Public University of Navarre



CastellanoEuskara | Academic year: 2023/2024 | Previous academic years:  2022/2023  |  2021/2022  |  2020/2021  |  2019/2020 
Bachelor's degree in Electrical Engineering at the Universidad Pública de Navarra
Course code: 244702 Subject title: ENVIRONMENTAL TECHNOLOGY
Credits: 3 Type of subject: Mandatory Year: 4 Period: 1º S
Department: Ciencias
Lecturers:
GIL BRAVO, ANTONIO (Resp)   [Mentoring ] BIMBELA SERRANO, FERNANDO   [Mentoring ]

Partes de este texto:

 

Module/Subject matter

M25. Business administration, environmental and projects

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General proficiencies

GC3: Knowledge in basic materials and technology that will enable them to learn new methods and theories, and give them with versatility to adapt to new situations.

GC4: Ability to solve problems with initiative, decision making, creativity, critical thinking and to communicate and transmit knowledge and skills in the field of Industrial Engineering in the specific technologies of Electrical Engineering.

GC6: Capacity to manage specifications, regulations and mandatory standards.

GC7: Ability to analyze and assess the social and environmental impact of technical solutions.

GC10: Ability to work in a multilingual and multidisciplinary environment.

GC11: Knowledge, understanding and ability to implement the necessary legislation in the field of Industrial Engineering.

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Specific proficiencies

SCC10: To learn the basics of environmental technology and sustainability.

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Learning outcomes

L1: To write reports and prepare draft projects

L2: To apply the technical and administrative legislation for the execution of projects

L3: To know the basic concepts of environmental technology and sustainability

L4: To understand the basic principles of the effluent treatment systems and their effect on sustainable development

L5: To know the methods of pollution prevention and environmental management

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Methodology

Methodology- Formative activity  Attendance (h) Self study (h)
A-1 Lessons in classroom. 22.5  
A-2 Practicals 7.5  
A-3 Realization of group projects   5
A-4 Personal study time   35
A-5 Tutoring and assessment tests 5  
Total 35 40

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Relationship between formative activities and proficiencies/learning outcomes

Proficiency Formative activity
GC3, GC4, GC6, GC7, GC10, GC11, CC10 A-1 Lessons in classroom
GC4, GC6, GC11, CC10 A-2 Practicals
GC4, GC6, GC7, GC11 A-3 Group projects work
GC3, GC6, GC10, CC10 A-4 Personal study time
CC10 A-5 Exams, tests, tutoring

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Languages

English. Basis bibliography in spanish.

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Evaluation

 

Learning
outcome
Assessment
activity
Weight (%) It allows
test resit
Minimum
required grade
L1, L2, L3, L4, L5 Written assessment tests setting out the acquired concepts (EM) 75 Recoverable through an assessment test 5/10
L1, L2, L3, L4, L5 Written assessment tests setting out the acquired concepts (PM) 25 Recoverable through an assessment test Not

In this case, the final mark of the course, FM, is calculated as:

FM = 0.75 x (EM) + 0.25 x (PM)

where EM is the mark of the written exam and PM is the practicals mark.

If the exam mark is less than 5/10, the final mark of the course will be the one of the written exam.

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Contents

The main objective of this course is to acquire applied knowledge about environmental technologies and sustainability. Industrial and domestic activities generate pollution and have to meet the necessary tools for its prevention and control.

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Agenda

The Environmental Technology course is divided into three thematic units:

Unit 1. Characterization and treatment of contaminated water.
Unit 2. Pollutants and air pollution control.
Unit 3. Management of municipal and industrial solid waste.

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Experimental practice program

Evaluation and relation of the physicochemical parameters that characterize the degree of contamination of a residual water.

Determination of the Chemical Oxygen Demand (COD)

Determination of ammonia concentration

Determination of nitrite concentration

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Bibliography

Access the bibliography that your professor has requested from the Library.


Principles of Environmental Engineering and Science. M.L. Davis and S.J. Masten. McGraw-Hill, Third Edition (2014).

Metcalf & Eddy, Wastewater Engineering. Treatment and Resource Recovery. Fifth Edition. Ed. McGraw-Hill (2000).

Contaminación ambiental. Una visión desde la Química. C. Orozco, A. Pérez, Mª.N. González, F.J. Rodríguez, J.M. Alfayate. Ed. Paraninfo (2011)

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Location

Campus of Arrosadia

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