Industrial Technology Engineering

Basic Information

What knowledge will I acquire with this Degree?

The basic knowledge of the graduate in Industrial Technology Engineering can be summarized in the following points:

Mathematical and physical foundations of engineering
Mathematical and statistical methods of engineering
Fundamentals of computer science and graphic representation techniques
Fundamentals of materials and study of their behavior in real situations.
Theory of circuits and electronic and automatic systems
Thermodynamic and fluid mechanical processes
Energy sources. Thermal engines and hydraulic machines
Technological processes for shaping materials.
Electric power generation, transport and distribution systems.
Theory and design of machines and manufacturing processes
Theory of structures and industrial constructions.
environmental science and technology
Methodology, organization and project management
Organization and industrial economy and business administration

Where will I be able to work when I graduate?

The Degree in Industrial Technology Engineering has a general orientation and provides multidisciplinary training in fundamental subjects (mathematics, physics, graphic representation, thermodynamics, etc.) and others more specific to Industrial Engineering (mechanical, electrical, energy, manufacturing technologies). and machines, etc.) Due to this, the industrial technology engineer can develop his professional activity in different sectors of the industry related to manufacturing and production activities, construction, machinery, electronics, automotive, metallurgy or energy resources.

In addition to industry, his multidisciplinary training enables him to carry out his work in companies related to service activities such as engineering, consulting or research, development and innovation companies, as well as at different levels of the Administration.

Is this Degree official according to the regulations required by the European Higher Education Area?

Yes (final verification report is attached), the implementation of the degree will be done progressively, starting the first year in the academic year 2011-12.
The final verification report turned out FAVORABLE

Favorable report first modification

Favorable report second modification

What subject areas will I address in this grade?

Mathematics, Physics, Chemistry, Graphic Expression, Computer Science, Business, Statistics, Thermal Engineering, Materials Science and Engineering, Fluid Engineering, Electricity and Electrotechnics, Electronics, Automation and Control, Mechanical Engineering, Mechanics of Solid Environment, Engineering and Process management, Manufacturing Technologies and Projects.

Objectives

The main objective of the Degree in Industrial Technology Engineering at the Rey Juan Carlos University is the training, eminently general, of a qualified professional in the field of Industrial Engineering to develop their professional activity in competitive, national and international environments, and with aptitude for teamwork, critical thinking, problem solving and lifelong learning. Graduates of this degree will achieve the necessary knowledge and skills to be able to continue their training in the Master's Degree in Industrial Engineering.

Together with the general objectives mentioned, the development of the training itinerary described in the study plan will allow graduates to achieve the following specific objectives of the profession of Industrial Technology Engineer:

Know and apply the scientific-technical fundamentals of industrial technologies to technological projects, technical management and innovation.
Mathematical modeling of complex systems and processes in all areas of Industrial Engineering
Train professionals who have the ability to participate in multidisciplinary projects integrating all the technologies of Industrial Engineering.

On the other hand, given the importance of the European Higher Education Area, and the internationalization of training processes and economic and industrial activities, the Rey Juan Carlos University's priority objective is for graduates in Industrial Technology Engineering to be able to act and develop in a professional and qualified manner in the international arena, actively promoting the international mobility of its students.

Competences

GENERAL COMPETENCIES

CG1 Capacity for analysis and synthesis.
CG2 Capacity for organization and planning.
CG3 Oral and written communication.
CG4 Knowledge of a foreign language.
CG5 Information management capacity.
CG6 Troubleshooting.
CG7 Decision making.
CG8 Teamwork.
CG9 I work in an interdisciplinary team.
CG10 Skills in interpersonal relationships.
CG11 Critical reasoning.
CG12 Ethical commitment.
CG13 Autonomous learning.
CG14 Adaptation to new situations.
CG15 Creativity.
CG16 Leadership.
CG17 Ability to work autonomously.
CG18 Initiative and entrepreneurial spirit.
CG19 Motivation for quality.
CG20 Ability to apply theoretical knowledge in practice.
CG21 Use of the Internet as a means of communication and as a source of information.
CG22 Ability to understand the language and proposals of other specialists.
CG23 Sensitivity towards environmental issues.
CG24 Computer skills related to the field of study.

