Efficiency of Microalgae Cultivation Automated System: A Case Study of Green Algae Chlorella ellipsoidea TISTR 8260

Q4 Agricultural and Biological Sciences

Malaysian applied biology Pub Date : 2023-09-30 DOI:10.55230/mabjournal.v52i3.2665

Suradat Theerapisit, Somrank Rodjaroen, Siriluk Sintupachee

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引用次数: 0

Abstract

Microalgae play an important economic role as aquaculture feed. This study aimed to create an automated algae cultivation system with variable light intensity for the culture of Chlorella ellipsoidea strain TISTR 8260. The automated cabinet could work continuously for at least 30 days, with the growth rates of microalgae in culture systems with light intensities of 1000 Lux, 3000 Lux, and 5000 Lux peaking on day 14, whereas the fluorescent control showed peak microalgae growth on day 6. On day 30, the biomass harvested from microalgae grown in 1000 Lux, 3000 Lux, 5000 Lux, and fluorescent control was 0.1935 ± 0.151 mg/L, 0.1996 ± 0.220 mg/L, 0.2041 ± 0.159 mg/L, and 0.0674 ± 0.191 mg/L, respectively, which was not significantly different between the groups but significantly higher than the control (P-value = 0.05, DF = 3, F(3,36) = 7). The automated algae cabinet with a light intensity of 5000 Lux and a rotation speed of 150 r.p.m produced the maximum biomass, which was three times that produced by a fluorescent light source.

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微藻培养自动化系统的效率研究——以椭球小球藻TISTR 8260为例

微藻作为水产养殖饲料具有重要的经济作用。本研究旨在为椭圆小球藻菌株TISTR 8260的培养建立一个可变光强的藻类自动化培养系统。自动化箱可连续工作至少30天，在1000 Lux、3000 Lux和5000 Lux的培养体系中，微藻生长速度在第14天达到峰值，而荧光对照的微藻生长速度在第6天达到峰值。30天,生物量收获微藻生长在1000勒克斯,3000勒克斯,5000勒克斯,和荧光控制为0.1935±0.151 mg / L, 0.1996±0.220 mg / L, 0.2041±0.159 mg / L和0.0674±0.191 mg / L,分别组之间没有明显不同,但明显高于对照组(p = 0.05, DF = 3, F(36) = 7)。自动藻类内阁的光强度5000勒克斯,转速150 r.p.m产生的最大生物量、这是荧光光源的三倍。

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来源期刊

Malaysian applied biology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

0.60

自引率

0.00%

发文量