IDENTIFYING DATA

2017_18

Subject (*)

ENERGY EFFICIENCY IN INDUSTRY AND TRANSPORT

Code

20735108

Study programme

Environmental Engineering and Sustainable Energy (2016)

Cycle

2nd

Descriptors

Credits

Type

Year

Period

4.5

Compulsory

First

1Q

Language

Anglès

Department

Mechanical Engineering

Coordinator

BOER ., DIETER-THOMAS

E-mail

dieter.boer@urv.cat

Lecturers

BOER ., DIETER-THOMAS

Web

General description and relevant information

A) Industry 1. Energy efficiency in electrical systems 2. Co- and trigeneration 3. Process integreation 4. Exergy analysis of processes 5. Modelling of energy processes B) Transport 6. Propulsion systems 7. Vehicles with internal combustion engines, electric and hybrid vehicles

Competences

Type A	Code	Competences Specific
	A1.3	Provide scientific advice in the implementation of decisions and policies that are sustainable, environmentally friendly and foster energy saving and efficiency in accordance with the current legislation.
	A1.5	Formulate the strategies needed to collect data for the design and application of conceptual and calculation modelsz in order to better understand complex systems in engineering and environmental and energy management.
	A2.2	Analyse the energy installations and apply the latest and most innovative strategies for energy saving and performance enhancement.
Type B	Code	Competences Transversal
Type C	Code	Competences Nuclear

Learning outcomes

Type A	Code	Learning outcomes
	A1.3	Understand innovative technologies in renewable energy.
	A1.5	Conduct energetic and exergetic analyses of systems and evaluate energy efficiency measures.
	A2.2	Understand, integrate and apply technologies and methodologies for improving energy efficiency in industry and transport.
Type B	Code	Learning outcomes
Type C	Code	Learning outcomes

Contents

Topic	Sub-topic
A) Industry	1. Energy efficiency in electric systems 2. Co- and trigeneration 3. Process integration 4. Exergy analysis of processes 5. Modelling of energy processes
B) Transport	6. Propulsion systems 7. Vehicles with internal combustion engines, electric and hybrid vehicles

Planning

Methodologies :: Tests

Competences

(*) Class hours

Hours outside the classroom

(**) Total hours

Introductory activities

1

1

2

Lecture

26

39

65

Problem solving, classroom exercises

13

19.5

32.5

Personal tuition

1

1

2

Practical tests

A1.3

A1.5

A2.2

1

2.5

3.5

Mixed tests

A1.3

A1.5

A2.2

3

4.5

7.5

(*) On e-learning, hours of virtual attendance of the teacher.
(**) The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies

	Description
Introductory activities	Introduction to the subject.
Lecture	A combination of lectures and case studies by introducing concepts and examples. Includes group and individual discussion meetings to clarify concepts and methodologies.
Problem solving, classroom exercises	Solving collections of problems by students under teacher supervision, individually or in groups.
Personal tuition	Personal supervision and feedback from the professor. Schedules meeting during the office hours of the professors.

Personalized attention

Description

Personal supervision and feedback from the professor. Scheduled meeting during the office hours of the professors.

Assessment

Methodologies

Competences

Description

Weight

Practical tests

A1.3

A1.5

A2.2

Exercises solved individually during class hours .

30

Mixed tests

A1.3

A1.5

A2.2

Exam with conceptual questions and problems

70

Others


Other comments and second exam session
It isforbidden to use mobile phones or other communication devices during evaluations. In case of violating this norm the professor will act as indicatedin article 24 of the Academic Regulations and registration of the URV, considering that action is performed fraudulent activities of evaluation.

Sources of information

Basic	, Moodle, , Alan P. Rossiter, Beth P. Jones, Energy Management and Efficiency for the Process Industries, John Wiley & Sons, http://onlinelibrary.wiley.com/book/10.1002/978111 Frank (Xin X.) Zhu, Energy and Process Optimization for the Process Industries, John Wiley & Sons , http://onlinelibrary.wiley.com/book/10.1002/978111

Complementary	Andreas Sumper, Angelo Baggini, Electrical Energy Efficiency: Technologies and Applications, John Wiley & Sons , http://onlinelibrary.wiley.com/book/10.1002/978111 Ibrahim Dincer and Marc A. Rosen, EXERGY-Energy environment and sustainable development, Science Direct, http://www.sciencedirect.com/science/book/97800804 R M Harrison, R E Hester , Transport and the Environment, The Royal Society of Chemistry, http://pubs.rsc.org/en/Content/eBook/978-0-85404-2

Recommendations

(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.