosol and Air Quality Research
出版狀態Published - 2013 七月 30

All Science Journal Classification (ASJC) codes

  • Environmental Chemistry
  • Pollution

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