Course Catalogue for Erasmus+ Students

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Browse through all available english courses

An important step in planning a succesful mobility at TUIASI is to choose the relevant courses that can be equated to those at your home university.

Please browse through our english taught programmes catalogue of courses first or see bellow the Romanian courses for which we provide english support.

English Courses Catalogue

Romanian courses with English support by faculty

Additional to the English taught courses, the TUIASI academic staff also offers English support for some Romanian taught courses. The support may consist of: english course notes, english bibliography, final project or exam to be taken in English.

“G.M. Cantacuzino” Faculty of Architecture

No.	Name of the course	Main Chapters	Study Plan Code	Field of study	Level of study (Undergraduate/Master)	Year of study	Semester (1/2)	No. of ECTS
1	Universal History of Architecture I	I. INTRODUCTION. PREHISTORY. The genesis of architecture. The first architectural human manifestations. Earth, Sky, and Structure II. ANCIENT ARCHITECTURE 1. Ancient Near Eastern Architecture and Urbanism: Sumerian, Assyrian, Persian 2. Egypt. Egyptian Architecture: Old Kingdom Pyramids and New Kingdom 2. Bronze Age Architecture in the Aegean: Minoan and Mycenaean 3. Greek Architecture and Urbanism: The Orders, Polis/Acropolis, Hellenistic Experimentation, Urban Planning. 4. Ancient Rome: Introduction.	ARA1103	Architecture	UG/MSc	1st	1 (W)	3
2	Universal History of Architecture II	I. ARCHITECTURE AND ART OF ANCIENT ROME. 1. Technological and formal construction revolution. 2. Housing and urbanity. 3. Major architectural programs. Functional, formal, and volumetric typologies. Precedents and evolution. Architectural phenomenology. 4. Architectural regionalisms and their impact on the future of Western architecture. II. BYZANTINE ARCHITECTURE AND ART: THE EASTERN ROMAN EMPIRE. 1. The transition from the Roman basilica to the Christian church. 2. The division of the empire and its religious and architectural consequences. III. ARCHITECTURE AND ART IN WESTERN MEDIEVAL EUROPE: EUROPE AFTER THE FALL OF ROME. 1. Artistic, technical, and stylistic traditions of various European populations. 2. Cultures of superstition. 3. The fusion of "barbarian" arts with Christian influences and beliefs. 4. Charlemagne and the "renaissance" of Western civilization. 5. The birth of the Northern style: Ottonian architecture and art. 6. The transition from naturalistic to symbolic representation. 7. Icons, iconography, and iconoclasm. 8. Space and light in art and architecture. 9. A new aesthetic. Spatial and functional transformations.	ARA1203	Architecture	UG/MSc	1st	2 (S)	2
3	Foreign Languages English/French	for English: General concepts about the role and place of the English language in the current context: 1. The verb – verb tenses 2. The noun – classification; gender of nouns; case and number 3. Pronouns, adjectives, numerals, articles – classification; applications. for French: Introductory concepts of French phonetics and orthography: The vowel system and the consonant system. Nasalization of vowels, tonic accent, and graphic accent. Practical exercises: listening, reading, and thematic conversation. Grammar concepts: 2. The verb (I): Classification. Tenses, moods (Indicative: Present; Simple Future, Future Perfect). Oral and written grammatical and lexical exercises. 3. Pronouns: (personal, demonstrative, possessive, reflexive, relative, interrogative, impersonal) and the pronominal adjective. Functions and placement of the pronoun in a sentence. Oral and written practical exercises. 4. The noun: (gender, number, functions); exercises. 5.The adjective: (classification, feminization, agreement); oral and written practical exercises. 6. Agreement of tenses in the indicative mood; practical exercises. Translation and analysis of a technical specialized text; interactive practical exercises. 7. Lexicon: General concepts of situational vocabulary; specific vocabulary concepts. Practical grammatical and lexical exercises. Writing a thematic essay. Writing a Europass CV.	ARA1112	Architecture	UG/MSc	1st	1 (W)	1
