The course represents the natural completion of the first-cycle degree in Environmental Engineering, with the aim of preparing a graduate who, through a multidisciplinary approach that considers different aspects, i.e, legal, chemical and physical, geological and geotechnical, hydraulic and hydrological, is able to design and manage engineering solutions with minimal impacts on the social and physical environment. The ultimate goal is to train engineers with advanced professional and scientific knowledge on the interrelations between the various physical, biological and chemical processes involved in environmental systems or systems that interact with the environment; therefore, the graduates will be able to design effectively works aimed at the treatment and disposal of wastes (liquid, solid and gaseous), and those aiming at the defense and protection of land from extreme events; they will be capable of preventing situations of degradation and risk for the environment, to assess and monitor the protection of the territory as well as the quality of the environment in its various forms, to ensure the preservation of natural resources and restore contaminated environments, including the development of research strategies and/or technology transfer.... [-]

As an intermediate intermediate link, the master in the proposed specialization provides the link the necessary objective between bachelor and doctoral education. Preparing inter and multidisciplinary offers graduates of this master program leveraging global thinking to allow them to solve objectives belonging to natural-ecological systems (environmental quality), social (quality of life), economic (economic efficiency) and technological (process quality technological). Based on such prerequisites, the learner acquires concrete skills and abilities looking:

Having adequate knowledge at the level of a Bachelor's degree, consistent with the disciplines covered by the Master's Degree course.

2 years (120 credits)

The Master's Degree Course intends to educate graduates who have an in-depth knowledge of the theoretical and scientific aspects of engineering, both in general and in-depth concerning environmental and land engineering, allowing them to identify, formulate and solve, also in an innovative manner, complex problems or problems which require an interdisciplinary approach; think up, plan, design and manage complex and/or innovative systems, processes and services; design and manage highly complex experiments.... [-]

This course aims to introduce the basic mathematical concept and to develop arguments presented in the introductory section in order to provide students with operational tools to be applied both during this course and in other courses where quantitative methods are used, namely in Financial Mathematics or Statistics. At the end of this course, students will have mastered the appropriate tools to better understand both mathematical and quantitative aspects of economic models.

Our master degree course aimed at enabling graduates to enter the world of work with an excellent level of preparation. This qualification complete student’s previous studies and give them competitive academic and professional profile which they can present to business not only in Barcelona but also worldwide.... [-]

Natural Resources Management and Ecological Engineering (NARMEE) is a new joint degree program following the double degree program in Natural Resources and Environment (NRE) which has been successfully taught in cooperation with BOKU Vienna. The program is drawn up to enable students to obtain the best level of knowledge and skills by taking specific subjects at CULS or BOKU and combining them. Students can freely choose optional and fully optional subjects from the offerings of both universities.

For students and their future engagement, there are additional important practical subjects focused on the protection and remediation of soils, wastewater treatment, GIS, or management of protected areas. The program contains practicum, excursions, and semestral projects.... [-]

This programme prepares graduates to work in the broad field of environmental protection and management. Students in this programme will gain advanced theoretical and conceptual knowledge and understanding in the area of environmental engineering on topics such as engineering hydrology, environmental modelling, water and wastewater treatment, solid waste management, and environmental data analysis, among others. This programme is also delivered by a culturally diverse group of internationally renowned academic staff.

Full-Time option suitable for:

Domestic(EEA) applicants: Yes International (Non-EEA) applicants currently residing outside of the EEA Region. Yes... [-]

The “Environmental Modelling” field comprehensively trains students in the modelling of natural processes associated with inanimate nature, such as hydrological and hydraulic modelling, modelling of chemical processes and processes in the atmosphere.

Guarantors of subjects from the ranks of scientists and teachers from Prague universities and research institutions – Faculty of Mathematics and Physics at Charles University, Czech Technical University – Faculty of Civil Engineering, the Danish Hydraulic Institute - DHI, a.s., Institute of Thermomechanics AS CR, v. v. i. and the Institute of Hydrodynamics AS CR, v. v. i. contribute to the high-level of the field. Graduates find jobs in operating, administrative, management, consulting, forecasting and research segments and are trained for activities in international expert and research teams.... [-]

The central theme of ERE is the conscientious stewardship of our finite natural resources, namely minerals, fuels, energy, water, and land. Students taking ERE Program will attain a broad background in environmental engineering and earth resources covering water resources, pollution prevention, energy, resource economics, recycling, waste and biowaste valorization, alternative and renewable raw materials, reclamation, and health.

The main goal of the Master’s degree is to educate professionals with the necessary in-depth scientific and technical knowledge to be successful in the field of environmental engineering and in a multi-cultural educational environment.

