Optimization of Single Cell Protein Production from Cheese Whey Under Batch and Continuous Cultivation
Authors
Abstract:
In this research the microorganism was initially isolated and selected after evaluation based on COD reduction of cheese whey and biomass production. The selected microorganism was identified as Trichosporon sp. The cultivation conditions of the microorganism were optimized under batch: temperature 30˚C initial pH = 6 aeration speed = 2 ν.ν.m and agitation rate: 800 rpm. Under these conditions, the specific growth rate and biomass doubling time were measured as 0.59 h-1 and 1.16 h, respectively. The COD reduction and biomass production under optimized batch conditions after 24 hours were obtained as 52% and 8.73 g L-1, respectively. The optimized conditions under continuous cultivation were: temperature, 30˚C agitation rate, 800 rpm aeration speed, 2 ν.ν.m dilution rate, 0.42 h-1 pH in fermentor, 4-5. Under these conditions the biomass production, COD reduction and productivity were obtained as: 8.17 g L-1, 53.21%, and 3.4 g L-1 h-1 respectively.
The nutritional value of biomass was evaluated for crude protein, nucleic acid, fat, ass and moisture content. According to the results, the single cell protein obtained in this research is suitable and valuable for animal and poultry feed.

similar resources
optimization of single cell protein production from cheese whey under batch and continuous cultivation
in this research the microorganism was initially isolated and selected after evaluation based on cod reduction of cheese whey and biomass production. the selected microorganism was identified as trichosporon sp. the cultivation conditions of the microorganism were optimized under batch: temperature 30˚c initial ph = 6 aeration speed = 2 ν.ν.m and agitation rate: 800 rpm. under these conditions,...
full textModeling of Single Cell Protein Production from Cheese Whey Using Tanks-in-Series Model
In this work, mathematical modeling of microbial (Tri...
full textmodeling of single cell protein production from cheese whey using tanks-in-series model
in this work, mathematical modeling of microbial(trichosporon sp.) biomass production in a stirred tankbioreactor and in an external airlift bioreactor has beeninvestigated. a model based on a tanks-in-seriesmodel without back-flow has been used to simulate theproduction of single cell protein in the external airliftbioreactor under an unsteady condition and withoutoxygen limitation, utilizing ...
full textProduction of Single Cell Protein from Natural Gas: Parameter Optimization and RNA Evaluation
Production of single cell protein (SCP) from natural gas in a one liter bubble column reactor and optimization of the process parameters were investigated. The medium specifications, nitrogen sources, initial inoculum volume, and inlet ratio of gas to air were considered as process parameters to be optimized. The optimum condition for highest biomass production in which the maximum quantity of ...
full textOptimization of Cheese Whey Ultrafltration/Diafltration for the Production of Beverage Liquid Protein Concentrates with Lactose Partially Removed
The processing of cheese whey pre-concentrated by reverse osmosis is carried out through ultrafiltration in diafiltration mode to produce whey protein concentrates with lower lactose content to be incorporated in beverages. The initial cheese whey protein and lactose contents are 2.13g/100g and 13.22g/100g, respectively.The commercial membranes, GR95PP, supplied by Alfa Laval, Denmark, we...
full textMy Resources
Journal title
volume 18 issue 1
pages 33- 42
publication date 1999-04
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023