Journal of Chemical Engineering & Process Technology
Open Access
ISSN: 2157-7048
+44-20-4587-4809
ISSN: 2157-7048
+44-20-4587-4809
Morteza Seyfimejdar and Gholamhossein Pourtaghi
Imenfarayandasia Co., Iran
Tehran university of Medical Sciences, Iran
Posters & Accepted Abstracts: J Chem Eng Process Technol
The high amount of Toluene exposure in various related jobs has caused so significant harmful health effect on people that plenty of investigations have so far been done to control and reduce its vapour production in the workplaces. In order to remove toluene from air, it is also suggested in this investigation to use a complex system of Nanoparticles of titanium dioxide embedded on adsorbent bed made by Microbial cellulose and exposing them by ultraviolet radiation (UV-A and UVC). To verify the performance of the TiO2 Nanoparticles as a strong photocatalyst, it was intended to survey the measuring of degradation of toluene in various conditions. In this study 50-400ppm of toluene concentration was investigated with a current of 0.2 L/min. Characteristics of Microbial cellulose after drying has surveyed by Scanning Electronic Microscope and measuring of its BET. Cellulose produced by Acetobacter xylinum is chemically pure, free of lignin and hemicelluloses and has a high purity and high degree of polymerization that distinguish it from other forms of cellulose The study demonstrated that the TiO2/Microbial Cellulose catalyst may be a practical and promising way to degrade the toluene under ultraviolet irradiation. The results indicated that the rate of the photocatalytic process increased with increasing the intensity of UV irradiation. Using the combination of UV-A and UV-C lamps, the decomposition rate of toluene was 92%. Decreasing in distance between UV lamps and Photocatalyst source caused increasing of toluene removal. Microbial cellulose after drying by Microwave radiation can used as an adsorbent with good characteristics in its purity and adsorption of toluene vapors. Recent Publications: 1. Pikul W, Sanae K, Khemmarat B. Characterization of cellulose membranes produced by Acetobacter xylinium. J Sci Tech 2004; 855-862. 2. Rattanadecho P. The simulation of microwave heating of wood using a rectangular wave guide: Influence of frequency and sample size. Chemical Engineering Sci 2006; 61:4798 ��? 4811. 3. Zhanga M, Tangb J, Mujumdarc A, Wang S. Trends in microwaverelated drying of fruits and vegetables. Trends in Food Sci & Technology. 2006; 17: 524- 534. 4. Tao W, Linchun M. Influences of hot air drying and microwave drying on nutritional and odorous properties of grass carp. Fillets Food Chemistry. 2008; 110:647��?653. 5. Wei L, Li B, Zhang O. Preparation of high surface area activated carbons from tobacco stems with K2CO3 activation using microwave radiation.Industrial Crops and Products. 2008; 27: 341-347.
Engineer Morteza seyfimejdar is studying in environmental health engineering at the Tehran University of Medical Sciences. He also works as an advisor in the technical department at Imenfarayandasia Co. manforayand. Morteza as a researcher, is interested in environmental issues and the removal of pollutants from urban and industrial air. The present study is the result of a research project at Tehran University of Medical Sciences has done with cooperation Imenfarayandasia Co.