Abstract
In the present work, the waste material Donax deltoides shells (DDS) was utilized as a heterogeneous base catalyst for biodiesel production from Calophyllum inophyllum oil (CIO)-waste cooking oil (WCO) mixture. Non-edible CIO possessing 65 mg of KOH g− 1 of acid value was mixed with WCO of low acid value in different proportions. The acid value was reduced to 33.3 mg of KOH g− 1 of oil by using a volumetric ratio of 1:1 and it was further reduced to 5.6 mg of KOH g− 1 of oil by acid catalyzed esterification process and used for biodiesel production. DDS was converted into active CaO catalyst by calcination and the catalyst characterization was performed using different instrumental techniques. The impact of calcined DDS (catalyst) concentration, reaction time and methanol to esterified oil volumetric ratio on biodiesel conversion was investigated to optimize the transesterification reaction using response surface methodology based central composite design. The biodiesel conversion was determined by proton nuclear magnetic resonance spectroscopy and a maximum biodiesel conversion of 96.5% was achieved with catalyst concentration of 7.5 wt%, methanol to oil volumetric ratio of 63.8%, reaction time of 129.3 min, stirrer speed of 450 rpm and reaction temperature of 65 °C.
Highlights
World’s energy requirement is increasing as industrial, agricultural and transport sectors are dependent on conventional energy resources [1, 2]
The present study aimed to explore the possibility of utilizing deltoides shells (DDS) as a suitable heterogeneous alkali catalyst for methyl ester production from C. inophyllum oil (CIO)-waste cooking oil (WCO) mixture
Temperature acts a major part in the transformation of CaCO3 to Calcium oxide (CaO) [25]
Summary
World’s energy requirement is increasing as industrial, agricultural and transport sectors are dependent on conventional energy resources [1, 2] This ever-increasing energy demand was met by utilizing conventional fossil fuel resources which are non-renewable in nature and are getting depleted day by day. In order to overcome the fossil fuel depletion and to meet the growing fuel demands, biofuels can be a better alternative. Biodiesel is one such fuel entails alkyl esters having long chain fatty acids obtained from lipids (oils) or animal fats [3]. An adult plant can grow up to 20–30 m high It bears fruits twice a year with the annual production of about 8000 fruits and its kernel
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