Effects of Nitrogen Supplementation Status on CO2 Biofixation and Biofuel Production of the Promising Microalga Chlorella sp. ABC-001

AbstractMicroalgae are an attractive feedstock for biofuel production. Low harvesting cost upholds the use offlocculation as initial dewatering step. Two freshwater microalgae (Chlorella sp. and Scenedesmus sp.)native from the Colombian plateau, with low/medium biomass concentrations, were selected for this study. The effects of pH, Z-potential and flocs size in dictating the behavior of chitosan as flocculant, were evaluated. This study found that the optimal flocculation efficiency of microalgae was determined at pH 7.0, besides the zeta-potential was positively correlated with the flocculant dose. The zeta-potential increases positively with a flocculant dose. The Chlorella sp. is smaller than the Scenedesmus sp. but requires a little more dose of flocculant, this aspect is due to the nature of the flocculant solution and not the size of the studied microalgae. It was observed that for Chlorella sp., chitosan coagulation shifted the flocs size from 2-4 μm to 70-80 μm, with 1.0 ml of the 40 ppm chitosan solution. The flocculation with chitosan can yield compact flocs and accelerate the settling. For Scenedesmus sp. the flocs size was shifted from 3-4 μm to 60-70 μm and less percentage in the flocs volume. Flocculation response of the microalga Scenedesmus sp. is different in comparison to that of Chlorella. The flocculant dose required is greater, although the percentage of flocculation is also higher and the flocs size is only slightly larger. Further work is needed to confirm these observations. ResumenLas microalgas son unas atractivas cepas de pienso para la producción de biocombustibles. Los bajos costos para cosecharlas, soportan el uso de la floculación como paso inicial para la extracción del agua. Dos tipos de microalgas de aguas frescas: Chlorella sp., Scenedesmus sp., nativas de la meseta colombiana, con una concentración de biomasa baja/media, fueron seleccionadas para este estudio. Se evaluaron los efectos potenciales del pH, Z y los tamaños de los flóculos, en la determinación del quitosano como floculante. Este estudio halló que la eficiencia óptima para la floculación de las microalgas se logra con un pH 7.0, además, el potencial zeta fue correlacionado positivamente con una dosis del floculante. La Chlorella sp., es menor que la Scenedesmus sp., pero requiere una dosis un poco mayor de floculante, este aspecto se debe a la naturaleza de la solución floculante y no al tamaño de las microalgas estudiadas. Se observó que para la Chlorella sp., la coagulación del quitosano cambiaba los tamaños de las madejas, de 2-4 µm a 70-80 µm, con 1.0 ml de la solución de quitosano 40 ppm. La floculación con quitosano puede producir flocs compactos para una operación más rápida. Para la Scenedesmus sp., las dimensiones de los flóculos cambiaron de 3-4 µm a 60-70 µm y menor porcentaje en el volumen de los flocs. La respuesta de floculación de la microalga Scenedesmus sp., es diferente a la Chlorella. La dosis requerida de floculante es mayor, aunque el porcentaje de floculación es más elevado y las dimensiones de los flóculos solo son un poco mayores. Se requiere más trabajo para confirmar estas observaciones.

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High pH-induced flocculation of marine Chlorella sp. for biofuel production

Journal of Applied Phycology ◽

10.1007/s10811-015-0576-7 ◽

2015 ◽

Vol 28 (2) ◽

pp. 747-756 ◽

Cited By ~ 19

Author(s):

Fangfang Yang ◽

Wenzhou Xiang ◽

Jiewei Fan ◽

Hualian Wu ◽

Tao Li ◽

...

Keyword(s):

Biofuel Production ◽

High Ph ◽

Chlorella Sp

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Biofuel production and phycoremediation by Chlorella sp. ISTLA1 isolated from landfill site

Bioresource Technology ◽

10.1016/j.biortech.2017.12.012 ◽

2018 ◽

Vol 253 ◽

pp. 121-129 ◽

Cited By ~ 15

Author(s):

Arti Mishra ◽

Kristina Medhi ◽

Neha Maheshwari ◽

Shaili Srivastava ◽

Indu Shekhar Thakur

Keyword(s):

Landfill Site ◽

Biofuel Production ◽

Chlorella Sp

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Characterization of a microalgal mutant for CO2 biofixation and biofuel production

Energy Conversion and Management ◽

10.1016/j.enconman.2016.05.093 ◽

2016 ◽

Vol 122 ◽

pp. 344-349 ◽

Cited By ~ 12

Author(s):

Feng Qi ◽

Haiyan Pei ◽

Wenrong Hu ◽

Ruimin Mu ◽

Shuo Zhang

Keyword(s):

Biofuel Production ◽

Co2 Biofixation

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Development of Sustainable Phycoremediation With the Help of Chlorella Pyrenoidosa for Textile Wastewater Analysis Using Response Surface Methodology

10.21203/rs.3.rs-87566/v1 ◽

2020 ◽

Author(s):

Shubhangi Mishra ◽

Pradeep Kumar Srivast ◽

Virendra Singh ◽

Monika Sharma

Keyword(s):

