Environmental biotechnology

Environmental biotechnology

2020Z

Kod przedmiotu1849S2-EB
Punkty ECTS 4
Typ zajęć Ćwiczenia komputerowe
Ćwiczenia laboratoryjne
Wykład
Przedmioty wprowadzającechemistry, biochemistry, microbiology, mathematics
Wymagania wstępnebasic knowledge of mathematics, chemistry, biochemistry and microbiology
Opis ćwiczeńDetermination of efficiency of organic compounds removal and nitrification in rotating biological contactor. Evaluation of wastewater treatment efficiency by activated sludge in continuous flow reactor. Determination of operational parameters of activated sludge. Determination of efficiency of organic compounds, nitrogen and phosphorus removal in sequencing batch reactor (SBR). Calculation of biogas yield and operational parameters during anaerobic digestion of sewage sludge. Evaluation of the usefulness of compost from sewage sludge for agricultural use as organic fertilizer, based on selected physico-chemical parameters.
Opis wykładówBiotechnology in environmental protection – definitions and objectives. Aerobic and anaerobic processes of wastewater treatment. Activated sludge – removal of organic compounds, nitrogen and phosphorus. Bed biofilm reactors – characteristic and dividing criteria. Aerobic and anaerobic methods of stabilization of sewage sludge. Composting as a process of sewage sludge final disposal.
Cel kształceniaThe aim of the course is the acquisition by students knowledge and skills in the use of biological processes for the treatment and conversion in valuable products wastewater and wastes in technical facilities.
Literatura podstawowa1) Jördening H. J., Winter J. (Eds.) , Environmental Biotechnology: Concepts and Applications , Wiley-Blackwell, 2005 2) Scragg A., Environmental Biotechnology, Oxford University Press, USA, 2005 3) Evans G. G., Furlong J., Environmental Biotechnology: Theory and Application. , Wiley, 2010 4) Vallero D. A., Environmental Biotechnology: A Biosystems Approach. , Academic Press, 2010 5) Rittmann B. E., McCarty P. L., Environmental Biotechnology: Principles and Applications. , McGraw-Hill, 2001
Literatura uzupełniająca1) Wang L. K., Ivanov V., Tay J.-H., Hung Y.-T., wyd. Humana Press, Environmental Biotechnology., 2010r., tom 2) Kreith F., Goswami D.Y. (Edts.), wyd. CRC Press Taylor & Francis Group, Boca Raton, USA, Handbook of Energy Efficiency and Renewable Energy. , 2007r., tom 3) Chen G.Q., wyd. Springer-Verlag, Berlin Heidelberg, Germany, Plastics from Bacteria. Natural Functions and Applications. , 2010r., tom
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