The Follow-up Photobioreactor Illumination System for the Cultivation of Photosynthetic Microorganisms

被引:10
作者
Brzychczyk, Beata [1 ]
Hebda, Tomasz [1 ]
Fitas, Jakub [1 ]
Gielzecki, Jan [2 ]
机构
[1] Agr Univ Krakow, Dept Mech Engn & Agrophys, Fac Prod & Power Engn, Ul Balicka 120, PL-30149 Krakow, Poland
[2] Agr Univ Krakow, Dept Prod Org & Appl Comp Sci, Fac Prod & Power Engn, Ul Balicka 120, PL-30149 Krakow, Poland
关键词
cylindrical LED light coat; tracking lighting; photosynthetic microorganisms; photobioreactor; algae; MICROALGAE; BIODIESEL; SPIRULINA; ALGAE;
D O I
10.3390/en13051143
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
The article presents the basic conceptual assumptions of a photobioreactor with a complementary lighting system. The cylindrical bioreactor has three independent, interconnected, and fully controlled lighting systems. A characteristic feature is the combination of the lighting system with the measurement of photosynthetically active PAR (photosynthetically active radiation) and the optical density of the culture medium. The entire lighting system is based on RGBW ("red, green, blue, white") LED and RBG ("red, green, blue") LEDs. The pilot study was conducted on a simplified prototype of a photobioreactor designed for the distribution and optimization of light in algae cultures designed for energy purposes. The study was carried out on microalgae Chlorella Vulgaris BA0002a from the collection of marine algae cultures.
引用
收藏
页数:9
相关论文
共 33 条
[1]   Significance and Challenges of Biomass as a Suitable Feedstock for Bioenergy and Biochemical Production: A Review [J].
Ahorsu, Richard ;
Medina, Francesc ;
Constanti, Magda .
ENERGIES, 2018, 11 (12)
[2]   Microalgae: An alternative as sustainable source of biofuels? [J].
Amaro, Helena M. ;
Macedo, Angela C. ;
Xavier Malcata, F. .
ENERGY, 2012, 44 (01) :158-166
[3]   Commercial production of microalgae: ponds, tanks, tubes and fermenters [J].
Borowitzka, MA .
JOURNAL OF BIOTECHNOLOGY, 1999, 70 (1-3) :313-321
[4]   Productivity of Spirulina in a strongly curved outdoor tubular photobioreactor [J].
Carlozzi, P ;
Torzillo, G .
APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 1996, 45 (1-2) :18-23
[5]   Microalgal reactors: A review of enclosed system designs and performances [J].
Carvalho, Ana P. ;
Meireles, Luis A. ;
Malcata, F. Xavier .
BIOTECHNOLOGY PROGRESS, 2006, 22 (06) :1490-1506
[6]  
Chen Paul, 2009, International Journal of Agricultural and Biological Engineering, V2, P1, DOI 10.3965/j.issn.1934-6344.2009.04.001-030
[7]   Biodiesel from microalgae [J].
Chisti, Yusuf .
BIOTECHNOLOGY ADVANCES, 2007, 25 (03) :294-306
[8]   Aldingenin derivatives from the red alga Laurencia aldingensis [J].
de Carvalho, Luciana R. ;
Fujii, Mutue T. ;
Roque, Nidia F. ;
Lago, Joao Henrique G. .
PHYTOCHEMISTRY, 2006, 67 (13) :1331-1335
[9]   Assessment of continuous fermentative hydrogen and methane co-production using macro- and micro-algae with increasing organic loading rate [J].
Ding, Lingkan ;
Gutierrez, Enrique Chan ;
Cheng, Jun ;
Xia, Ao ;
O'Shea, Richard ;
Guneratnam, Amita Jacob ;
Murphy, Jerry D. .
ENERGY, 2018, 151 :760-770
[10]   Arthrospira (Spirulina) platensis cultivation in tubular photobioreactor: Use of no-cost CO2 from ethanol fermentation [J].
Ferreira, L. S. ;
Rodrigues, M. S. ;
Converti, A. ;
Sato, S. ;
Carvalho, J. C. M. .
APPLIED ENERGY, 2012, 92 :379-385