4	Foreign Languages English/French	for English for French	ARA1212	Architecture	UG/MSc	1st	2 (S)	1
5	Architectural Design	Design studio on a specific assignment. Study of the HOUSING program: 1. Urban housing. 2. Semi-detached houses.	ARA2101	Architecture	UG	1st	1 (W)	12
6	Architectural Design	Design studio on a specific assignment. Study of the HOUSING Program: 1. Urban insertion in a real site housing for three families. 2. Vacation house – in a real site."	ARA2201	Architecture	UG	2nd	2 (S)	12
7	Universal History of Architecture III	I. Romanesque: The Age of Pilgrimages. 1. The influence of crusades, pilgrimages and monastic orders. 2. The Christian Church, a unifying and stabilizing factor. 3. The cult of saints and religious devotion. 4. The renaissance of monumental sculpture. 5. Didactic, spiritual and emotional goals of architecture and art. 6. Social and historical factors that contributed to the distinct vocabulary of Romanesque in its different regional styles - French, English, Italian. 7. New conceptions about the representation of the human figure. 8. Space and light in art and architecture. II. Gothic: the age of the great cathedrals. 1. Life as a pilgrimage to prepare for the afterlife. 2. Abbot Suger and the birth of Gothic architecture. 3. Harmony as Source of Beauty. 4. Gothic architectural styles, technology and vocabulary in France and beyond: England, Germany and Italy (evolution of regional styles). 5. Comparisons between classical idealism and Gothic naturalism. 6. Scolastics and its influence in architecture: the desire to reconcile faith with reason. III. THE ARCHITECTURE OF EUROPEAN RENAISSANCE. 1. The premises of Renaissance. Renaissance in Italy, France, Germany and in German culture countries. 2. Mannerism IV. EUROPEAN BAROQUE ARCHITECTURE Premises. Baroque in in Italy, France, Germany.	ARA203	Architecture	UG/MSc	2nd	1 (W)	2
8	Foreign Languages English/French	for English for French	ARA2113	Architecture	UG/MSc	2nd	1 (W)	1
9	Housing Theory	1. Introduction: definitions and meaning 2. Evolution of the housing: primitive, popular, premodern, modern, contemporary.Concepts and symbols characteristic of housing types; 3. Morphology, function and meaning in housing design; 4. Typology: urban / rural housing, detached / attached / terraced /terraced, single-family homes, individual / semi-collective / collective housing; 5. Housing for special needs: home elderly, persons with dissabilities, orphanages emergency housing, social housing; 6. Identity in housing design.	ARA2207	Architecture	UG/MSc	2nd	1 (W)	1
10	Computer Aided Architectural Design	ArchiCAD - course+seminar 1. ArchiCAD - Work interface; project navigation; project organization: layers, stories, project preferences. 2D working techniques; coordinates, cursor, help lines, marquee, trace and reference. 2. Project management, graphic elements for the project: template files, manager attributes, creation of special lines, fillers, materials, areas, multilayer structures. 3. Creating the main volumes and the structure. Joinery elements. Curtain walls. 4. Interior walls and openings. Vertical circulations, poles, metal beams. Library items. 5. Basic techniques for editing 2D and 3D elements 6. Defining areas, project quotation, lists of materials. Sections, facades. Worksheets, details and 3D documents. 7. Roofs, curtain walls, "Shell" and "Morph" tools. Profile manager. Truss maker and Roof Maker. 8. Rendering techniques; study of sunshine, animation, VR. 9. Layouting the drawings, printing and publishing the project.	ARA2109	Architecture	UG/MSc	2nd	1 (W)	4
11	Methodology of Architectural Space	1. Architectural space 2. Elements defining architectural space 3. Opening the space. Formal features 4. Dynamic axes 5. Geometric characteristics of primary shapes 6. Interspatial relations 7. Composition and organization of spaces 8. Spatial connections 9. Transition spaces between interior and exterior.	ARA2206	Architecture	UG/MSc	2nd	2 (S)	2
