Abstract
A study was conducted to evaluate the effectiveness of supplemental aeration in improving the performance of an rotating biological contactor (RBC) treatment system whose first and second stages were overloaded resulting in very low dissolved oxygen conditions and heavy beggiatoa growth thereby deteriorating process performance. A four-stage RBC having two parallel trains and treating combined municipal and industrial dairy wastewater was used to conduct the research. One train was provided with supplemental air in all stages and the other train, without supplemental air, was used as a control. Daily 24-hour compositie samples were collected at the influent to the RBC and at the end of each stage. Dissolved oxygen, pH, and temperature levels were measured in each stage. Samples were analyzed for soluble COD, ammonia nitrogen, total and volatile suspended solids. Samples were also analyzed for soluble BOD5 and oxygen uptake rate once a week. The biomass thickness on the discs was measured and growth conditions were noted. The experimental results indicate that RBC units with supplemental aeration demonstrated remarkable performance and ability to adapt to differing organic loading rates. In addition, beggiatoa growth was completely eliminated with supplemental air thereby establishing thinner and active aerobic biomass.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
American Public Health Association: 1985, Standard Methods for the Examination of Water and Wastewater, 16th Edition, American Public Health Association, Washington, D.C.
Boller, M., Gujer, W. and Nyhuis, G.: 1990, Water Sci. Tech. 22, 89.
Chesner, W. H. and Molof, A. H.: 1977, Prog. Water Technol. 9, 811.
Chesner, W. H. and Iannone, J. J.: 1978, ‘Review of Current RBC Performance and Design Procedures’, A report prepared for USEPA under contract No. EPA-68-02-2775.
Dupont, R. R. and McKinney, R. E.: 1980, ‘Data Evaluation of a Municipal RBC Installation’, Proc. of the First National Symposium on Rotating Biological Contactor Technology, Champion, PA.
Hitdlebaugh, J. A. and Miller, R. D.: 1981, J. Water Pollution Control Federation 5¿, 128¿.
Gullicks, H. A. and Cleasby, J. L.: 1990, J. Water Pollution Control Federation 62, 40.
Pano, A. and Middlebrooks, E. J.: 198¿, J. Water Pollution Control Federation 55, 956.
Stover. E. L. and Kincannon, D. F.: 1982, ‘Rotating Biological Contactor Scale-up and Design’, Proceedings of the First International Conference on Fixed Film Biological Processes. King's Island, OH.
USEPA: 198¿, A Nationwide RBC Teleconference, Cincinnati, OH.
USEPA: 1984, ‘Summary of Design Information on Rotating Biological Contactors’, EPA-4¿0/9-84-008, Cincinnati, OH.
USEPA: 199¿, ‘Process Design Manual for Nitrogen Control’, EPA/625/R-9¿/010,Washington, D.C.
Water Environment Federation (WEF): 1992, ‘Design of Municipal Wastewater Treatment Plants’, Manual of practice No. 8, Alexandria, VA.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Surampalli, R.Y., Baumann, E.R. ROLE OF SUPPLEMENTAL AERATION IN IMPROVING OVERLOADED FIRST-STAGE RBC PERFORMANCE. Water, Air, & Soil Pollution 98, 1–15 (1997). https://doi.org/10.1023/A:1026482929991
Issue Date:
DOI: https://doi.org/10.1023/A:1026482929991