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Chemical Engineering Communications Volume 200, 2013 - Issue 11
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Original Articles

TRANSESTERIFICATION OF PALM OIL AT NEAR-CRITICAL CONDITIONS USING SULFONATED CARBON-BASED ACID CATALYST

Phimphitcha Chanchaochai Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Chemical Engineering Research Unit for Value Adding of Bioresources, Bangkok, Thailand
,
Panatpong Boonnoun Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Chemical Engineering Research Unit for Value Adding of Bioresources, Bangkok, Thailand
,
Navadol Laosiripojana The Joint Graduate School of Energy and Environment, King Mongkut's University of Technology Thonburi, Bangkok, Thailand
,
Motonobu Goto Graduate School of Engineering, Nagoya University, Nagoya, Japan
,
Bunjerd Jongsomjit Department of Chemical Engineering, Faculty of Engineering, Center of Excellence on Catalysis and Catalytic Reaction Engineering, Chulalongkorn University, Bangkok, Thailand
,
Joongjai Panpranot Department of Chemical Engineering, Faculty of Engineering, Center of Excellence on Catalysis and Catalytic Reaction Engineering, Chulalongkorn University, Bangkok, Thailand
,
Okorn Mekasuwandumrong Department of Chemical Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakorn Phathom, Thailand
&
Artiwan Shotipruk Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Chemical Engineering Research Unit for Value Adding of Bioresources, Bangkok, ThailandCorrespondence[email protected]
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Pages 1542-1552 | Published online: 19 Jun 2013
 
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Abstract

This study aims to investigate the production of biodiesel by transesterification of purified palm oil (PPO) at near-critical conditions using a carbon-based catalyst, synthesized by incomplete carbonization of naphthalene in sulfuric acid. The catalyst shows good activity for the reaction; with the most suitable condition found to be at a methanol-to-PPO molar ratio of 12:1, a carbon-based catalyst-to-PPO mass ratio of 0.5 wt.%, a reaction time of 30 min, and a reaction temperature of 270°C. This resulted in a FAME yield of about 95%. However, FAME yields were found to decrease after each reaction cycle from around 95% in the first to 61% in the second cycle, and to only 45% in the third cycle, as a result of catalyst deactivation due to acid leaching.

Acknowledgments

The authors gratefully acknowledge the Thailand Research Fund (TRF) and the Office of Higher Education Commission (CHE) and Higher Education Promotion and National Research University Development (AM1088A) for the financial support.

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