12	History of Modern Architecture	I: CULTURAL, TERRITORIAL, AND TECHNICAL TRANSFORMATIONS: 1750-1900 I.1 Cultural Transformations: New Architectural Theories PIRANESI PERRAULT I.2 Visionary Architects: BOULLEE LEDOUX DURAND I.3 Territorial Transformations: Urban Development: 1800-1909 I.4 Technical Transformations: Technologies Materials: 1775-1939 II: NEO-CLASSICAL ARCHITECTURE IN THE 19TH CENTURY II.1 Structural Classicism: H. LABROUSTE II.2 Romantic Classicism: F. SCHINKEL II.3 The End of an Era: G. SPENCER The Work of GARNIER III: STRUCTURAL RATIONALISM IRON ARCHITECTURE III.1 World Expositions III.2 New Programs of the Century III.3 Gustave EIFFEL and the Architecture of Engineers IV: THE CHICAGO SCHOOL SKYSCRAPERS: TYPOLOGIES AND SYMBOLISM IV.1 Representatives of the Chicago School and Their Creations: H.H. RICHARDSON William Le BARON JENNEY IV.2 "Make Big Plans" - Daniel BURNHAM IV.3 Louis SULLIVAN & Dankmar ADLER: The Auditorium and Tall Buildings V: STYLES OF THE YEAR 1900: "ARTS E VITA" V.1 "Arts and Crafts" Charles Rennie MACKINTOSH and the Glasgow School V.2 "Art Nouveau" in Belgium and France: Victor HORTA and Hector GUIMARD V.3 WAGNER OLBRICH HOFFMANN and the Vienna Secession; Adolf LOOS V.4 Catalan Modernism and A. GAUDI	ARA2204	Architecture	UG/MSc	2nd	2 (S)	3
13	Foreign Languages English/French	for English Translation of specialized texts. Comments on the texts Arhitecture: art or science? The language of arhitecture. Great arhitects of Europe The Arts and the Crafts Movement Gaudi Arhitecture as system Building style and arhitecture for French 1. The Verb (III) Recapitulation: Indicative) Oral and written grammar and lexical exercises 2. Verb (IV) Conditional: Present, Past. Applied exercises 3. Verb. And conditional. Exercises 4. Noun: (gender, number, functions); exercises. Adjective (classification, feminization, agreement); oral and written application exercises. 5. The concordance of the tenses to the indicative; application exercises Translation and analysis of a specialized technical text; interactive application exercises 6. Vocabulary: General notions of situational vocabulary; specific notions of vocabulary specific to the field of constructions 7. Grammar and lexical exercises	ARA2213	Architecture	UG/MSc	2nd	2 (S)	1
14	Architectural Design	Design studio on a specific assignment The study of public architecture programs materialized through projects whose themes are developed on real sites: Tourist guesthouse Creative center Sketches of a sketch	ARA3101	Architecture	UG/MSc	3rd	1 (W)	12
15	Architectural Design	Design studio on a specific assignment The study of public architecture programs materialized through projects whose themes are developed on real sites: Vocational high school Collective housing with low-rise regulations Sketches of a sketch	ARA3201	Architecture	UG/MSc	3rd	2 (S)	12
16	History of Contemporary and Modern Architecture	I: F.L. WRIGHT: THE AMERICAN MYTH I.1 Sullivan's Legacy: "Order out of Chaos" I.2 Usonian Houses and "The Disappearing City" II: THE AVANT-GARDE, ARCHITECTURAL EXPRESSIONISM II.1 The Avant-Garde, De Stijl, Constructivism II.2 Expressionism II.3 The Bauhaus Movement III: THE INTERNATIONAL STYLE AND LE CORBUSIER III.1 Deutscher Werkbund: Walter Gropius III.2 Ludwig Mies van der Rohe: "God is in the Detail" III.3 Le Corbusier and "L' Esprit Nouveau" III.4 Le Corbusier and "La Ville Radieuse" III.5 Italian Rationalism - G. Terragni IV: THE POETICS OF MODERNISM IV.1 National-Romanticism in Scandinavia IV.2 Alvar Aalto and the Poetry of the North IV.3 Kahn: Metaphysical Architecture V: REGIONALISM AND POSTMODERN ARCHITECTURE V.1 Postmodernism V.2 Regionalism and Cultural Identity - Conclusions.	ARA3102	Architecture	UG/MSc	3rd	1 (W)	2
