+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Air bubbling results in carbon loss during microalgal cultivation in bicarbonate-enriched media: experimental data and process modeling

Air bubbling results in carbon loss during microalgal cultivation in bicarbonate-enriched media: experimental data and process modeling

Aquacultural Engineering 32(3/4): 493-508

Turbulence is a major variable controlling growth of microalgae. When turbulence is provided by means of air bubbling, mass transfer phenomena take place between the culture medium and the air bubbles. A mathematical model has been developed to evaluate the effects of air bubbling in bicarbonate-enriched media for microalgae cultivation, and in cultures of the halotolerant alga Dunaliella viridis.

Please choose payment method:

(PDF emailed within 0-6 h: $19.90)

Accession: 004032433

Download citation: RISBibTeXText

DOI: 10.1016/j.aquaeng.2004.09.008

Related references

Air bubbling results microalgal cultivation in carbon loss during in bicarbonate-enriched media: experimental data and process modeling. Aquacultural Engineering 32(3-4): 493-508, 2005

Cultivation Of Entamoeba Histolytica In Carbon Dioxide-Bicarbonate Buffer System Media. American Journal of Tropical Medicine and Hygiene 13: 667-673, 1964

Experimental verification of the results of the mathematical modeling of the process of formation of alpha-amylase-nonproductive mutants of Bacillus subtilis under continous cultivation. Mikrobiologiia 48(1): 93-98, 1979

Process engineering aspects of the production of cephalosporin C by Acremonium chrysogenum. Part II. Cultivation in diluted and enriched complex media. Process Biochemistry 38(2): 241-248, 2002

Carbon 13 proton nmr noe and multiplet relaxation data in modeling protein dynamics of a collagen carbon 13 enriched glycine gxx repeat motif hexadecapeptide. Journal of the American Chemical Society 114(11): 4326-4331, 1992

Culture of microalgal strains isolated from natural habitats in Thailand in various enriched media. Applied Energy 89(1): 296-302, 2012

Effect of CaO on tar reforming to hydrogen-enriched gas with in-process CO2 capture in a bubbling fluidized bed biomass steam gasifier. International Journal of Hydrogen Energy 38(34): 14495-14504, 2013

Biophysical modeling of microalgal cultivation in open ponds. Ecological Modelling 388: 61-71, 2018

Mineral formation in aluminosilicate media enriched by fluorine and zirconium; experimental data. Zapiski Vsesoyuznogo Mineralogicheskogo Obshchestva 115(2): 240-246, 1986

Modelling microalgal activity as a function of inorganic carbon concentration: accounting for the impact of pH on the bicarbonate system. Journal of Applied Phycology 26(3): 1343-1350, 2014

Multifluid Modeling of the Desulfurization Process within a Bubbling Fluidized Bed Coal Gasifier. Aiche Journal 59(6): 1952-1963, 2013

Regeneration of Activated Carbon Loaded with Cyclohexane Using Supercritical Carbon Dioxide: Experimental Results and Modeling. Chemical Engineering & Technology 36(2): 315-322, 2013

Role of granular activated carbon in the microalgal cultivation from bacteria contamination. Bioresource Technology 247: 36-43, 2018

Microalgal biofilms: A further step over current microalgal cultivation techniques. Science of the Total Environment 651(Pt 2): 3187-3201, 2019

Modeling aerobic carbon source degradation processes using titrimetric data and combined respirometric-titrimetric data: experimental data and model structure. Biotechnology and Bioengineering 79(7): 741-753, 2002