Empirical Regression Model for Biochemical Oxygen Demand Removal in Solar Enhanced Waste Stabilization Ponds

J. T. Utsev, N. M. Ogarekpe, T. Tivde

Abstract


Consequent on the findings that a Solar Enhanced Waste Stabilization Pond (SEWSP) will increase treatment efficiency thereby reduce the large land area requirement; hence, this study aims at developing an empirical regression model for the prediction of the efficiency of Biochemical Oxygen Demand removal of the SEWSPs for sewage treatment. SEWSPs were constructed of varying sizes made of metallic tank with inlet and outlet valves, and a solar reflector to increase the incident sunlight intensity. Physio-chemical and biological characteristics of the wastewater samples were collected from different points (inlet and outlets) of the SEWSPs were examined for a period of two months. The examined parameters were: Efficiency of BOD removal in %, Efficiency of E Coli removal in %, Dissolve Oxygen in mg/l, Efficiency of COD removal in %, Efficiency of Suspended Solid removal in %, Temperature in0C, Detention Time in days and coliform. Discussions were made revealing the relationship between the depth of the SEWSP and treatment efficiency.An empirical correlation model predicting the efficiency of BOD removal for the SEWSP was developed thus y = - 0.292X1 – 0.1011X2 + 0.876X3 + 0.148X4 – 0.087X5 +0.012X6 + 22.939 together with a MATLAB solver for easy computation.

Keywords


Waste Stabilization Pond; Solar Enhanced; Prediction; BOD; Model

Full Text:

PDF

References


Agunwamba, J. C. (2001). Effect of Tapering on the Performance of Waste Stabilization Ponds. Water Res, 35(5), 1191-1200.
Agunwamba, J. C. (1992). Field Pond Performance and Design Evaluation Using Physical Models. Water Res, 26(1), 1403-1407.
Agunwamba, J. C., Ogarekpe, N.M. (2010). The Effect of Hydraulic Jump on the Performance of Waste Stabilization Ponds. J Waste Water Treatment Analysis, 1(01), 1-4.
Agunwamba, J. C., Tanko, J. A. (2005). Waste Stabilization pond Design Using Geometric Programming. Technol. Dev., 9, 123-128.
Agunwamba, J. C., Utsev, J. T., Okonkwo, W. I. (2009). Solar Enhanced Wastewater Treatment in Waste Stabilization Ponds. Water Environ. Res, 81(5), 540-544.
American Public Health Association; American Water Works Association; Water Environment Federation (1992) Standard Methods for the Examination of Water and Wastewater. 16th ed.; American Public Health Association: Washington, D.C.
Arthur, J. P. (1983). Notes on the Design and Operation of Waste Stabilization Ponds in Warm Climates of Developing Countries. World Bank, Washington D. C., 211-221.
Feachem, R. G. et al. (1986). Sanitation and Disease: Health aspect of Excreta and Water Management. John Wiley Chichester.
Hoseui, B. B., Patil, H. S. (1987). Performance of Waste Stabilization Ponds of Different Depths. Water Air Soil Pollut., 34, 199-206.
Lakshmarayana, J. S. Abelulapa, M. K. (1972). The Effect of Sewage Stabilization Ponds on Helminths in Low Cost Waste Treatment. C. A. Sastry (ed.) Central Public Health Engineering Research Institute, Nagpur, 290.
Mara, D. (1976). Sewage Treatment in Hot Climates. John Wiley and Sons, London.
Mara. D. D., Pearson, H. W., Silva, S. A. (1983). Brazilian Stabilization Pond Research Suggests Low-Cost Urban Applications. World Water, 6, 20-24.
Marecosdo Monte, M. H. F., Mara, D. D. (1987). The Hydraulic Performance of Waste Stabilization Ponds in Portugal. Water Sci., 19(12), 219-227.
Mayo, A. W. (1989). Effect of Pond Depth on Bacterial Mortality Rate. ASCE J. Environ. Eng. Div.,115(5), 964-977.
Oragui, J. I., Curtis, T. P., Silva, S. A., Mara, D. D. (1987). The Removal of Secreted Bacteria and Viruses in Deep Waste Stabilization Ponds in North East Brazil. Water Sci. Technol, 19, 567 – 573.
Pearson, H. W., Silva, S. A., Athayde, G. B. (2005). Implications for Physical Design: The Effects of Depth on the Performance of Waste Stabilization Ponds. Water Sci. Technol, 51(12), 69 – 74.
Polprasert, C., Dissanayake, M. G., Thanh, N.C. (1983). Bacterial Die-Off Kinetics in Waste Stabilization Ponds. J. Water Pollut. Control Fed., 55(3), 285 – 296
Saqqar, M. M., Pescod, M. B. (1992). Modelling Coliform Reduction in Wastewater Stabilization Ponds. Wat. Sci. Tech., 26(7/8), 1667-1677.
Sarikaya, H. Z., Saatci, A. M. (1987). Bacterial Die-Off Kinectics in Waste Stabilizaiton Ponds. ASCE J. Environ. Eng. Div., 113(2), 366 – 382.
Sarikaya, H. Z., Saatci, A. M., Abdulfattah, A. F. (1987). Effect of Pond Depth on Bacterial Die-Off. J. Environ. Eng. Div., 113(6), 1350-1361.
Shelef, G., Juanico, M., Vikinsky, M. (1987). Reuse of Stabilization Pond Effluent. Water Sci. Technol., 19(12), 229-235.
Shelef, G., Moraine.R., Messing, A., Kanarek, A. (1978). Improving Stabilization Ponds Efficiency and Performance. International Conference on Development in Land.Methods of Wastewater Treatment and UnlizationMelbourne, Australia, October.
Shin, H. K., Polprasert, C. (1987). Attached-Growth Waste Stabilization Pond Treatment Evaluation. Water Science Technol., 19(12), 229 – 235.
Silva. H. K., Mara, D. D., de Oliveira, R. (1987) The Performance of a Series of Five Deep Water Stabilization Ponds in North-East Brazil. Water Sci. Technol, 19(12), 61 – 64.
Sweeney, D. G., L. Nixon, J. B., Cromar, N. J., Fallowfield, H. J. (2007). Temporal and Spatial Variation of Physical, Biological and Chemical Parameters in a Large Waste Stabilization Pond, and the Implications for WSP Modeling. Water Sci. Technol, 55(11), 1-9.




DOI: http://dx.doi.org/10.3968/j.est.1923847920130502.2512

DOI (PDF): http://dx.doi.org/10.3968/g4213

Refbacks

  • There are currently no refbacks.


Copyright (c)




Share us to:   


Reminder

If you have already registered in Journal A and plan to submit article(s) to Journal B, please click the CATEGORIES, or JOURNALS A-Z on the right side of the "HOME".

We only use three mailboxes as follows to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases: [email protected]; [email protected]; [email protected]

 Articles published in Energy Science and Technology are licensed under Creative Commons Attribution 4.0 (CC-BY).

 ENERGY SCIENCE AND TECHNOLOGY Editorial Office

Address: 1055 Rue Lucien-L'Allier, Unit #772, Montreal, QC H3G 3C4, Canada.
Telephone: 1-514-558 6138 
Website: Http://www.cscanada.net Http://www.cscanada.org 
E-mail[email protected]; [email protected]

Copyright © 2010 Canadian Research & Development Centre of Sciences and Cultures