17	Architectural Programs	I. Introductory Concepts: - Architectural programs, definitions, evolution - Function, users, flows, spaces - Approach methodology: typology and comparison II. Housing Individual and collective housing III. Social Program Buildings Programs for elderly people (nursing homes, retirement homes, recovery centers) Programs for minors (children's homes, minor reception centers, kindergartens, schools, special centers, hospital dormitories) IV. Buildings for Tourism: Morphology, Flows, Categories – Hotel, Motel, Guesthouse, Camping V. Educational Buildings: Preschool, School, University VI. Commercial Buildings: Food commerce, non-food commerce, public catering, agro-food market VII. Sports Buildings: Sports halls, swimming pools, ice rinks, stadiums VIII. Cultural Buildings: Performance halls IX. Cultural Buildings: Museums X. Cultural Buildings: Libraries XI. Administrative and Office Buildings: Offices, local and national administration, justice XII. Health Buildings: Network, zoning, circulation - Health centers, polyclinics, hospitals XIII. Buildings for Transportation: Road, railway, maritime, air, and intermodal transportation XIV. Conclusions	ARA3104	Architecture	UG/MSc	3rd	1 (W)	2
18	Interior Design - Furniture	1. Interior Architecture and Furniture – The Cultural Dimension 2. Furniture in Ancient Greek and Roman Times 3. Furniture in the Byzantine, Romanesque, and Gothic Empires 4. Furniture in the Renaissance, Classicism, and Baroque Periods 5. Art Nouveau Furniture and Artistic Avant-Garde of the 20th Century 6. Contemporary Trends in Furniture 7. Functionality, Functional Groupings 8. General Elements of Sizing, Materials, Accessories, and Finishes 9. Interior Architecture, Materials, and Contemporary Technologies	ARA3106	Architecture	UG/MSc	3rd	1 (W)	2
19	Interior Design - Furniture	Project Detailed interior design of an existing and accessible real space, with the idea of faithfully replicating situations encountered in the market. Designing a piece of furniture. Creating a large-scale functional model for the piece of furniture studied in the previous stage.	ARA3206	Architecture	UG/MSc	3rd	2 (S)	2
20	Finishing Techinques	1. General notions of construction physics. Heat transfer and thermal protection in buildings. Hygrothermal phenomena and condensation in buildings. Noise and comfort in acoustics, protection against noise. Design of the building envelope taking into account the action of external factors (temperature, water and humidity, wind, vibration and sound) 2. Facade systems, compact facades. Ventilated facades. Glass facades, curtain facades, double skin facades. Solar facades, green facades.3. Roofing, coating systems. Modern wooden frames. Roofs: ceramic materials, concrete tiles, flat or corrugated sheet metal, bituminous cardboard, tile type sheet, bituminous tiles. 4. Flat roofs (terrace type). Composition of compact terrace roofs, the role of layers, inverted terraces, garden terraces, ventilated terraces, delimitation elements (attics, cornices) local solutions (scaffolding, ledges, drainage systems.	ARA3107	Architecture	UG/MSc	3rd	1 (W)	2
21	Finishing Techinques	I. Carpentry Elements for Construction: - Classification, materials, functions, wooden windows, metal and plastic windows, wooden and metal doors, protective elements for windows and doors II. Glass Facades: - Classification (curtain wall, double skin facade, double ventilated facade, closed cavity facade - CCF, U-glass), systems, solar protections III. Finishes for Walls and Ceilings: - Functions, performance criteria. Wet plasters, paints, coatings, wallpapers, dry plasters, cladding. False ceilings IV. Floors: - Basic structure of floors, specific performance requirements and criteria, details of warm floors (wood, wood substitutes, plastics, textiles), details of "cold" and "semi-cold" floors (natural stone, fired artificial stone, unfired artificial stone, etc.) V. Stairs: - Construction composition and finishing solutions, reinforced concrete stairs, wooden stairs, metal stairs. Railings, handrails - railings made of concrete, brick, wood, metal, handrails VI. Partition Walls: - Functions, classification, construction solutions	ARA3207	Architecture	UG/MSc	3rd	2 (S)	3
22	Urban Planning Projects	Project Urban analysis exercises highlighting the main urban elements (organization and conformity of the built environment, functions, organization of circulation networks, natural framework, and green areas) for: Residential urban tissues Urban routes	ARA3111	Architecture	UG/MSc	3rd	1 (W)	2