Response Surface Methodology ◽

Response Surface ◽

Biomass Productivity ◽

Textile Wastewater ◽

Optimal Growth ◽

Chlorella Pyrenoidosa ◽

Biofuel Production ◽

Aquatic Life ◽

Chlorella Sp ◽

Textile Wastewaters

Abstract The uncontrolled utilization for the textile products is increasing year by year resulting with the elevating wastewater generated from the textile industries, which makes it among the prevalent sources of critical environmental deteoration issue globally. Products obtained from the dyes used are the primary toxic product for aquatic life, they cause aesthetic pollution, eutrophication, perturbation and increase in BOD and COD in aquatic life. Three types of textile wastewaters (Acid Yellow dye, Acid orange dye and Basic pink dye) has been used for wastewater treatment and microalgal (Chlorella pyrenoidosa) biomass production. Nitrogen content in textile wastewaters is very less, hence urea is used as nitrogen source in wastewater. Optimal growth condition (Urea-0.4g/L, wastewater- 40%(v/v)) is developed through Response surface methodology (RSM). The biomass productivity for chlorella sp. is 1.2-1.5 g/L/day in textile wastewaters. The reduction efficiency of COD, Nitrate-N Ammonia-N, Phosphate-P, and Dye(color) removal for Chlorella is 90-95%, 75-85%, 90-98%, 65-74% and 40-65%.After harvesting the Biomass by flocculation method it can be used for biofuel production by in-situ transesterification.

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Harvesting of Chlorella sp. by Co-cultivation with Some Fil-amentous Fungi

Al-Mustansiriyah Journal of Science ◽

10.23851/mjs.v28i2.497 ◽

2018 ◽

Vol 28 (2) ◽

pp. 35

Author(s):

Rana H. Hameed Al-Shammari

Keyword(s):

Aspergillus Terreus ◽

Research Area ◽

Economic Feasibility ◽

Biofuel Production ◽

Process Time ◽

Microalgae Harvesting ◽

Chlorella Sp ◽

Lower Glucose ◽

Harvesting Process ◽

New Research

Algae are play a major role as straight producers of biofuels, so expansion of a new. harvesting-technology is important to achieve economic feasibility of biofuel production from algae.. Fungal pelletization-assisted.. Microalgal harvesting has Emerged as new research area for decreasing the harvesting cost and energy inputs in the algae-to-biofuel method. The present study tried to opti-mize process circumstances as (substrate inputs, process time and pH). Through choice of a ro-bust fungal strain. Four fungal strains (Aspergillus terreus, Trichoderma sp., Mucor sp. and Rhi-zopus sp.) were screened for their pelletizing efficiency in fresh/supplemented chu-10 with select-ed media nutrient (glucose, nitrogen and phosphorous). Results showed that Aspergillus terreus was the most efficient strain for pelletizing in the nutrient supplemented chu-10 with its neutral pH (7) and acidic pH (5). Stimulatingly, A. terreus was capable to harvest nearly 100 % of the Clorella sp. cells (1×106 spore/ml at optical density (OD) approximately 2.5 initial working algal concentration) within only 24 h. at supplementation of (10 g/l glucose, 2.5 mg/l aNH4NO3 and 0.5 mg/l mK2HPO4) also performed well at lower glucose level (5 g/l) can also results in similar har-vesting but its need relatively higher incubation time. The procedure kinetics in term of harvesting index (H. I) as well as the variation of residual glucose and pH with time was also studied. The mechanism of harvesting process was studied through microscopic, examination. A. terreus strain investigated in this study could emerge as an efficient, sustainable and economically viable tool in microalgae harvesting for biofuel production and time conservation

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Potential of Microalgae Cultivation in Dairy Wastewater as a Step in Low-Cost Biofuel Production

Journal of Engineering ◽

10.31026/j.eng.2018.04.04 ◽

2018 ◽

Vol 24 (4) ◽

pp. 58

Author(s):

Basma Abbas Abdulmajeed ◽

Arwa Raad Ibrahim

Keyword(s):

Wastewater Treatment ◽

Renewable Energy ◽

Chemical Oxygen Demand ◽

Low Cost ◽

Oxygen Demand ◽

Dairy Wastewater ◽

Biofuel Production ◽

Microalgae Cultivation ◽

Chlorella Sp

The present study addresses adopting the organic and nutritious materials in dairy wastewater as media for cultivation of microalgae, which represent an important source of renewable energy. This study was carried out through cultivation of three types of microalgae; Chlorella sp., Synechococcus, and Anabaena. The results shows the success the cultivation of the Synechococcus and Chlorella Sp, while the Anabaena microalgae were in low-growth level. The highest growth was in the Synechococcus farm, followed by Chlorella and Anabaena. However, the growth of Synechococcus required 10 days to achieve this increase that represents a negative indicator of the adoption of this type of microalgae in this media to meet the desired aims. While Chlorella needs less than two days to start growing. Moreover, the data obtained from the experiment show that removal of chemical oxygen demand in Chlorella cultures was (72%) more than that obtained from cultivation of other microalgae. Thus this microalgae is more efficient in wastewater treatment than other types.

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