Requirements:Knowledge in physics, the basis of electroenergetics and new energy technologies.
Goal:Acquiring basic knowledge about the role and importance of plants and electric power devices (EPD) for the treatment of wastewater (municipal and industrial), studying advanced water quality management techniques.
Outcome:Students will be taught to understand the basic principles and techniques of water pollution treatment (municipal and industrial), the functioning of EPD that are used in the wastewater treatment systems as well as the basic principles of their design.
Contents of the course
Theoretical instruction:
Introductory lecture; Basic concepts about the formation of wastewater (municipal and industrial), concept of wastewater treatment, global and domestic norms in terms of limit values.
Health and ecological aspects in water pollution treatment management.
Physical-chemical methods for treatment of wastewater and associated electro-energy devices for their efficient realization.
Basic principles of biological and anaerobic procedures for wastewater treatment; Examples of the characteristic of the reactor with an emphasis on the application of measuring and regulating and control devices.
Combined technology systems and water pollution treatment facilities; methods of technological process realizations and their electro-control circuits.
Polluted water disinfection systems.
Colloquium 1
Waste material disposal systems.
Electric actuators and drive mechanisms in the technological process of wastewater treatment (municipal and industrial); aspect of the energy efficiency of the plants.
Application of regulated electric motors drives in the systems of technological treatment of waste water.
Measurement-regulational systems and monitoring systems, which are applied in the technological process of wastewater treatment (municipal and industrial).
Basic principles of sampling and analysis of municipal and industrial waters; application of information technologies and databases.
Procedure for the elaboration of electro-energy projects for concrete technological plants for treatment of municipal and industrial wastewater.
Modern trends in the promotion of the use of energy and measuring and regulating equipment for the treatment of waste water (intelligent drive systems, sensor networks, HMI, SCADA control systems).
Practical classes are fully followed by a lecture program..
Textbooks and References
D. Povrenović, M. Knežević, Osnove tehnologije prečišćavanja otpadnih voda, TMF-Beograd, 2013.
Wastewater treatment plants-Recommended Electrical Network Design for Efficient Plant and Energy Operations, IEC standard compliance, Schneider Electric, 2012.
Mackenzie L. Davis, Water and Wastewater Engineering, McGraw-Hill Companies, lnc, 2010
Shun Dar Lin, Water and Wastewater Calculations Manual (Sec.Ed.), McGraw-Hill Companies, Inc., 2007.
