针对传统管式光生物反应器中存在的附壁现象、光衰减现象以及光暗循环频率低等问题,设计了内置组合转子新型管式光生物反应器.以小球藻为培养对象,BG11为培养基,以光密度作为检测指标,比较了新型管式光生物反应器和锥形瓶静态培养对于微藻生长的影响.同时也分别比较了在不同光暗循环周期下(L∶D=18∶6和L∶D=24∶1),新型管式光生物反应器和锥形瓶静态培养对于微藻生长的影响.结果表明,在扩大培养10倍之后,光暗周期为L∶D=18∶6的对照组最终OD值、比生长速率均要大于L∶D=24∶1的对照组,其中新型反应器中最终OD值高出17.1％,比生长速率高出0.66％,锥形瓶中最终OD值高出13.63％,比生长速率高出6.67％.“,”A new type of tubular photobioreactor with built-in combined rotors is designed for solving the problems of tube wall adhesion,light attenuation and low frequency of light-dark circulation in traditional tubular photobioreactor.The effects of the new tubular photobioreactor and Erlenmeyer flask on the growth of microalgae in static culture are compared by using chlorella as culture object,BG11 as culture medium and the optical density as detection index.Under different light-dark cycles (L∶ D =18∶6 and L ∶D =24 ∶ 1) respectively,the effects of the new tubular photobioreactor and Erlenmeyer flask on the growth of microalgae in static culture are also compared and analyzed.The results make down that after expanding 10 times of the culture,both the final OD value and specific growth rate of the control group with L ∶D=18∶6 light-dark period are higher than that of L∶D=24∶1 light-dark period group.Of which,the final OD value and the specific growth rate in the new tubular photobioreactor are 17.1％ and 0.66％ higher than those in the control group,and in Erlenmeyer flask the final OD value and the specific growth rate are separately higher 13.63％ and 6.67％ than that in the control group.