SPECIFIC COMPETENCES

CE1 Ability to solve mathematical problems that may arise in engineering. Ability to apply knowledge of: linear algebra; geometry; differential geometry; differential and integral calculus; differential and partial derivative equations; numerical methods; numerical algorithms; statistics and optimization.
CE2 Comprehension and mastery of the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application to solve engineering problems.
CE3 Basic knowledge of the use and programming of computers, operating systems, databases and computer programs with application in engineering.
CE4 Ability to understand and apply the principles of basic knowledge of general chemistry, organic and inorganic chemistry and their applications in engineering.
CE5 Capacity for spatial vision and knowledge of graphic representation techniques, both through traditional methods of metric geometry and descriptive geometry, and through computer-aided design applications.
CE6 Adequate knowledge of the concept of company, institutional and legal framework of the company. Business organization and management.
CE7 Knowledge of applied thermodynamics and heat transmission. Basic principles and their application to the resolution of engineering problems.
CE8 Knowledge of the basic principles of fluid mechanics and their application to problem solving in the field of engineering. Calculation of pipes, channels and fluid systems.
CE9 Knowledge of the fundamentals of science, technology and chemistry of materials.
CE10 Understand the relationship between the microstructure, the synthesis or processing and the properties of materials.
CE11 Knowledge and use of the principles of circuit theory and electrical machines.
CE12 Knowledge of the fundamentals of electronics.
CE13 Knowledge of the fundamentals of automation and control methods.
CE14 Knowledge of the principles of theory of machines and mechanisms.
CE15 Knowledge and use of the principles of strength of materials.
CE16 Basic knowledge of production and manufacturing systems
CE17 Basic knowledge and application of environmental technologies and sustainability.
CE18 Applied knowledge of business organization.
CE19 Knowledge and skills to organize and manage projects. Know the organizational structure and functions of a project office.
CE20 Ability to design electrical installations.
CE21 Ability to calculate and design power lines and transport of electrical energy.
CE22 Ability to calculate and design electrical machines.
CE23 Know the different energy sources and the basic principles of energy management for its application in the industrial field, taking into account the related environmental aspects.
CE24 Applied knowledge of renewable energies.
CE25 Applied knowledge of the fundamentals of fluid-mechanical systems and machines.
CE26 Applied knowledge of thermal engineering.
CE27 Knowledge of the fundamentals and applications of analog electronics.
CE28 Knowledge of the fundamentals and applications of digital electronics and microprocessors.
CE29 Applied knowledge of power electronics.
CE30 Applied knowledge of electronic instrumentation.
CE31 Ability to design analog, digital and power electronic systems.
CE32 Knowledge of the principles of automatic regulation and its application to industrial automation.
CE33 Ability to design industrial automation and control systems
CE34 Knowledge and skills to apply the fundamentals of elasticity and resistance of materials to the behavior of real solids.
CE35 Knowledge and ability to calculate and design industrial structures and constructions.
CE36 Applied knowledge of manufacturing systems and processes, metrology and quality control.
CE37 Ability to apply the necessary legislation in the field of industrial technologies, taking into account mandatory regulations and standards.
CE38 Knowledge and ability to model and simulate processes

Minimum stay requirements

The permanence of the students in the Degree studies will be a maximum of eight years for full-time students. Part-time students may request an extension of up to two more years from the Rector.
In Bachelor's degrees lasting more than 240 credits (4 years), the maximum of the previous section will be increased by one more year for every 60 ECTS credits that are added to the 240 ECTS.
Students must pass a minimum of two subjects in the first year. Students studying part-time must pass at least one subject in their first academic year.
Students who are studying any official Bachelor's degree at the Rey Juan Carlos University may make a maximum of four registrations to pass each of the subjects of the study plan, without counting previous cancellations of the same.

For more information see: Permanence regulations

Minimum number of ECTS credits by type of enrollment and course

Full-time students:

COURSE	MINIMUM	MAXIMUM
1º Course	48 ECTS	78 ECTS
Other courses	48 ECTS	78 ECTS

Part-time students:

COURSE	MINIMUM	MAXIMUM
1º Course	24 ECTS	47 ECTS
Other courses	24 ECTS	47 ECTS

Access and registration

Log in

Access to the official teachings of Degree will require to be in possession of the bachelor's degree or equivalent and the passing of the test referred to in article 42 of the Organic Law 6/2001, of Universities, modified by Law 4/2007, of April 12, without prejudice to the other access mechanisms provided for by current regulations.

The number of places offered for new admission are:

Móstoles Campus: 70 places (including transfer admission places)

Matriculation year

The enrollment process at the Rey Juan Carlos University is done through the Internet. You can carry out the procedures on the computers installed on campus or through any computer with network access. You can check the deadlines at registration , as well as the different requirements and necessary documents.

