Degree in Environmental Engineering
Costa da Caparica, Portugal
DURATION
3 Years
LANGUAGES
Portuguese
PACE
Full time
APPLICATION DEADLINE
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EARLIEST START DATE
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TUITION FEES
EUR 7,000 / per year *
STUDY FORMAT
On-Campus
* national students: 697 Euros/annual | international students: 7000 Euros/year
Scholarships
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Introduction
The Environmental Engineer is the professional who, in a multidisciplinary team, identifies, implements and manages innovative sustainable solutions for the production and consumption of goods and services, adopting the circular economy paradigm whenever possible. It is the professional who supports the transition of the industry and service companies of the century. XXI for a sustainable future, through innovation and integration of technologies that respect.
The Planet's sustainability is increasingly present on the scientific, political, economic and social agendas, requiring specific and innovative skills. Climate change, ecosystem fragmentation, biodiversity loss, water scarcity, land degradation, resource depletion and water and sanitation services are examples that call for innovative solutions. Organizations, both public and private, have come to recognize the importance of a healthy Planet for their success and for the well-being and quality of life of populations. The United Nations 2030 Agenda provides an opportunity for countries and organizations to develop policies, products and services aimed at achieving the 17 Sustainable Development Goals. International instruments, such as the Paris Agreement and the European Ecological Pact, and national instruments, such as the Roadmap for Carbon Neutrality 2050, encourage innovation and investments in the development of new products and services, new business models, new behaviors and values , compatible with sustainable development. Environmental Engineering contributes to a society and economy compatible with the sustainability of the Planet.
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Admissions
Curriculum
1st Semester
- linear algebra and analytic geometry
- Mathematical Analysis I
- Transversal Competencies for Science and Technology
- AI Physics
- Introduction to Environmental Engineering and Sustainability
- Chemistry A
2nd Semester
- Mathematical Analysis II C
- Biology
- Environmental Biochemistry A
- Technical Drawing, Cartography and GIS
- Physics II
- Geology
3rd Semester
- Environmental Data Analysis
- Mathematical Analysis III C
- Climate and Climate Change
- General Ecology
- Informatics for Science and Engineering
- Society, Sustainability and Digital Transformation
4th Semester
- Socio-Environmental Analysis and Methods
- Aquatic Ecology
- General Hydraulics
- Aquatic Monitoring and Notions of Environmental Chemistry
- Processes in Industry and Energy
- Creative Project I
5th Semester
- Sustainable Cities
- Ecotoxicology and Health
- Air Quality and Noise Management
- Integrated Waste Management
- Hydrology
- Modeling of Environmental Systems
- Water pollution
6th Semester
- Environmental Economy
- Sustainable Planning and Spatial Planning
- Creative Project II
- Urban Water Supply Systems
- Urban Wastewater Systems
- Soil and Soil Pollution
6th Semester - PIIC/PIPP Option
- Introduction to Scientific Research in Environmental Engineering Program
- Introduction to Professional Practice in Environmental Engineering Program
The student must obtain 3 credits in this option.
Program Outcome
The Degree in Environmental Engineering (LEA), with a duration of three years, provides the necessary skills to enter into a professional career in the field of Environmental Engineering, as well as to pursue Master's studies, in particular the Master's in Environmental Engineering . Training in Environmental Engineering at NOVA School of Sciences and Technology | FCT NOVA has been a pioneer for over 40 years, based on interdisciplinary skills in engineering (mathematics, physics, chemistry, computing), natural sciences (such as biology and ecology) and social sciences, integrating technological, ecological, economic and social issues.
Understand the functioning of natural systems; identify and analyze pressures on environmental systems and how they can be overcome; assess and manage natural resources such as water and energy; understand industrial, urban and technological processes; and identifying solutions and opportunities for innovation, are skills and capabilities that the LEA provides. Emphasis is placed on holistic training and systemic thinking, analytical skills, innovation and collaborative models. The ultimate goal of the LEA is to provide solutions for economic and social activities aligned with sustainable development.
Program Tuition Fee
Career Opportunities
The interdisciplinary nature of the Degree in Environmental Engineering provides its graduates with a unique profile to work in numerous interfaces, essential for dealing with complex systems, and exploring job opportunities in a wide range of professional contexts. Environmental Engineering graduates add value to any organization that has to deal with environmental and sustainability issues.
The high rate and quality of current employability of Environmental Engineering professionals, in the national and global market, will increase taking into account the ecological transition that economies are beginning to adopt. Professional opportunities in multiple domains include consulting, auditing or services and utilities companies, industry, public organizations such as municipalities or regional government structures, international organizations such as the European Commission, the European Environment Agency or other European organizations.
Facilities
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.