23	History of Modern and Contemporary Arts	Introduction to the Issues of Modern and Contemporary Art History. 19th Century Art: - Neoclassicism. Analysis of Selected Works. - Romanticism. Analysis of Selected Works. - Realism and Impressionism. Analysis of Selected Works. - Art Around 1900. Analysis of Selected Works. 20th Century Art. Foundations of the 20th Century, Cubism and Futurism. Analysis of Selected Works. - Informal Art and Geometric Abstract Art. Analysis of Selected Works. - Figurative Art: The Subjective Gaze. Analysis of Selected Works. - The Pictorial Universe of Surrealism. Analysis of Selected Works. - Pop-Art, a Movement of the 1960s. Analysis of Selected Works. - Art and Functionalism: Architecture and Design.	ARA3114	Architecture	UG/MSc	3rd	1 (W)	2
24	Computer Aided Architectural Design	Modeling in Revit 2024 of an individual housing project from the project archive of first or second-year students.	ARA3116	Architecture	UG/MSc	3rd	1 (W)	2
25	Urban Planning Doctrines	I. Fundamentals of Modern Urbanist Thought: - Urban arts - Critique of the industrial city - Social and urban utopias II. Politics and Ideology in Modern Urban Approaches: - Main Ideological Models: - Culturalism, traditionalism, and the "New American Urbanism"; - E. Howard and the "Garden City"; - Rationalism and functionalism: I. Cerda, T. Garnier, Le Corbusier, and the Athens Charter.	ARA3213	Architecture	UG/MSc	3rd	2 (S)	1
26	Architectural Complex Design	1. Collective Housing - Residential Complex Consisting of 2-3 Bar and/or Point Modules (individual or coupled, with one or more staircases) - Long Project 2. High School Sports Hall - Short Project 3. 3 Sketches	ARA4101	Architecture	UG/MSc	4th	1 (W)	13
27	Architectural Complex Design	1. Multifunctional Complex 1.1. Business Center - Long Project 1.2. Office Space Detailing - Short Project 2. 3 Sketches	ARA4201	Architecture	UG/MSc	4th	2 (S)	13
28	Building Physics	I. Introduction: - Course objectives, the relationship between man, construction, and environment, application of performance analysis, the concept of sustainable development, the quality system in construction, the building as a system. II. Climatic Conditions of the External Environment: - Climate conditions and factors, external design temperature, statistical presentations, climate changes, the urban heat island phenomenon (case studies). III. Heat Transfer in Buildings: - Basic quantities, fundamental modes of heat transfer, heat transfer through building elements that separate environments with different temperatures. IV. Behavior of Building Elements to Heat Transfer in a Steady Thermal State: - Thermal resistance of homogeneous and non-homogeneous building elements, the thermal field on the surface and in the structure of building elements, determination methods. V. Behavior of Building Elements and Rooms to Heat Transfer in a Variable Thermal State: - Characteristics of materials and building elements, thermal inertia of rooms, the effect on the indoor climate and energy consumption for heating and cooling. VI. Air Humidity and Water Vapor Condensation: - Sources of humidity in buildings, characteristics of humid air, condensation of water vapor on the surface and in the structure of building elements, effects of condensation, prevention measures. VII. Indoor Air Quality and Thermal Comfort: - Indoor air quality, sources of pollutants, effects on health, thermal comfort and comfort factors, evaluations regarding air quality and the level of comfort achievement.	ARA4104	Architecture	UG/MSc	4th	1 (W)	3