Validation with FP qualifications

PROFESSIONAL TRAINING DEGREES

SENIOR AUTOMOTIVE TECHNICIAN

SENIOR TECHNICIAN IN MECHANICAL MANUFACTURING DESIGN

SENIOR TECHNICIAN IN MAINTENANCE OF INDUSTRIAL EQUIPMENT

SENIOR TECHNICIAN IN PRODUCTION PROGRAMMING IN MECHANICAL MANUFACTURING

HIGHER TECHNICIAN IN INDUSTRIAL CHEMISTRY

Training itinerary

ACCESS THE COURSE GUIDES OF THE DEGREE

Curriculum

FBC: Common Basic Training, they are validated with their counterparts of all grades
FBR: Basic Branch Training, they can be validated with their branch counterparts, taking into account the adequacy between the skills and knowledge acquired.
OB: Compulsory
OP: Optional

COURSE 1
Semester	Subject	Subject	Character	Credits
1	Mathematics I	Maths	FBR	6
1	Physics I	Physics	FBR	6
1	Chemistry	Chemistry	FBR	7,5
1	language in business	Linguistics	FBC	6
2	Applied Informatics	Computer Technology	FBC	6
2	Mathematics II	Maths	FBR	7,5
2	Physics II	Physics	FBR	6
2	Basic legal principles, professional ethics and equality	Right	FBC	6
ANNUAL	Graphic expression	Graphic expression	FBR	9
Total credits to study: 60

COURSE 2
Semester	Subject	Subject	Character	Credits
1	Science and engineering of materials	Science and engineering of materials	OB	6
1	Technical Mechanics	Mechanical Engineering	OB	6
1	Applied Thermodynamics	Thermal Engineering	OB	6
1	company introduction	Company	FBR	6
1	Mathematical Complements I	Maths	OB	3
1	Fundamentals of Electricity and Magnetism	Electricity and Electrotechnics	OB	4,5
2	heat transmission	Thermal Engineering	OB	4,5
2	Electric engineering	Electricity and Electrotechnics	OB	4,5
2	Statistics	Statistics	FBR	6
2	Manufacturing Process Technology I	Manufacturing Technologies	OB	4,5
2	Mathematical Complements II	Maths	OB	3
ANNUAL	modern language	modern language	FBC	6
Total credits to study: 60

COURSE 3
Semester	Subject	Subject	Character	Credits
1	Elasticity and resistence of materials	Fluid mechanics	OB	6
1	Electronic Technology	Electronic, automatic and control	OB	4,5
1	Fluid Engineering	fluid engineering	OB	7,5
1	Machine Theory	Mechanical Engineering	OB	6
1	Engineering and Environmental Management	Environment	OB	4,5
2	Process engineering	Engineering and process management	OB	6
2	Electronic and Digital Systems	Electronic, automatic and control	OB	6
2	Manufacturing Process Technology II	manufacturing technologies	OB	4,5
2	Mechanical Design and Structural Integrity	Mechanical Engineering	OB	4,5
2	Energy Engineering	Thermal Engineering	OB	4,5
2	Control and Automation	Electronic, automatic and control	OB	6
Total credits to study: 60

COURSE 4
Semester	Subject	Subject	Character	Credits
1	Engineering projects	Projects	OB	6
1	Economics and Industrial Organization	Engineering and Process Management	OB	4,5
1	Electric Machines	Electricity and electrotechnics	OB	4,5
1	Theory of Structures and Industrial Constructions	Theory of structures and industrial constructions	OB	4,5
1	Industrial Quality and Safety	Engineering and Process Management	OB	4,5
1	Academic Recognition of Credits	RAC	OB	6
2	Optional		OP	4,5
2	Optional		OP	4,5
2	Optional		OP	4,5
2	Optional		OP	4,5
ANNUAL	Undergraduate Thesis Project	TFG	OB	12
Total credits to study: 60

OPTIONAL
Semester	Subjects	Subject	Character	Credits
2	Electronic Systems Design	Electronics, Automatic and Control	OP	4.5
2	Modeling of Materials and Structures	Solid mechanics	OP	4.5
2	Corrosion and Degradation	Science and engineering of materials	OP	4.5
2	Renewable Energy	Thermal Engineering	OP	4.5
2	Industrial robotics and mechatronics	Electronics, Automatic and Control	OP	4.5

