STUDIES ON SYNTHESIS OF BIOBASED EP

STUDIES ON SYNTHESIS OF BIOBASED EPOXIDE USING COTTONSEED OIL
ABSTRACT
Epoxidized vegetable oils are promising candidates as a substitute for petroleum oil based plasticizer, lubricants and stabilizers. Chemical modification of fatty acid chain of triglyceride appears to be one route towards this objective of substitution of petroleum product. In this study cottonseed oil having an iodine value of 96 g I2/100g oil was epoxidized in situ using 30% aqueous hydrogen peroxide as oxygen donor and glacial acetic acid as oxygen carrier in presence of sulphuric acid as a catalyst. The effect of various parameters such as temperature, hydrogen peroxide to ethylenic unsaturation mole ratio, acetic acid to ethylenic unsaturation mole ratio and stirring speed on epoxidation rate were studied. The product structure characterization was accomplished by employing FTIR analysis.

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STUDIES ON SYNTHESIS OF BIOBASED EPOXIDE USING COTTONSEED OILABSTRACTEpoxidized vegetable oils are promising candidates as a substitute for petroleum oil based plasticizer, lubricants and stabilizers. Chemical modification of fatty acid chain of triglyceride appears to be one route towards this objective of substitution of petroleum product. In this study cottonseed oil having an iodine value of 96 g I2/100g oil was epoxidized in situ using 30% aqueous hydrogen peroxide as oxygen donor and glacial acetic acid as oxygen carrier in presence of sulphuric acid as a catalyst. The effect of various parameters such as temperature, hydrogen peroxide to ethylenic unsaturation mole ratio, acetic acid to ethylenic unsaturation mole ratio and stirring speed on epoxidation rate were studied. The product structure characterization was accomplished by employing FTIR analysis.

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STUDI PADA SINTESIS Biobased epoksida MENGGUNAKAN kapas MINYAK
ABSTRAK
minyak nabati terepoksidasi adalah kandidat yang menjanjikan sebagai pengganti minyak bumi berbasis plasticizer, pelumas dan stabilisator. Modifikasi kimia rantai asam lemak dari trigliserida tampaknya menjadi salah satu rute menuju tujuan ini substitusi produk minyak bumi. Dalam hal ini minyak biji kapas studi memiliki nilai yodium dari 96 g I2 / 100 g minyak yang terepoksidasi in situ menggunakan 30% berair hidrogen peroksida sebagai donor oksigen dan asam asetat glasial sebagai pembawa oksigen di hadapan asam sulfat sebagai katalis. Pengaruh berbagai parameter seperti suhu, hidrogen peroksida untuk etilenat rasio mol jenuh, asam asetat untuk etilenat rasio mol jenuh dan kecepatan pengadukan pada tingkat epoksidasi dipelajari. Karakterisasi struktur produk dicapai dengan menggunakan analisis FTIR.

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