This course covers the fundamentals of environmental engineering. It begins by describing the fundamental principles that serve as the foundation of the entire field of environmental engineering. Applications in water quality, air quality, and hazardous waste management will be covered using quantitative problems which enable students to apply what they have learned and develop problem-solving skills.

This course focuses on the different types and sources of outdoor and indoor air pollutants. Topics include properties of gases and particulate pollutants, measurement and monitoring of pollutants, air quality modeling, and engineering technologies for air pollution control to meet regulatory requirements. Pollutants addressed include particulate matter, nitrogen and sulfur oxides, ozone, VOCs, and CO₂.

This course covers the fundamentals of environmental engineering. It begins by describing the fundamental principles that serve as the foundation of the entire field of environmental engineering. Applications in water quality, air quality, and hazardous waste management will be covered using quantitative problems which enable students to apply what they have learned and develop strong problem-solving skills.

This course covers the fundamentals of environmental engineering. It begins by describing the fundamental principles that serve as the foundation of the entire field of environmental engineering. Applications in water quality, air quality, and hazardous waste management will be covered using quantitative problems which enable students to apply what they have learned and develop strong problem-solving skills.

This is a multidisciplinary course that involves the application of chemistry, thermodynamics, and fluid mechanics in the selection and design of air pollution control equipment. Topics include the estimation of potential pollutants, chemical characterization of gas streams to be controlled, theory and practice of air pollution control, and design and costing of control technologies. The course emphasizes the design of systems to reduce particulate matter emissions, volatile organic compound (VOC) emissions, nitrogen oxide emissions, and sulfur dioxide emissions.