期刊
ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS
卷 53, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.algal.2020.102151
关键词
Astaxanthin; Microalgae; Haematococcus pluvialis; Cultivation; Process control; Semi-technical scale
资金
- National Centre for Research and Development, Poland [PBS3/B8/25/2015]
There has been a growing interest in using microorganisms to produce pharmaceuticals, nutraceuticals, and energy supply products due to their rapid growth rate and biosynthetic abilities. In response to this, a new modular airlift-type photobioreactor system was designed, allowing for automated control and optimization of microbial cultures. A case study with the microalgae Haematococcus pluvialis demonstrated the system's ability to efficiently produce natural astaxanthin through a repeatable biomass multiplication process.
Recently, there has been increased interest in the use of microorganisms in the production of pharmaceuticals, nutraceuticals and energy supply products, which is due to their rapid growth rate and ability to biosynthesize fine chemicals or biotransform specific xenobiotics. To achieve the desired scale of production and optimization of microbial cultures, it is necessary to design bioreactors that enable process automation, control of working parameters, reduction of microbial and chemical contaminations, and culture independence of climate conditions. In response to this need, an original, modular airlift-type photobioreactor system was designed and manufactured. This novel semitechnical system, with a total volume of 1000 dm(3), was operated via computer control, which enabled the creation of time profiles of red, blue and white LED illumination and of carbon dioxide and air dosing. The quality and usefulness of the developed system was demonstrated via the case study, namely two-stage cultivation of the microalgae Haematococcus pluvialis-a species commonly used in the production of natural astaxanthin. The experimentally developed procedure ensures a repeatable and efficient biomass multiplication process and the maintenance of a light- and chemical-mediated effective stress mechanism that allows the production of up to 3.2% natural astaxanthin in terms of dry biomass.
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