The course is developed with reference to the management of three environmental matrices: waste, water, air. For each of the matrices, the lecturer will alternate theoretical and applied aspects, including exercises with calculations, for a total of 48 hours and 36 hours respectively.

CONTENTS:

INTRODUCTION
Evolution of the sanitary-environmental engineering discipline

WASTE
Sector legislation. Circular economy. Qualitative-quantitative characterization of municipal solid waste (including analyses) and special waste. Planning aspects. Solutions for reduction at the source. Collection strategies. Pre-treatment technologies. Characteristics of biological treatments (aerobic and anaerobic). Thermal treatment options. The solid recovered fuel sector (SRF). Sanitary landfill. Energy-economic aspects of the waste sector. Environmental impact of waste sector facilities. Case studies of the municipal and special waste sector.

WATER
Characterization of the water. Regulations. Biological processes for wastewater treatment. Water cycle. Qualitative characterization of water (physical and organoleptic parameters, chemical and biochemical parameters, microbiological parameters, sampling and water quality). Quantitative characterization of water (flow rates). Fundamentals of microbiology and biochemistry of water. General principles of biological processes and reactors. Kinetics of biological reactions. Activated sludge plants: a) scheme, b) sedimentation, c) sizing criteria of the wastewater line, d) sewage sludge line (thickening, aerobic / anaerobic digestion, mechanical dewatering). Other biological processes. Removal of nutrients. Reuse of treated wastewater. Treatment of sewage sludge (including thermal drying). Environmental impact of wastewater treatment plants.
Pollution phenomena and integrated solutions (including eutrophication).
Physico-chemical processes for water treatment (clarification, filtration, adsorption on activated carbon, chemical correction of water characteristics, precipitation, evaporation, ion exchange, stripping, submerged filters, oxidation-reduction, disinfection, semi-waterproof membranes).
Potabilization (principles and solutions).

AIR
Regulations. Characteristics of air pollution. Pollution management strategies. Treatment of atmospheric emissions (including odor emissions and noise).