Litcius/Paper detail

Comparative Properties of K/NaX and K/NaY from Ultrasound-Assisted Impregnation and Performance in Transesterification of Palm Oil

Siriporn Kosawatthanakun, Chaianun Pansakdanon, Narongrit Sosa, Narong Chanlek, F. Roessner, Sanchai Prayoonpokarach, Jatuporn Wittayakun

2022ACS Omega15 citationsDOIOpen Access PDF

Abstract

This work aims to compare physicochemical properties and catalytic performance of potassium supported on zeolite NaX and NaY (K/NaX and K/NaY, respectively) prepared by ultrasound-assisted impregnation from potassium acetate buffer precursor. Calcination converts the potassium precursor to carbonate, which occupies the zeolite cavities and disperses on the external surface. Both calcined samples show a decrease in zeolite phases, BET surface areas, and pore volumes. With the smaller changes, K/NaX is more stable than K/NaY. Moreover, K/NaX has higher basicity than K/NaY and is more active in the decomposition of 2-methylbut-3-yn-2-ol (MBOH), producing dominant products from basic sites. Both K/NaX and K/NaY are active in the transesterification of palm oil, producing more than 94% of the biodiesel yields in the first run. However, the yields drop in the second run because of the leaching of potassium species into glycerol and biodiesel products. The spent K/NaX has a similar phase to the fresh one, whereas the spent K/NaY shows more structure collapse. With better structural stability, less potassium leaching, and less decline in biodiesel yields in the second run, K/NaX is a better catalyst than K/NaY.

Topics & Concepts

CalcinationZeolitePotassiumLeaching (pedology)TransesterificationCatalysisPotassium carbonateBiodieselChemistryGlycerolBiodiesel productionNuclear chemistryMaterials scienceChemical engineeringOrganic chemistryEnvironmental scienceEngineeringSoil scienceSoil waterBiodiesel Production and ApplicationsCatalysis and Hydrodesulfurization StudiesLubricants and Their Additives