The program is intended to prepare students with firm technical bases while nurturing decision-making and leadership potential. It prepares graduates to practice their profession at an advanced level and with a unique exposure to an international environment to better understand the global issues of environmental engineering.... [-]

If you are interested in environmental, energy, and technology issues and you want to have a Master's Degree in environmental engineering, then the Master's Program in Environmental Engineering, "BEE," is your chance! The next available application period, for the autumn 2017 admissions, will begin on Dec 15th, 2016 and end on Jan 25th, 2017 at 15:00 GMT+2.

The extent of the Master's Program in Environmental Engineering (BEE) is 120 ECTS = 2 academic study years = four academic terms. The curricula of the two BEE study options (ESCP; WE) consist of 4 modules: a Basic Module, 30/30 ECTS; an Advanced Module, 30/20 ECTS; a Supplementary Module, 30/40 ECTS, and a Master's Thesis Module 30 ECTS. See the link below for details and examples of the courses included:... [-]

This Master programme aims to develop scientific and technological knowledge on materials and structures in both the public works and industrial sectors. It is characterized by a high degree of scientific specialisation. The programme focuses on the following specialised areas: numerical modelling, constitutive laws, structural reliability, advanced experimental techniques, durability, modern concrete, geomechanics and earthquake engineering.

The programme of study lasts two academic years - denoted by M1 and M2. M1 classes taught in English. The language of instruction for M2 is English and French.

Course Content - M1

Please Note That this program is Entirely taught in FRENCH

Strong population growth worldwide requires increased research sources of drinking water, energy resources or mineral but also to optimize their use. The fragility of our planet requires the involvement of specialists able to carry out development projects environmentally friendly. Expert in the study of sub-soil, geological engineer is now the essential pivot of all exploration, exploitation and development, both in land area than sailor.

Specialist in natural risks in geotechnics

In the midst of Buildings and Public Works (BTP), the engineer must ensure soil stability to prevent the collapse of structures. Its main tasks in civil engineering will then collaborate in the work of recognition, the dimensioning and construction of various structures such as dams, bridges, dams, tunnels, highways ... It is also able to develop the territory to protect resources and prevent the collapse of the land. ... [-]

The 2nd Cycle Degree Course (Master Degree) in Environmental Engineering aims at preparing professionals with high skills in the fields of territory defence and environmental protection and able to design and manage projects related to the safeguard from hydro-geologic instability, to environmental protection (waste and wastewater management, contaminated sites reclamation), to environmental monitoring and territory management, to sustainable energy production, management and saving.

The activities on the safeguard form hydro-geologic instability phenomena aim at the knowledge of the methods for programming, executing and interpreting of in situ surveys for geotechnical characterization, of landslides types and triggering causes and of different methods for soils and rocks consolidation.... [-]

The typical professional fields for graduates of the Master of Science in Environmental Engineering and Land are the advanced design, planning and scheduling, management of complex systems, both in private practice, which in businesses and government or public agencies as well as in the area of ​​scientific and technological research, on the following application areas: - design of treatment plants and solid waste disposal, liquid waste and gaseous, the remediation of contaminated sites, environmental monitoring and analysis and in the workplace , process management, environmental impact assessment, environmental certification; risk analysis in the area, planning and carrying out of urban services, management of treatment facilities, supervised projects and interventions, environmental control, supervisory bodies in the field of safety at work; - Design, implementation and management of operations in the territory such as underground works, foundation works, defense interventions of the territory and environmental recovery, accommodation and consolidation of slopes; development, construction and use of models for the analysis of phenomena typical of the industry with non-traditional methods and techniques; - Research and evaluation, cultivation and exploitation of raw materials, research into new technological applications of mineral substances; economic planning, sustainable management, prevention and impact reduction and environmental risk and social extractive industry; - Environmental planning, spatial and urban, general and implementation, construction and implementation of information systems, analysis, monitoring and management of urban and regional processes, activation of management procedures and evaluation of acts and planning tools and their complex programs.... [-]

The joint master's programme in Innovative Sustainable Energy Engineering pools the facilities, innovation, and talent from energy departments at the largest technical universities in Sweden, Denmark, Norway, Finland, and Iceland.

The joint master’s programme in Innovative Sustainable Energy Engineering is a collaboration between the five leading technical universities in the Nordic countries ( Nordic Five Tech). The programme gives you a unique opportunity to tailor your degree based on your academic interests.

The students enrolled in the programme will study at two of the partner universities, spending one year at each. The universities participating in the joint master's programme in Innovative Sustainable Energy Engineering are... [-]

The broad experience achieved by the Universities of A Coruña and Magdeburg in the training of Civil Engineering and Water Engineering professionals within the last decades has culminated in the development of a Joint International Master Degree meeting the requirements of the European Space of Superior Education set by the Bologna Treaty.

At the moment there is an increasing need for qualified professionals in the field of Water and Environmental Engineering that posses not only high skills in this field of expertise but that also own qualifications that allow them to develop their professional activity within an international environment.