PL EN
APPLICATION OF TRICKLING FILTER FOR SEWAGE TREATMENT WITH HIGH AMMONIA NITRO GEN CONCENTRATION
 
More details
Hide details
1
Katedra Technologii w Inżynierii i Ochronie Środowiska, Politechnika Białostocka, ul. Wiejska 45E, 15-351 Białystok
 
 
Publication date: 2016-05-01
 
 
Inż. Ekolog. 2016; 47:89-94
 
KEYWORDS
ABSTRACT
The article presents the results of research about the possibility of using trickling filter for high ammonia concentration sewage treatment. The study was conducted with the use of reject water generated during anaerobic sewage sludge stabilization in dairy wastewater treatment plant (WWTP. They are usually returned to the beginning of WWTP. The value of BOD in reject water was approximately the same as in domestic and municipal sewage. Ammonia nitrogen concentration was varied from 145,0 to 390,0 mgN-NH4+/l and phosphorus from 16.0 to 38.0 mgP/l. The study used the Gunt test system CE701e, which allows controlling basic parameters of the treatment with trickling filter. Significant reduction of organic matter, total nitrogen and ammonium was observed during treatment. Average removal efficiency of ammonia nitrogen ranged from 73.6 to 80.3%. In the case of the Kjeldahl nitrogen removal efficiencies ranged from 74.4 to 79.8%. Because of the aerobic conditions during the treatment of phosphorus removal efficiency was low and varied from 32.0 to 33.7%. The research confirmed the efficiency of trickling filter for treatment sewage with high concentration of ammonia nitrogen.
 
REFERENCES (16)
1.
Chmielowski K., Ślizowski R., 2010. Ocena skuteczności oczyszczania ścieków w oczyszczalni ścieków w Nowym Sączu. Infrastruktura i Ekologia Terenów Wiejskich, 155–168.
 
2.
Dąbrowski W., 2014. A study of the digestion process of sewage sludge from dairy WWTP to determine the composition and load of reject water.Water Pract. Technol. 9(1), 71–78.
 
3.
Fux C., Boehler M., Huber P., Brunner I., Siegrist H.; 2002. Biological treatment of ammonium-rich wastewater by partial nitritation and subsequent anaerobic ammonium oxidation (anammox) in a pilot plant. Journal of Biotechnology, 99, 293–306.
 
4.
Fux C.,Valten S., Carozzi V., Solley D., Keller J.; 2006. Efficient and stable nitrification and denitrification of ammonium-rich sludge dewatering liquor using SBR with continous loading. Water Research, 40(14), 2765–2775.
 
5.
Gajewska M., Obarska-Pempkowiak H., 2011. The role of SSVF and SSHF beds in concentrated wastewater treatment, design recommendation. Wat. Sci. Technol. 64(28), 431–439.
 
6.
Godoy-Olmos S. et al., 2016. Influence of filter medium type, temperature and ammonia production on nitrifying trickling filters performance, Journal of Environmental Chemical Engineering 4, 328–340.
 
7.
Henrich C.D., Marggraff M., 2013. Energy-efficient Wastewater Reuse – The Renaissance ofTrickling Filter Technology. 9th International Conference on Water Reuse, 27-31 Oct. 2013, Windhoek, Namibia.
 
8.
Henrich CH.D.,2014. German research underway on trickling filter practices. World Water – Wastewater Treatment No. 37-5.
 
9.
Janus H.M., Van Der Roest H.F., 1997. Do not reject the idea of treating reject water. Water Scie. Technol. 35(10), 27–34.
 
10.
Obarska-Pempkowiak H., Gajewska M., Wojciechowska E. 2010. Hydrofitowe oczyszzcanie wód i ścieków. Wydawnictwo Naukowe PWN, Warszawa.
 
11.
Post T., Medlock J., 2002. Wastewater Technology Fact Sheet Tricking Filters, EPA.
 
12.
Przybyła Cz., Bykowski J., Filipiak J., 2009. Efektywność funkcjonowania gminnych oczyszczalni ścieków. Środowiskowo-Pomorskie Towarzystwo Naukowe Ochrony Środowiska, Tom 11, art.16, 231–239.
 
13.
Siegrist H., Reithaar S., Koch G., Lais P. 1998. Nitrogen loss in a nitrifying rotating contactor treating ammonium-rich wastewater without organic carbon. Water Science and Technology, 38(8–9), 241–248.
 
14.
Wałęga A. i in., 2010. Możliwości zwiększenia efektywności usuwania ze ścieków azotu fosforu w oczyszczalni w Łopuszne. Infrastruktura i Ekologia Terenów Wiejskich, Nr 1, 111–123.
 
15.
Xinyung Z. et a., 2016. Biofilm characteristics in natural ventilation trickling filters (NVTFs) for municipal wastewater treatment: Comparison of three kinds of biofilm carriers. Biochemical Engineering Journal 106, 87–96.
 
16.
Yang Y. et al., 2013. Field Applications for NOx Removal from Flue Gas in a Biotrickling Filter by Chelatococcus daeguensis TAD1. Aerosol and Air Quality Research, 1824–1831.
 
Journals System - logo
Scroll to top