29	Building Physics	I. Natural Ventilation of Buildings: - The role of ventilation, performance criteria, determining factors, ventilation schemes, practical implementation of natural and mechanical ventilation, the influence of ventilation on the microclimate. II. Hygrothermal Design Elements of Building Envelopes: - Energy conservation and meeting comfort requirements, performance criteria and levels regarding energy consumption for residential buildings. III. Utilization of Free Gains: - Utilization of operational gains, utilization of solar gains, greenhouse effect, utilization of solar energy in heating and cooling spaces, active systems, passive systems. IV. Protection of Buildings Against Solar Radiation: - Facade protection systems, architectural elements, protective elements for glazed surfaces, passive cooling systems for spaces. V. Building Acoustics: - Fundamental concepts, sounds and noises, noise and acoustic comfort, sound as a physical phenomenon, defining the acoustic field, sound propagation in open spaces, acoustic protection against airborne and impact noise. VI. Room Acoustics: - Sound propagation in enclosed spaces, echo, reverberation, quality criteria for listening rooms, design principles for listening rooms, acoustic treatments, examples. VII. Natural Lighting of Buildings: - Light and architecture, general concepts of photometry, perception of light and color, visual comfort, performance criteria and levels regarding natural lighting, practical implementation of natural lighting for spaces with different purposes. VIII. Artificial Lighting: - Sources of artificial light, lighting fixtures, lighting systems, luminous architectural surfaces, illuminated surfaces, artificial lighting in architecture, innovative systems. IX. Fire Protection of Buildings: - Fire risk, general concept of buildings and fire prevention at the urban planning level, compartmentalization, evacuation routes, reaction to fire, fire resistance.	ARA4204	Architecture	UG/MSc	4th	2 (S)	3
30	Architecture, Town, Society	1. The Relationship Between Architecture, City, and Society: 1.1 Introduction to the Course Topic: - Architecture. Definitions. Functions of Architecture - The City. Definitions. The Role of the City in Society. Types of Cities. The Key Function of the City - Society. Definitions. The Role of Society in the Development of the City 1.2 Inter- and Transdisciplinarity in Architecture and Urbanism 1.3 Determinants of Architectural and Urban Planning Projects2. Defining Sociology as the Science of the Social: 2.1 Precursors of Sociology (Aristotle, Plato, Spinoza, Montesquieu, Hegel) 2.2 Defining Sociology. The First Sociological Theories (A. Comte and E. Durkheim) 2.3 Areas of Interest. Objectives of Sociology. Functions of Sociology as a Science (descriptive, explanatory, critical, and applied). Branches of Contemporary Sociology 2.4 Sociological Categories: - Social Structure - Social Relations. Elements of Social Structure (group, layer, social class) - Status and Social Role. Community 3. The City as a System. Contemporary Urban Phenomena and Processes: - Approaches in Urban Sociology. Classifications. The Pre-Industrial City. The Industrial City 4. Theories in Urban Sociology: 4.1 Theories Developed in the 20th Century. Economic, Political, and Socio-Cultural Context (G. Simmel, the Chicago School - Wirth, R.N. Morris) 4.2 Urban Ecology 5. Housing as a Social Phenomenon: 5.1 Analysis of Housing from a Sociological Perspective 5.2 Types of Housing Related to the Cultural and Economic Values of Society 5.3 Differences in Housing (Rural - Urban). Housing Policies 5.4 Social Determinants of Housing, Inter- and Intra-Family Relations (Neighborly Relations) 6. The City as a Social Phenomenon: 6.1 Social Space. The Psycho-Social Dimension of Urban Space (Perception of the Built Environment, Spatial Behaviors, Urban Image) 6.2 Public Space - Support for Social Events 6.3 The Square and the Street. The Importance of Public Spaces Related to Society's Values and Way of Life 6.4 Urbanity - Urban Life. Analysis of Public Space from a Sociological Perspective 6.5 Contemporary Urban Sociology 7. Landmarks of an Integrated Design of Architecture - City - Society: 7.1 The Social Responsibility of the Architect. The Necessity of Understanding Historical, Economic, and Socio-Cultural Values. Society's Participation in Urban Design Decisions 7.2 The Evolutionary Character of Human Society, Transience (Gradual Evolution vs. Forced Evolution), Dynamics of Housing 7.3 Architecture and Urbanism as an Image of Society	ARA4108	Architecture	UG/MSc	4th	1 (W)	1
