论文信息 - Trace‐Organics Biodegradation in Aquifer Recharge

Trace‐Organics Biodegradation in Aquifer Recharge

The low organic concentration and high specific surface area that characterize ground-water recharge environments allow biofilms to predominate microbial kinetics. Consideration of the kinetics of substrate utilization and growth of biofilms indicates that microbiological activity occurs very near the injection well. The aggregate substrate expressed, for example, as chemical oxygen demand, can be considered the primary substrate; the biofilm's growth is supported through the utilization of the aggregate primary substrate. Individual trace organic compounds, none of which could support biofilm growth alone, are utilized as secondary substrates. Although biodegradable, secondary substrates that have slow utilization kinetics will pass through the biologically active zone undegraded. Field data from the ground-water recharge project in Palo Alto, California, illustrate that naphthalene and heptaldehyde are biodegraded, while other compounds, such as chloroform and chlorobenzene, pass through the biologically active zone without biodegradation.

[1] C. E. Zobell,et al. The Bacteriostatic and Bactericidal Action of Great Salt Lake Water , 1937, Journal of bacteriology.

[2] J. Bear. Dynamics of Fluids in Porous Media , 1975 .

[3] M. Rebhun,et al. Clogging and Contamination Processes in Recharge Wells , 1968 .

[4] Perry L. McCarty,et al. Utilization of Dichloromethane by Suspended and Fixed-Film Bacteria , 1980, Applied and environmental microbiology.

[5] C. E. Zobell. The Effect of Solid Surfaces upon Bacterial Activity , 1943, Journal of bacteriology.

[6] Perry L. McCarty,et al. Evaluation of steady‐state‐biofilm kinetics , 1980 .

[7] N. Thomas Sheahan. Injection/Extraction Well System–A Unique Seawater Intrusion Barriera , 1977 .

[8] C. E. Zobell,et al. OBSERVATIONS ON THE MULTIPLICATION OF BACTERIA IN DIFFERENT VOLUMES OF STORED SEA WATER AND THE INFLUENCE OF OXYGEN TENSION AND SOLID SURFACES , 1936 .

[9] H. Heukelekian,et al. Relation between Food Concentration and Surface for Bacterial Growth , 1940, Journal of bacteriology.

[10] F. Besik,et al. Some aspects of renovation of domestic sewage , 1975 .

[11] P. Mccarty,et al. Model of steady-state-biofilm kinetics. , 1980, Biotechnology and bioengineering.

[12] William J. Phillips,et al. The Direct Reuse of Reclaimed Wastewater: Pros, Cons, and Alternatives , 1974 .