Environmental engineering science

Environmental engineering science (EES) is a multidisciplinary field of engineering science that combines the biological, chemical and physical sciences with the field of engineering. This major traditionally requires the student to take basic engineering classes in fields such as thermodynamics, advanced math, computer modeling and simulation and technical classes in subjects such as statics, mechanics, hydrology, and fluid dynamics. As the student progresses, the upper division elective classes define a specific field of study for the student with a choice in a range of science, technology and engineering related classes. As a recently created program, environmental engineering science has not yet been incorporated into the terminology found among environmentally focused professionals. In the few engineering colleges that offer this major, the curriculum shares more classes in common with environmental engineering than it does with environmental science. Typically, EES students follow a similar course curriculum with environmental engineers until their fields diverge during the last year of college. The majority of the environmental engineering students must take classes designed to connect their knowledge of the environment to modern building materials and construction methods. This is meant to direct the environmental engineer into a field where they will more than likely assist in building treatment facilities, preparing environmental impact assessments or helping to mitigate air pollution from specific point sources. Meanwhile, the environmental engineering science student will choose a direction for their career. From the range of electives they have to choose from, these students can move into a fields such as the design of nuclear storage facilities, bacterial bioreactors or environmental policies. These students combine the practical design background of an engineer with the detailed theory found in many of the biological and physical sciences.

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Cours associés (11)

Séances de cours associées (29)

Environmental engineering science

Ingénierie environnementale

L'ingénierie environnementale est la branche de l'ingénierie qui étudie les problèmes de la planète de forme scientifique et intégrée, considérant ses dimensions scientifiques: chimiques, physiques, écologiques, biologiques, géologiques, sociales, économiques et technologiques, avec l'objectif de promouvoir un développement durable.

Ingénierie

L'ingénierie est l'ensemble des fonctions qui mènent de la conception et des études, de l'achat et du contrôle de fabrication des équipements, à la construction et à la mise en service d'une installation technique ou industrielle. Par extension, le terme est aussi souvent utilisé dans d'autres domaines : on parle par exemple d'ingénierie informatique ou d'ingénierie financière.

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The students will learn the fundamentals in ecology with the goal to perceive the environment beyond its physical and chemical characteristics. Starting from basic concepts, they will acquire mechanis

PENS-308: Argamassa armada

The UE Argamassa Armada will develop prototypes of structural elements in textile reinforced concrete (TRC) for the context of social housing in Nicaragua, based on the knowledge of the TRC Prototype

BIO-105: Cellular biology and biochemistry for engineers

Basic course in biochemistry as well as cellular and molecular biology for non-life science students enrolling at the Master or PhD thesis level from various engineering disciplines. It reviews essent

Gestion des déchets : cadre juridique et processus de traitement ENV-304: Treatment and valorization of water and waste

Explore le cadre juridique et les processus de traitement pour la gestion des déchets, en soulignant l'importance d'une approche multidisciplinaire.

La télédétection : fondamentaux et applications ENV-341: Remote sensing

Couvre les bases de la télédétection, y compris le développement historique, les applications en sciences de l'environnement, les types de capteurs et les propriétés des ondes électromagnétiques.

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Plonge dans la forme urbaine, la mobilité humaine et la cohésion sociale à l’échelle du quartier.