ARTÍCULO
TITULO

Synthesis of Monk Fruit Based Heterogeneous Catalyst for Biodiesel Production

Lee Chee Fatt    

Resumen

Homogeneous acidic catalyst was mostly utilized in the conventional biodiesel production process. However, the production cost of the whole process was high due to the separation of liquid biodiesel and liquid catalyst. Hence, acid heterogeneous catalyst would offer a promising solution to this problem. The research objectives were to synthesis an efficient heterogeneous acidic catalyst for biodiesel production using monk fruit biomass and to characterise the catalyst produced. The experimental study was conducted by impregnating the biomass with phosphoric acid as the activating agent. Impregnation ratio of 1.0, 1.5, 2.0 and 2.5 g of weight of activating agent/biomass were tested. The biomass was then calcinated and carbonized to form activated carbon. Calcination temperature with the range of 300? to 600? were also tested. The activated carbon was then sulfonated and phenyl functionalized to increase its active sites for better catalytic activity. The performance of the catalysts was tested in the esterification process between palmitic acid and methanol. Highly porous carbon materials were observed under the scanning electron microscope (SEM). Acid functional group -SO3H was proven and found in the catalyst from the energy-dispersive X-Ray Spectroscopy (EDX) and Fourier Transform-infrared Spectroscopy (FT-IR). The catalyst was found to be stable under the temperature 250? from the thermogravimetric analysis (TGA). The catalyst exhibited highest acid density of 4.04 mmol/g. The biodiesel yield obtained were calculated quantitatively through the gas chromatography (GC). The highest yield of biodiesel obtained was found to be at 87.40 %, under the operating conditions of 10:1 malar ratio of palmitic acid to methanol, 120?, 10  wt.% catalyst loading and 4 h duration of reaction. The study had proven that monk fruit biomass could be synthesized into acid heterogeneous catalyst for biodiesel production through a greener and more sustainable route.

 Artículos similares

       
 
Wenpeng Wang, Fanlong Kong, Huazhen Wu, Chunyan Zhai, Yang Li, Sen Wang and Hong Yang    
The effluent discharged from wastewater treatment facilities frequently enters the ocean, posing a considerable threat to the health of marine life and humans. In this paper, an alkali lignin-based biochar-loaded modified Fe?Cu catalyst (FeCu@BC) was pre... ver más

 
Fatma Fakhfakh, Sahar Raissi, Karim Kriaa, Chemseddine Maatki, Lioua Kolsi and Bilel Hadrich    
The olive mill wastewater (OMW) treatment process is modeled and optimized through new design of experiments (DOE). The first step of the process is coagulation?flocculation using three coagulants (modeled with the mixture design) followed by photo-degra... ver más
Revista: Water

 
Xiaoze Yin, Huaqin Yin, Renjie Wang, Jinnan Wang and Aimin Li    
Novel Fenton-like catalyst HKUST-1(Cu)/MoS2-3-C with a non-equilibrium-state surface was constructed for selective degradation of phenolic contaminants. Electron-polarized distribution facilitated the formation of s-Cu-ligand between electron-poor Cu cen... ver más
Revista: Water

 
Yuting He, Jiantao Lin, Yuchuan Yang, Minghua Liu and Yifan Liu    
Modified sludge biochar, recognized for its notable economic and environmental benefits, demonstrates potential as an effective catalyst for peroxydisulfate (PDS) activation. Nevertheless, the specific mechanisms underlying its catalytic performance requ... ver más
Revista: Water

 
Wonjae Yoon, Vikas Khandu Bhosale and Hosung Yoon    
Ammonia dinitramide (ADN)-based liquid monopropellants are considered to be environmentally friendly alternatives to the toxic and carcinogenic hydrazine-based propellants. Hence, Space Solutions Co., Ltd. is developing a 1N ADN-based liquid monopropella... ver más
Revista: Aerospace