July 2, 2026
Masoud Mofarahi

Masoud Mofarahi

Academic Rank: Professor
Address:
Degree: Ph.D in chemical engineering
Phone: 07331222613
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title
Fabrication of a Diatomite–Kaolin Composite Ceramic Membrane for Reducing the Turbidity of Sugarcane Wastewater
Type Thesis
Keywords
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Researchers ali jahandideh (Student) , Mohsen Abbasi (First primary advisor) , Masoud Mofarahi (Second primary advisor)

Abstract

Fabrication of a Diatomite–Kaolin Composite Ceramic Membrane for Reducing the Turbidity of Sugarcane Wastewater In this research, composite ceramic membranes based on diatomite and kaolin were fabricated and evaluated with the aim of reducing the turbidity of sugarcane wastewater. The membranes were prepared by the disk-forming method and, after drying, were sintered at an appropriate temperature. To investigate the structural and phase characteristics of the samples, X-ray diffraction (XRD), scanning electron microscopy (SEM), atomic force microscopy (AFM), and thermogravimetric analysis (TGA) were performed.The XRD results indicated the formation of stable phases and the absence of decomposition of the main components after the sintering process. SEM and AFM images showed that increasing the diatomite ratio in the composition led to an increase in surface porosity and a more uniform pore distribution. The porosity and permeate flux tests also revealed that increasing the amount of diatomite resulted in higher effective porosity and improved membrane permeability. The thermal analysis (TGA) showed that the produced membranes exhibited suitable thermal stability, and their weight remained almost constant at high temperature ranges.The performance tests in the treatment of sugarcane wastewater demonstrated that the membranes possessed a high capability in turbidity removal. The MD15% membrane, with an outlet turbidity of 0.50 NTU, achieved the highest removal efficiency (97.22%) compared to the initial feed turbidity of 18.01 NTU. Based on the obtained results, increasing the proportion of diatomite in the membrane composition enhances porosity, increases permeate flux, and improves filtration efficiency in the removal of suspended particles from sugarcane wastewater.