摘要
为探究小球藻同步固定CO_(2)、净化废水及生产蛋白质的潜力,实验研究不同氨氮浓度(30,60,90 mg/L NH_(4)Cl)和CO_(2)体积分数(0.038%和10%)对小球藻(Chlorella vulgaris)生长、固碳、氮磷营养盐去除及蛋白质生产的影响,并将Logistic方程与改进的Monod方程相结合,描述小球藻比生长速率与氮、磷营养盐的关系。结果表明:10%CO_(2)组生物量(380.16~499.52 mg/L)是0.038%CO_(2)组生物量(44.73~120.00 mg/L)的3.54~8.30倍,同时,10%CO_(2)组中氨氮和磷酸盐消耗速率明显高于0.038%CO_(2)组。小球藻比生长速率、固碳速率、蛋白质含量均与生物量呈正相关(R^(2)≥0.83,P<0.05),且在10%CO_(2)和60 mg/L NH_(4)Cl条件下获得最大值,分别为0.21 d^(-1)、42.62 mg/(L·d)和228.43 mg/L。此外,拟合结果显示Logistic方程与改进的Monod方程联合应用可较好地描述小球藻的生长过程(R^(2)=0.39~0.96),且10%CO_(2)条件下的营养盐更易被小球藻吸收。实验结果可为微藻同步固定CO_(2)、净化废水及副产物(如蛋白质)生产的应用提供理论参考。
To explore the potential of Chlorella vulgaris(C.vulgaris)in fixing CO_(2),purifying wastewater and producing protein simultaneously,the effects of different ammonium concentrations(30 mg/L,60 mg/L,90 mg/L NH_(4)Cl)and CO_(2) concentrations(0.038%and 10%)on the growth,CO_(2) fixation,nutrients removal and protein production of C.vulgaris were studied.The combination of Logistic function and the modified Monod function was also used to describe the relationship between C.vulgaris specific growth rate and concentration of ammonium(NH^(+)_(4)-N)and phosphate(PO_(4)^(3-)-P),respectively.Resultsshowed that the biomass of 10%CO_(2) group(380.16~499.52 mg/L)was 3.54~8.30 times that of 0.038%CO_(2) group(44.73~120.00 mg/L).Meanwhile,the consumption rates of ammonium and phosphate in the 10%CO_(2) group were significantly higher than those in the 0.038%CO_(2) group.Correlation analysis showed that specific growth rate,carbon fixation rate,protein were all positively correlated with C.vulgaris biomass(R^(2)>0.86,P<0.05).With 10%CO_(2) and 60 mg/L NH_(4)Cl,the maximum values of specific growth rate,carbon fixation rate,and protein were 0.21 d^(-1),42.62 mg/(L·d),and 228.43 mg/L,respectively.In addition,the fitting results indicated that the combination of Logistic function and the modified Monod function could well describe C.vulgaris growth(correlation coefficient R^(2) is 0.39~0.96),and nutrients were more easily utilized by C.vulgaris at 10%CO_(2).This experiment could provide a theoretical reference for fixing CO_(2),purifying wastewater and producing protein simultaneously by microalgae.
作者
孔佳
沈伯雄
孔文文
单凯旋
KONG Jia;SHEN Bo-xiong;KONG Wen-wen;SHAN Kai-xuan(School of Energy and Environmental Engineering,Hebei University of Technology,Tianjin 300401,China;Tianjin Key Laboratory of Clean Energy Utilization and Pollutant Control,Tianjin 300401,China;School of Chemical Engineering,Hebei University of Technology,Tianjin 300401,China)
出处
《环境工程》
CAS
CSCD
北大核心
2022年第5期9-17,94,共10页
Environmental Engineering
基金
国家自然科学基金区域创新发展联合基金(U20A20302)
河北省自然科学基金(E2020202021)
河北省重点研发计划项目(20373701D)
天津市生态环境重大专项(19ZXSZSN00050,19ZXSZSN00070)