Subject Unit

			SUBJECTS THAT IT IS RECOMMENDED TO HAVE PASSED BEFORE
COURSE	SEMESTER	COURSE	COURSE	SEMESTER	COURSE
1	2	Mathematics II	1	1	Mathematics I
1	2	Physics II	1	1	Mathematics I
1	2	Physics II	1	1	Physics I
2	1	Science and engineering of materials	1	1	Chemistry
2	1	Technical Mechanics	1	1	Mathematics I
			1	1	Physics I
			1	2	Mathematics II
2	1	Applied Thermodynamics	1	1	Mathematics I
			1	1	Chemistry
			1	2	Mathematics II
2	1	Mathematical Complements I	1	1	Mathematics I
2	1	Mathematical Complements I	1	2	Mathematics II
2	1	Fundamentals of Electricity and Magnetism	1	1	Mathematics I
			1	2	Mathematics II
			1	1	Physics I
			1	2	Physics II
2	2	heat transmission	1	1	Mathematics I
			1	1	Physics I
			1	2	Mathematics II
			2	1	Mathematical Complements I
2	2	Electric engineering	1	1	Mathematics I
			1	2	Mathematics II
			1	2	Physics II
			2	1	Mathematical Complements I
			2	1	Fundamentals of Electricity and Magnetism
2	2	Statistics	1	1	Mathematics I
2	2	Statistics	1	2	Mathematics II
2	2	Manufacturing Process Technology I	1	1	Mathematics I
			1	1	Physics I
			1	1	Chemistry
			1	2	Mathematics II
			2	1	Science and engineering of materials
2	2	Mathematical Complements II	1	1	Mathematics I
			1	2	Mathematics II
			2	1	Mathematical Complements I
3	1	Elasticity and resistence of materials	1	1	Mathematics I
			1	2	Mathematics II
			1	1	Physics I
			2	1	Technical Mechanics
3	1	Electronic Technology	1	1	Mathematics I
			1	2	Mathematics II
			1	2	Physics II
			2	1	Fundamentals of Electricity and Magnetism
			2	2	Mathematical Complements II
			2	2	Electric engineering
3	1	Fluid Engineering	1	1	Mathematics I
			1	1	Physics I
			1	2	Mathematics II
3	1	Machine Theory	1	1	Mathematics I
			1	1	Physics I
			1	2	Mathematics II
			2	1	Technical Mechanics
3	1	Engineering and Environmental Management	1	1	Chemistry
3	2	Process engineering	1	1	Chemistry
			2	2	heat transmission
			3	1	Fluid Engineering
3	2	Digital Electronic Systems	2	2	Electric engineering
3	2	Digital Electronic Systems	3	1	Electronic Technology
3	2	Manufacturing Process Technology II	1	1	Chemistry
			1	1	Physics I
			2	2	Manufacturing Process Technology I
			2	1	Science and engineering of materials
3	2	Mechanical Design and Structural Integrity	1	1	Mathematics I
			1	1	Physics I
			1	2	Mathematics II
			2	1	Technical Mechanics
			3	1	Elasticity and resistence of materials
3	2	Energy Engineering	1	1	Chemistry
			2	1	Applied Thermodynamics
			2	2	heat transmission
			3	1	Fluid Engineering
			3	1	Engineering and Environmental Management
3	2	Control and Automation	2	2	Electric engineering
3	2	Control and Automation	3	1	Electronic Technology
4	1	Engineering projects	1	A	Graphic expression
			2	1	company introduction
			2	2	Manufacturing Process Technology I
			3	1	Engineering and Environmental Management
			3	2	Manufacturing Process Technology II
			3	2	Process engineering
4	1	Economics and Industrial Organization	2	1	company introduction
4	1	Electric Machines	1	1	Mathematics I
			1	2	Mathematics II
			1	2	Physics II
			2	1	Mathematical Complements I
			2	1	Fundamentals of Electricity and Magnetism
			2	2	Mathematical Complements II
			2	2	Electric engineering
			3	1	Electronic Technology
4	1	Structural Theory and Constr. industrial	1	1	Physics I
			2	1	Technical Mechanics
			1	1	Mathematics I
			1	2	Mathematics II
			3	1	Elasticity and resistence of materials
			3	2	Mechanical Design and Structural Integrity
4	1	Industrial Quality and Safety	1	2	PJB: Professional Ethics and Equality
4	2	Renewable Energy	2	1	Science and engineering of materials
			2	2	Electric engineering
			3	2	Energy Engineering
4	2	Corrosion and Degradation	2	1	Science and engineering of materials
4	2	Modeling of Materials and Structures	3	1	Elasticity and resistence of materials
			3	2	Mechanical Design and Structural Integrity
			4	1	Structural Theory and Constr. industrial
4	2	Electronic Systems Design	2	2	Electric engineering
			3	1	Electronic Technology
			3	2	Digital Electronic Systems

Material resources

Specific material means

External Internships

This Degree does not have External Internships

Academic Recognition of Credits

Regulations for academic recognition of credits in undergraduate studies

Mobility programs

ERASMUS

The Erasmus program makes it easy for URJC students -both undergraduate and postgraduate- to study one or several semesters at one of the European universities with which the URJC has agreements.

