What Courses Are in an Environmental Engineering Graduate Certificate

The course curriculum of a graduate certificate in environmental engineering is similar to the curriculum for a master's degree in environmental engineering. Courses include environmental biotechnology, air pollution, management of solid waste, groundwater hydrology and environmental geotechnology. Schools offering Energy Management degrees can also be found in these popular choices.

Environmental Engineering Overview

Environmental engineers work to provide solutions to problems concerning the environment. They use the principles of chemistry, engineering and biology to address problems of pollution, waste, soil contamination and hazardous materials. Growing populations and a shift towards increasing preventative measures have resulted in a continuing need for trained professionals and job growth in the field, according to the U.S. Bureau of Labor Statistics. Most environmental engineers are only required to have a bachelor's degree, although a graduate certificate or master's degree might prepare them for higher-level positions.

Important Facts About This Field of Study

Prerequisites An undergraduate degree in an engineering field
Program Options Graduate certificate credits may be put towards a master's degree in some cases
Possible Careers Hazardous waste engineer, quality control manager, industrial health engineer
Continuing Education Environmental engineers may need to pursue continuing education to maintain a Professional Engineer (PE) license

Courses in a Graduate Certificate in Environmental Engineering Program

Graduate Certificate in Environmental Engineering programs offer students the opportunity to improve their knowledge and skills in environmental issues without having to commit to a full master's degree program. While each environmental engineering program varies in its requirements, the course curricula share common elements. Students may take courses in:

  • Management of Hazardous Waste: covers environmental audits, management facilities, bioremediation, thermal processes, pollution prevention, classification, disposal and transportation.
  • Control of Air Pollution: examines state and federal regulations, air pollution (photochemical) and air pollutants dispersion in the air. It also looks at how to identify the primary air pollutants from mobile and stationary sources and how to control these emissions.
  • Environmental Engineering: is concerned with environmental law, hazardous wastes, solid wastes, sludge processing, treatment systems for wastewater and water, modeling of water quality and environmental quality.
  • Industrial Processes and Pollution: deals with the characterization of industrial waste and processes, regulatory law, systems for specialized treatments and economic analysis.
  • Chemistry for Environmental Engineering: investigates principles of physical and chemical phenomena that can be applied to natural water, wastewater and water treatment.
  • Environmental Biotechnology: is the study of fundamentals of microbial and biochemical processes that can be applied to processes used in environmental engineering.
  • Applied Hydraulic Design: covers topics that include flow characteristics in constructed and natural channels, mathematical modeling and pipe networks.

To continue researching, browse degree options below for course curriculum, prerequisites and financial aid information. Or, learn more about the subject by reading the related articles below:

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