Enhancing the Removal of Highly Concentrated CO2 Through Synergism between Microalgae Consortium and Nutrient Ratio in Photobioreactor

A. Rinanti, K. Dewi
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Abstract

This research was carried out by developing the carbon capture and storage (CCS) technology to determine the synergism between microalgae consortium and the optimum nutrient ratio as an effort to obtain higher CO 2 removal efficiency and CO 2 utilization efficiency. The microalgae consortium consisting of Chlorella sp., Scenedesmus sp. and Ankistrodesmus sp. have been selected previously as potential candidates for Microbial Carbon Capture and Storage (MCCS) agent and already cultured continuously in PHM (Provasoli Haematococcus Media) artificial medium, in vertical column photobioreactor. Pure CO 2 gas at a high concentration of 10% (v/v) flowed from the bottom of vertical column photobioreactor continuously with optimum flow rate of 5 L.min -1 . A growth medium (PHM) containing artificial nutrients was flowed continuously at flow rate 7L.day -1 and detention time 3.8 days. Four fluorescent lamps were positioned outside the photo-bioreactor to obtain light intensity of 4000 lux, set for 16 hours light exposure and 8 hours dark, with operating temperature 30°C maintained during the study. Three compositional variations of microalgae consortium were used. They are as follows;  Ch : Sc : An = 1: 1: 1; Ch : Sc = 1: 1; and Ch : An = 1: 1, where Ch, Sc, and An  were  Chlorella sp., Scenedesmus obliquus and Ankistrodesmus sp., respectively. The following variations of nutrient composition were used; C: N: P = 100: 10: 1, C: N: P = 100: 50: 1 and C: N: P = 100: 25: 1. The C, N, and P sources were CO 2 (inorganic), KNO 3 , and KH 2 PO 4 , respectively. This study proves that synergism between the types making up the consortium also determined the ability to utilize inorganic carbon source. Without the presence of Ankistrodesmus sp., synergism between Scenedesmus obliquus and Chlorella sp. showed twice higher CO 2 utilization efficiency in comparison to the synergism between Ankistrodesmus sp and Chlorella sp. Increased nitrogen concentration in medium increased the growth of Chlorella sp and Scenedesmus obliquus as a consortium, the CO 2 removal efficiency, the CO 2 utilization efficiency and the Carbon Uptake Rate. The nutrient ratios C:N:P of 100:50:1 could increase CO 2 utilization efficiency upto 50% higher than the C:N:P of 100:10:1.
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光生物反应器中微藻群与营养配比协同作用增强高浓度CO2的脱除
本研究通过开发碳捕集与封存(CCS)技术,确定微藻联合体与最佳营养配比之间的协同作用,以获得更高的CO 2去除效率和CO 2利用效率。由小球藻(Chlorella sp.)、Scenedesmus sp.和Ankistrodesmus sp.组成的微藻联盟已被选为微生物碳捕获和储存(MCCS)剂的潜在候选物,并已在PHM (Provasoli Haematococcus Media)人工培养基中在垂直柱光生物反应器中进行了连续培养。高浓度10% (v/v)的纯co2气体从垂直塔式光生物反应器底部连续流出,最佳流量为5 L.min -1。将含人工营养物的生长培养基(PHM)以7L的流速连续流动。第1天,留校时间3.8天。在光生物反应器外放置4支荧光灯,光照强度为4000 lux,光照16小时,黑暗8小时,研究期间工作温度为30°C。采用三种微藻群落组成变化。它们是:Ch: Sc: An = 1:1:1;Ch: Sc = 1:1;和Ch: An = 1:1,其中Ch、Sc和An分别代表小球藻、斜角小球藻和按目小球藻。采用了以下几种营养成分:C: N: P = 100:10:1, C: N: P = 100:50:1, C: N: P = 100:25:1。碳、氮和磷的来源分别是co2(无机)、kno3和kpo4。本研究证明,组成联合体的类型之间的协同作用也决定了利用无机碳源的能力。在无安氏线虫存在的情况下,斜小球藻与小球藻的协同作用对CO 2的利用效率比安氏线虫与小球藻的协同作用高2倍。培养基中氮浓度的增加提高了小球藻与斜小球藻作为一个群落的生长、CO 2的去除效率、CO 2的利用效率和碳吸收率。养分比C:N:P为100:50:1比C:N:P为100:10:1可提高co2利用效率达50%。
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