2021_22
University
Rovira y Virgili
Educational guide 
School of Chemical Engineering
A A 
english 
Bachelor's Degree in Mechanical Engineering (2010)
 Competences


Type A Code Competences Specific
  A1.1 Consistently apply knowledge of basic scientific and technological subjects pertaining to engineering
  A1.2 Design, execute and analyse experiments related to engineering.
  A1.3 Ability to analyse and assess the social and environmental impact of technical solutions (G7)
  A1.4 Ability to apply the principles and methods of quality control (G8)
  A1.5 Design Project and manage the maintenance of different industrial airenergy supply and air conditioning systemsHVAC
  A1.6 Project machine elements and structures based on calculation methods, materials, functionality and manufacturing constraints
  A1.7 Design, plan and interpret machine and mechanical assembly tests
  A1.8 Project and manage the maintenance of fluid distribution systems, oleo-hydraulic and pneumatic systems
  A1.9 Project thermal machinery and heat exchange systems
  A1.10 Design, optimise and analyse production processes
  A2.1 Ability to manage specifications, regulations and mandatory standards (G6)
  A2.2 Knowledge to perform measurements, calculations, assessments, appraisals, surveys, studies, reports, work plans and analogous work (G5)
  A2.3 Ability to write, sign off and develop industrial engineering projects in the field of mechanical engineering for the construction, refurbishment, repair, conservation, demolition, manufacture, installation, assembly and operation of structures, mechanical equipment, energy facilities, electrical and electronic systems, industrial facilities and plants, and manufacturing and automation processes (G1)
  A2.4 Knowledge and comprehension of and capacity ability to apply the pertinent mandatory standards and legislation to practise professionally as a qualified “ingeniero técnico industrial, especialidad mecánica”industrial technical engineer, specialising in mechanics (G11)
  A2.5 Use computational tools to efficiently perform professional tasks
  A3.1 Ability to solve a wide range of mathematical problems in engineering. Ability to apply the knowledge of linear algebra, geometry, differential geometry, differential and integral calculus, differential equations and partial differential equations, numerical methods, numerical algorithms, statistics and optimisation (FB1)
  A3.2 Comprehension and dexterity in the application of the fundamentals and the general laws of mechanics, thermodynamics, fields, waves, electromagnetism and their application to solve engineering problems (FB2)
  A3.3 Basic knowledge of the use and programming of computers, operating systems, databases and software for engineering applications (FB3)
  A3.4 Ability to understand the basics of general chemistry, organic and inorganic chemistry, and their applications in engineering (FB4)
  A3.5 Ability for spatial vision and graphical representation techniques, using both traditional methods of metric and descriptive geometry and computer-aided design (FB5)
  A3.6 Adequate knowledge of the concept of company and its institutional and legal framework. Business organisation and management skills. (FB6)
  A4.1 Knowledge of applied thermodynamics and heat transfer. Fundamental laws and their application to engineering problems (RI1)
  A4.2 Knowledge of the fundamental principles of fluid mechanics and their application to engineering problems. Calculation of piping networks, channels and fluid systems (RI2)
  A4.3 Knowledge of materials science, technology and chemistry fundamentals. Understanding the relationship between their microstructure, their synthesis, their processing and their properties (RI3)
  A4.4 Knowledge and use of the fundamentals of circuit theory and electric machines (RI4)
  A4.5 Knowledge of the fundamentals of electronics (RI5)
  A4.6 Knowledge of the fundamentals of automation technology and control methods (RI6)
  A4.7 Knowledge of the principles of the mechanism and machine theory (RI7)
  A4.8 Knowledge and use of the principles of strength of materials (RI8)
  A4.9 Basic knowledge of production and manufacturing systems (RI9)
  A4.10 Basic knowledge and application of environmental technologies and the principles of sustainability (RI10)
  A4.11 Applied knowledge of business organisation (RI11)
  A4.12 Knowledge and ability to organise and manage projects: understanding the organisational structure and functions of a project office (RI12)
  A5.1 Knowledge of and ability to apply graphic engineering techniques (M1)
  A5.2 Knowledge of and ability to calculate, design and test machines (M2)
  A5.3 Applied knowledge of thermal engineering (M3)
  A5.4 Knowledge of and ability to apply the fundamentals of elasticity and strength of materials to the behaviour of real solids (M4)
  A5.5 Knowledge of and ability for the calculation and design of structures and industrial constructions (M5)
  A5.6 Applied knowledge of the fundamentals of fluid mechanics systems and machinery (M6)
  A5.7 Knowledge of and ability for the application of materials engineering (M7)
  A5.8 Applied knowledge of manufacturing processes and systems, metrology and quality control (M8)
  A6.1 Ellaborate individually an original project in the field of Industrial engineering, to be presented and defended in front of an examination panel. The project integrates the competences and skills acquired in the degree. (TFG1)
Type B Code Competences Transversal
  B1.1 Communicate information clearly and accurately to diverse audiences
  B1.2 Adaptar-se a un entorn canviant.
  B1.3 Desenvolupar la feina de forma efectiva i resistir a l'adversitat.
  B1.4 Use information in a foreign language effectively
  B1.5 Use ICT to efficiently manage information and knowledge
  B2.1 Capacitat d'organització i planificació en l'àmbit de l'empresa i en altres institucions i organitzacions.
  B2.2 Capacitat per a la direcció, de les activitats objecte dels projectes d'enginyeria vinculats a la professió d'Enginyer Tècnic Industrial, especialitat en Mecànica.
  B2.3 Influir i guiar els altres per millorar el rendiment.
  B2.4 Fomentar un entorn adequat per al desenvolupament dels individus.
  B2.5 Proporcionar pautes per a la definició i consecució d'objectius.
  B2.6 Motivar i transmetre entusiasme als altres.
  B3.1 Capacitat de treballar en un entorn multilingüe i multidisciplinari.
  B3.2 Contribuir efectivament a la consecució dels objectius de l'equip a través de la cooperació, la participació i el compromís en la visió i la meta que es comparteixen.
  B3.3 Treballar en equip de forma col·laborativa, amb responsabilitat compartida i iniciativa.
  B3.4 Resoldre els conflictes de manera constructiva.
  B4.1 Aprendre maneres eficaces per assimilar coneixements i comportaments.
  B4.2 Identificar el procés d'aprenentatge i l'orientació acadèmica i professional.
  B4.3 Aprendre de forma autònoma i amb iniciativa.
  B4.4 Coneixement en matèries bàsiques i tecnològiques que capaciti per a l'aprenentatge de nous mètodes i teories i els doti de versatilitat per adaptar-se a noves situacions.
  B5.1 Treballar de forma autònoma amb responsabilitat, iniciativa i amb pensament innovador.
  B5.2 Assumir posicions emprenedores.
  B5.3 Capacitat de resoldre problemes amb iniciativa, presa de decisions, creativitat i raonament crític i de comunicar i transmetre coneixements, habilitats i destreses en el camp de l'enginyeria industrial, especialitat en Mecànica.
  B6.1 Presentar un comportament ètic amb els membres de la comunitat universitària i la societat en general.
  B6.2 Aplicar els principis de responsabilitat social com a ciutadà o ciutadana i com a professional.
Type C Code Competences Nuclear