These exchanges traditionally have an economic endowment thanks to the Erasmus Scholarships provided by the EU and the Spanish Ministry of Education.

ERASMUS (intranet)

WORLD

The Munde program manages mobility with universities from countries not included in the Erasmus Program.

The possibility of obtaining a scholarship or economic endowment and its amount depends, in each case, on the agreements with the universities, countries or entities that sign it.

WORLD (intranet)

For more information:

URJC Mobility

SICK

SICUE is a national mobility program for GRADOS university students that allows them to carry out part of their studies at another Spanish university with guarantees of academic recognition, use and adaptation to their curricular profile.

SICUE Mobility

Student support programs

Orientation to future students. The University offers various orientation programs for future students: we carry out visits to high schools and secondary schools, we organize guided visits to the Campuses, we are present in the Classroom and, at the beginning of each course, we carry out welcome days to guide students new students.

academic tutorials. Each teacher carries out, within their teaching planning, academic tutorials on their subject.

Coordinator of the degree. It works to promote coherence and balance between the subjects and the workloads of the students.

mentoring program. The URJC has this program, peer tutoring, in which the students of the last years act as mentors with the first year students.

Students with disabilities. The Support Office for Persons with Disabilities offers guidance and assistance to students with special needs.

Scholarships . The Rey Juan Carlos University manages the main scholarships and annual grants, both its own and from other official bodies: Ministries, Community of Madrid, International Organizations and other entities. It also publishes and disseminates those scholarships and grants of interest to its students and graduates. Throughout the course, students receive information about them through the different communication channels established.

Job placement program. The Rey Juan Carlos University, through the External Internship Unit and the Graduates Office, organizes conferences, workshops and various actions aimed at supporting and guiding students in their job search, to improve their employability and promote job placement . The University has a Job Exchange -a platform available to companies and graduates- where institutions can carry out their selection processes.

Regulation

ACADEMIC CALENDAR

Academic Calendar

REGISTRATION

*The rates corresponding to double degrees with different degrees of experimentality will be applied as established in the new Decree 43/2022, of June 29, of the Government Council, which establishes the public prices for university studies leading to official degrees and services of an academic nature in the public universities of the Community of Madrid*

TRAINING PROCESS

REVIEWS AND REVIEWS

Validation, adaptation of studies, recognition of credits and homologation of foreign qualifications

UNIVERSITY DEGREES

Extinction of university degrees

VISITING STUDENTS AND FUNCTIONAL DIVERSITY

COEXISTENCE REGIME

Coexistence Regulations of the Rey Juan Carlos University for the Development of Law 3/2022, of February 24, on University Coexistence, approved by Agreement of March 30, 2023, of the Governing Council of the University

SCHOOL INSURANCE

School insurance

ASSOCIATIONS

Regulation of student associations

Quality guarantee

External monitoring report

RUCT link

BOCM Link

Internal quality assurance system

Manual of the Internal Quality Assurance System

Composition of the commission

Composition of the Commission

Results report

Once the follow-up has been carried out, the quantitative information on the results obtained in the follow-up of said Degree is shown, differentiated by academic year.

Report by course:

General information collection plan

Within the quality assurance system of the Rey Juan Carlos University, the following surveys are planned:

- New students

- Teacher evaluation

- Student satisfaction

- Satisfaction of the graduates

- Labor insertion

- Causes of abandonment

- Career path:

Second year after graduation
Third year after graduation
Fourth year after graduation

- Degree of satisfaction:

Faculty with the campus and university
Teacher with degree
of the evaluators
Incoming student mobility program
Outgoing Student Mobility Program
Administration and services staff with the university

- External internships:

Student satisfaction
External tutor satisfaction
Evaluator satisfaction

Survey results:

Improvement actions

The Quality Assurance System of the Rey Juan Carlos University establishes that the degree's Quality Assurance Commission will annually analyze the information derived from the degree's indicators and prepare a report that will include improvement plans if the results so indicate.

Renewal of accreditation

The renewal of the accreditation represents the culmination of the implementation process of the official Bachelor's and Master's degrees registered in the Register of Universities, Centers and Degrees (RUCT). The renewal of the accreditation of official bachelor's and master's degrees is organized in three phases: self-assessment report, external visit and final assessment.

In the first phase, the university describes and assesses the status of the degree with respect to the established criteria and guidelines. The result is the Self-Assessment Report (IA) that is presented. The second and third phases are carried out by a group of evaluators external to the evaluated title.”

Final Report Accreditation Renewal 2023

History

Final Report Accreditation Renewal 2016

Professors and Researchers

2030 Agenda

Strategic plan

Admission

student office