To familiarize the future engineer with the main atmospheric, water and ground pollution types associated with the various industrial activities and the pertinent pollution abatement technologies for each case.

• Definitions, bacground overview of thermodynamics, design of an enviromental process
• Energy and environment. Air pollution gaseous pollutants particulate matter
• Climate change, ozone depletion, acid deposition, photochemical smog
• Sources and impacts of air pollution
• Control and collection of particulate matter from stationary sources-technologies design: cyclones, electrostatic precipitators, baghouses, particle scrubbers
• Auxiliary equipment: hoods, ducts, fans
• VOC emissions control: VOC compustion plants, gas adsorption (theory, design), adsorption
• Control of sulfur and nitrogen oxides from constant emissions
• Examination in the form of seminars. the role of qater. Introduction to the quality and treatment of industrial water. Wastewater production and characterization Municipal / industrial waste treatment systems. Solid waste management

There are no prerequisite courses. It is recommended that students
who are interested in attending the course have completed successfully
the following courses:
ΓΕ1000 CHEMISTRY FOR ENGINEERS

ΕΝ0101 THERMODYNAMICS  I

ΕΝ0112 THERMODYNAMICS II

ΕΝ0201 FLUID MECHANICS I

ΕΝ0202 FLUID MECHANICS II

ΕΝ0901 ΤRANSPORT PROCESSES

• C.D. Cooper and F.C. Alley, Air Pollution Control ‐ A Design Approach, Waveland Press Inc., 2002. 
• N. de Nevers, Air Pollution Control Engineering, McGraw‐Hill, New York, 1995. 
• R.A. Corbitt, Standard Handbook of Environmental Engineering, McGraw‐Hill, 1990. 
• J. H. Seinfeld and S. N. Pandis, “Atmospheric Chemistry and Physics: From Air Pollution to Climate
  Change”. John Wiley and Sons, 1997.

Greek

Lectures