Watsa Khongnakorn, Khemarath Osathaphan, and Sutha Khaodhiar

pp. 143 - 150

Abstract

The objective of this study was to investigate the biotic and abiotic processes that affected benzene
transportation in the saturated groundwater layer. The study was performed in the laboratory using synthetic groundwater and soil sample from Maptaput Industrial Estate, Rayong. This study was divided into 3
parts; batch test, column test and computer modeling. The biotic, biodegradation, and the abiotic processes
were studied in the batch system. The column experiment was performed to investigate the transport
behavior of benzene. The computer program, CXTFIT, with parameters acquired from batch and column
experiments was used to simulate the benzene transport behavior. It was found that benzene adsorption followed the linear adsorption isotherm with its coefficient (K_d) of 0.544 cm³/g and the retardation factor of 5.43. The biodegradation rate could be estimated using the firstorder biodegradation rate equation with the degradation rate of 0.0009-0.0092 per day. The dispersion
coefficient estimated from column experiments was 0.0102 cm²/s. The results from computer simulation did
not fit the experimental data well. It can be concluded that the transport of benzene was a non-equilibrium
transport. It was also found that biodegradation of benzene had significant effect on benzene transportation
in saturated groundwater. The simulated transport with biodegradation process fitted the data fairly.