WATER PURIFICATION TECHNIQUES
Learning outcomes of the course unit
to improve the skills for analysing and assessing pollution sources and loadings
to improve the knowledge on the wastewater biology and technology.
attendance of the first two year courses
Course contents summary
Pollution sources and estimation of pollution loadings. Source identification. Pollutiuon typologies. Urban wastewaters. Diffuse agricultural loadins. Industrial wastes. Population equivalents. Coefficients for estimating BOD, COD, N and P potential loadings. Pollution effects on surface and groundwaters.Italian and international laws and standards.
Biotechnological wastewater treatment plants. Integrated systems. Biological systems. Biological components of the biological system: the activated sludge system. Biological reactors. Order zero and first order kinetics. Design of a biological reactor. Trickling filters. Biodisk. Fate and reuse of biological sludges. International and national standards.
Extensive wastewater treatment plants. Lagoons. Phytodepuration: Lemna system and subsurface filters. Horizontal (SSF-h) and vertical (SSF-v) subsurface vertical flow. Vegetation, microbial communities and biogeochemical reactions. Design of a small SSF-h system. sacle Sistemi di fitodepurazione a flusso sub-superficiale orizzontale e verticale. Buffer strips, constructed wetlands, cover crops.
Practical work. Visit to the municipal wastewater treatment plant of Parma (Parma Ovest). Visit to the SSF-h wastewater treatment plant of the dairy farm S. Vittoria (Carpaneto, Piacenza).
notes of the teacher
Berland J.-M., C. Boutin, Molle P., Cooper P., 2001. Processi estensivi di depurazione delle acque reflue. Commissione Europea, Ufficio Internazionale dell¿Acqua, Lussemburgo. (in Italian)
Provini A., Galassi S., Marchetti R., 1997. Ecologia Applicata. UTET, Torino. (in italian)
Teaching methodology: Lecturing and Visit to wastewater treatment plants
Assessment: Written test