Recovery of carotenoids from shrimp waste in organic solvents

Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies were carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimiz...

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Published inWaste management (Elmsford) Vol. 26; no. 10; pp. 1092 - 1098
Main Authors Sachindra, N.M., Bhaskar, N., Mahendrakar, N.S.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 2006
New York, NY Elsevier Science
Subjects
2-Propanol
Animals
Applied sciences
Carotenoids - isolation & purification
Exact sciences and technology
Fisheries - methods
Hexanes
India
Other wastes and particular components of wastes
Penaeidae - chemistry
Pollution
Regression Analysis
Solvents - chemistry
Waste Products - analysis
Wastes
India
Crustacea
Organic solvent
Statistical analysis
Arthropoda
Prediction
Seafood
Decapoda
Invertebrata
Modeling
Shrimp
Petroleum
Macrura
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Abstract Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies were carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimize the extraction conditions for maximum yield. A 50:50 mixture of isopropyl alcohol and hexane gave the highest (43.9 μg/g waste) carotenoid extraction yield compared to acetone, methanol, ethanol, isopropyl alcohol, ethyl acetate, ethyl methyl ketone, petroleum ether, and hexane individually and to a mixture of acetone and hexane. Extraction conditions such as percentage of hexane in the solvent mixture of isopropyl alcohol and hexane, ratio of solvent to waste and number of extractions was optimized using a statistically designed experiment. The optimized conditions for maximum yield of carotenoids were 60% hexane in solvent mixture, solvent mixture to waste ratio of 5:1 in each extraction and three extractions. A regression equation for predicting the carotenoid yield as a function of three processing variable (hexane % in solvent mixture, solvent-to-waste ratio and number of extractions) was derived by statistical analysis, and a model with predictive ability of 0.98 was obtained.
AbstractList Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies were carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimize the extraction conditions for maximum yield. A 50:50 mixture of isopropyl alcohol and hexane gave the highest (43.9 μg/g waste) carotenoid extraction yield compared to acetone, methanol, ethanol, isopropyl alcohol, ethyl acetate, ethyl methyl ketone, petroleum ether, and hexane individually and to a mixture of acetone and hexane. Extraction conditions such as percentage of hexane in the solvent mixture of isopropyl alcohol and hexane, ratio of solvent to waste and number of extractions was optimized using a statistically designed experiment. The optimized conditions for maximum yield of carotenoids were 60% hexane in solvent mixture, solvent mixture to waste ratio of 5:1 in each extraction and three extractions. A regression equation for predicting the carotenoid yield as a function of three processing variable (hexane % in solvent mixture, solvent-to-waste ratio and number of extractions) was derived by statistical analysis, and a model with predictive ability of 0.98 was obtained.
Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies were carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimize the extraction conditions for maximum yield. A 50:50 mixture of isopropyl alcohol and hexane gave the highest (43.9 is a subset of g/g waste) carotenoid extraction yield compared to acetone, methanol, ethanol, isopropyl alcohol, ethyl acetate, ethyl methyl ketone, petroleum ether, and hexane individually and to a mixture of acetone and hexane. Extraction conditions such as percentage of hexane in the solvent mixture of isopropyl alcohol and hexane, ratio of solvent to waste and number of extractions was optimized using a statistically designed experiment. The optimized conditions for maximum yield of carotenoids were 60% hexane in solvent mixture, solvent mixture to waste ratio of 5:1 in each extraction and three extractions. A regression equation for predicting the carotenoid yield as a function of three processing variable (hexane % in solvent mixture, solvent-to-waste ratio and number of extractions) was derived by statistical analysis, and a model with predictive ability of 0.98 was obtained.
Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies were carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimize the extraction conditions for maximum yield. A 50:50 mixture of isopropyl alcohol and hexane gave the highest (43.9 microg/g waste) carotenoid extraction yield compared to acetone, methanol, ethanol, isopropyl alcohol, ethyl acetate, ethyl methyl ketone, petroleum ether, and hexane individually and to a mixture of acetone and hexane. Extraction conditions such as percentage of hexane in the solvent mixture of isopropyl alcohol and hexane, ratio of solvent to waste and number of extractions was optimized using a statistically designed experiment. The optimized conditions for maximum yield of carotenoids were 60% hexane in solvent mixture, solvent mixture to waste ratio of 5:1 in each extraction and three extractions. A regression equation for predicting the carotenoid yield as a function of three processing variable (hexane % in solvent mixture, solvent-to-waste ratio and number of extractions) was derived by statistical analysis, and a model with predictive ability of 0.98 was obtained.
Recovery of carotenoids from shrimp waste in organic solvents is presented. Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids. Studies are carried out to assess the extractability of shrimp waste carotenoids in different organic solvents and solvent mixtures and to optimize the extraction conditions for maximum yield. A 50:50 mixture of isopropyl alcohol and hexane gives the highest carotenoid extraction yield compared to acetone, methanol, ethanol, isopropyl alcohol, ethyl acetate, ethyl methyl ketone, petroleum ether, and hexane individually and to a mixture of acetone and hexane. Extraction conditions namely, percentage of hexane in the solvent mixture of isopropyl alcohol and hexane, ratio of solvent to waste, and number of extractions are optimized using a statistically designed experiment.
Author Bhaskar, N.
Sachindra, N.M.
Mahendrakar, N.S.
Author_xml – sequence: 1
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  surname: Sachindra
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  surname: Mahendrakar
  fullname: Mahendrakar, N.S.
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Keywords Crustacea
Organic solvent
Statistical analysis
Arthropoda
Prediction
Seafood
Decapoda
Invertebrata
Modeling
Shrimp
Petroleum
Macrura
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Snippet Shrimp waste, which is produced in large quantities in the Indian seafood processing industries, is one of the important sources of natural carotenoids....
Recovery of carotenoids from shrimp waste in organic solvents is presented. Shrimp waste, which is produced in large quantities in the Indian seafood...
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pubmed
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elsevier
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StartPage 1092
SubjectTerms 2-Propanol
Animals
Applied sciences
Carotenoids - isolation & purification
Exact sciences and technology
Fisheries - methods
Hexanes
India
Other wastes and particular components of wastes
Penaeidae - chemistry
Pollution
Regression Analysis
Solvents - chemistry
Waste Products - analysis
Wastes
Title Recovery of carotenoids from shrimp waste in organic solvents
URI https://dx.doi.org/10.1016/j.wasman.2005.07.002
https://www.ncbi.nlm.nih.gov/pubmed/16129592
https://search.proquest.com/docview/14796532
https://search.proquest.com/docview/19719638
Volume 26
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