Studies on power plant algae: assessment of growth kinetics and bio-char production from slow pyrolysis process

IF 0.9 Q4 ENGINEERING, CHEMICAL Indian Chemical Engineer Pub Date : 2020-11-30 DOI:10.1080/00194506.2020.1845987
S. Das, K. Nath, V. Gupta, R. Chowdhury
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Abstract

ABSTRACT Algae can simultaneously be used for bio-capture of CO2, generation of biofuels and biochar. In the present study, the kinetics of autotrophic growth of a power-plant blue–green algae Leptolyngbya subtilis JUCHE1 have been determined along with the assessment of capability of lipid production. The gas phase concentrations of CO2 have been varied in the range of 5–20% (v/v). Illuminated 250 mL Erlenmeyer flasks have been used as small scale photobioreactors. The temperature and light intensity have been maintained at 37oC and 2.5 kLux respectively. Substrate inhibition has been observed beyond 15% CO2 concentration in gas phase. Haldane model explains the growth kinetics. The values of growth kinetic parameters namely μmax, Ks, KI have been determined to be 0.6064d−1, 0.0165 and 1.7429 g/L, respectively. The algal oil has been extracted using a mixture of chloroform and methanol 2:1(v/v) and the dry algal biomass has been pyrolysed in an isothermal semi-batch reactor in the temperature range of 300oC–700°C. The lipid content varies in the range of 4.0–12.5% (wt./wt.) and is strongly influenced by the concentration of CO2 and the culture period. The yield of bio-char increases from 29 to 44% with the decrease of pyrolysis temperature from 700°C to 300°C. GRAPHICAL ABSTRACT
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电厂藻类的研究:生长动力学的评估和慢热解过程的生物炭生产
藻类可以同时用于二氧化碳的生物捕获,生成生物燃料和生物炭。本研究测定了电厂蓝绿藻枯草细藻JUCHE1的自养生长动力学,并对其产脂能力进行了评价。CO2的气相浓度在5-20% (v/v)范围内变化。照明250ml Erlenmeyer烧瓶已被用作小型光生物反应器。温度和光照强度分别保持在37℃和2.5 kLux。在气相CO2浓度超过15%时,观察到底物抑制作用。霍尔丹模型解释了生长动力学。生长动力学参数μmax、Ks、KI分别为0.6064d−1、0.0165和1.7429 g/L。用氯仿和甲醇2:1(v/v)的混合物提取藻油,在300℃- 700℃的等温半间歇反应器中对干藻生物质进行热解。脂质含量在4.0-12.5%(重量/重量)范围内变化,受CO2浓度和培养时间的强烈影响。随着热解温度从700℃降低到300℃,生物炭的产率从29%提高到44%。图形抽象
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来源期刊
Indian Chemical Engineer
Indian Chemical Engineer ENGINEERING, CHEMICAL-
CiteScore
3.00
自引率
6.70%
发文量
33
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