Optimization of additive contents in cottonseed meals during the solid-state fermentation using response surface methodology and artificial neural network-based genetic algorithm

Optimization of additive contents in cottonseed meals during the solid-state fermentation using response surface methodology and artificial neural network-based genetic algorithm

The response surface methodology (RSM) and an artificial neural network-based genetic algorithm (ANN-GA) were carried out to investigate the effects of urea content, Na<sub>2</sub>CO<sub>3</sub> content and rapeseed meal content on free gossypol detoxification from cottonseed...

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Bibliographic Details
Main Authors: TANG Jiang-wu, SUN Hong, YAO Xiao-hong, WU Yi-fei, WANG Xin
Format: Article
Language:English
Published: Zhejiang University Press 2011-01-01
Series:浙江大学学报. 农业与生命科学版
Subjects:
cottonseed meal
free gossypol
optimization
response surface methodology
neural network
genetic algorithm
Online Access:https://www.academax.com/doi/10.3785/j.issn.1008-9209.2011.01.014
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Summary:The response surface methodology (RSM) and an artificial neural network-based genetic algorithm (ANN-GA) were carried out to investigate the effects of urea content, Na<sub>2</sub>CO<sub>3</sub> content and rapeseed meal content on free gossypol detoxification from cottonseed meals by solid-state fermentation. The modeling and optimizing abilities of the two methods were compared. The results showed that according to RSM, the optimal additive contents for free gossypol detoxification were 0.97% urea, 2.47% Na<sub>2</sub>CO<sub>3</sub> and 24.32% rapeseed meal, and the predicted detoxification and experimentally measured detoxification ratios were 77.71% and 79.10%, respectively. Among the three factors, Na<sub>2</sub>CO<sub>3</sub> content had the biggest effect on free gossypol detoxification. According to the ANN-GA method, the maximum detoxification ratio of 81.36% was predicted when the urea content, Na<sub>2</sub>CO<sub>3</sub> content and rapeseed meal content were 0.98%, 2.45% and 23.66%, respectively. While the experimentally measured detoxification ratio was 80.09%. The correlation efficiency of 0.9191 identified by response surface methodology was a little lower than that of 0.9991 identified by genetic algorithm based on an artificial neural network model, which also was with a lower RMSE value by 0.13, indicating that the artificial neural network-based genetic algorithm had a much higher optimizing ability and modeling ability during the optimization of the solid-state fermentation process.
ISSN:1008-9209
2097-5155

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