31	Sign, Significance in Architecture	1. The Imaginary in Architecture. Rhetoric in Architecture: - The Imaginary in Architecture - Rhetoric in Architecture 2. Architecture and Power. Architecture and Ideology: Stalinist, Fascist, and Nazi Architecture. Totalitarian Architecture in Romania 3. Architectural Significations: Spatial, Functional, and Aesthetic. The Informational Function of Architecture 4. Significations Associated with Built Space: Historical, Cultural, Psycho-Social, Political, and Economic Significations 5. Identity in Architecture. Memory and the Spirit of Place	ARA4110	Architecture	UG/MSc	4th	1 (W)	2
32	Computer Aided Architectural Design	Rhinoceros 5.0 - Virtual Modeling Tools: - Presentation of the Rhinoceros program interface, explanation of topology and NURBS surface concepts. Surface operations. - Grasshopper Plug-in – Mathematical Modeling with Grasshopper and Transposing Mathematical Models into Real Geometry with Rhinoceros. Presentation of the Grasshopper program interface and usual menus. Basic elements specific to working in Rhinoceros and Grasshopper. Studied Topics: - Grasshopper - ArchiCAD Connection - Primary Operations in Grasshopper – Dividing a Curve - Operations with Series, Domains, and Intervals - Data Structures - 2D, 3D Attractors - Graph Mapper – Surface Analysis - Parametric Tower - Parametric Facade with Attractor - Structure with Beams in Two Directions - Voronoi Diagrams - 3D Spatial Structure - PROJECT	ARA4111	Architecture	UG/MSc	4th	1 (W)	2
33	Architectural Rehabilitation	Defining Terms: Architectural Rehabilitation, Conversion, Functional Adaptation (Adaptive Reuse): - Types of Architectural Rehabilitation. Application Areas. Defining the Issues of Architectural Rehabilitation. - Functional Conversion. Changes in the Functional Category of Buildings. - Functional Adaptation (Architecture Reuse). Economically Efficient Rehabilitations. - Eco-Rehabilitation – Adapting Existing Buildings to Contemporary Energy Efficiency Standards. - Types of Architectural Rehabilitation. Application Areas. Theoretical Elements in Architectural Rehabilitation. Formal Operations and Spatial Volumetric Effects. - Consolidations, Structural Interventions. - Stages of the Rehabilitation Project. Compatibility, Incompatibility, and Opportunities in Functional Conversion. - Reference Examples for Architectural Rehabilitation. Case Studies.	ARA4112	Architecture	UG/MSc	4th	1 (W)	2
34	Built Space Psychology	What is Environmental Psychology? - Environmental Cognition - Environmental Attitudes - Natural Disasters - Territoriality and Personal Space - Perception of Shapes and Colors; Chromatic Contrasts and Shape Contrasts - Urban Density - Urban Crowding - Urban Life	ARA4113	Architecture	UG/MSc	4th	1 (W)	2
35	Restaurations	Defining Terms: Restoration, Conservation, Heritage, Monument: - Evolution of the Concept of Historic Monument, Urban Heritage, and Restoration Theory. Restoration Doctrines. - Contemporary Legislation at National and International Levels. Monument Records. Classifications. - Research in the Restoration Process: Surveying, Elements of Architectural Style, Historical Research, Archaeological Research. - Types of Historic Structures. Concepts of Strengthening Historical Buildings. - Causes of Monument Degradation. Restoration Solutions. - Methodology of Conservation and Restoration of Monuments. Documentation and Representation Elements in the Restoration Project. 3D Scanning and Publishing. - Reference Examples of Architectural Restoration. Case Studies. Project Presentation of the Project Theme Documentation of Similar Examples. Analysis Design	ARA4203	Architecture	UG/MSc	4th	2 (S)	4
36	Urban Structures	Urbanization and Urban Society: - Defining the Contemporary Urban Phenomenon - Criteria and Framework Elements in Urban Analysis Urban and Territorial Planning: - General Planning, Strategic Planning, and Spatial Planning - Systems Theory and Modeling of Socio-Spatial Systems - Urban Planning and Territorial Management Documentation Functional and Spatial Structures in the Urban Context: - Urban Textures and Functional States - Zoning, Urban Integration, and Restructuring Urban Morphology and Urban Project: - Levels and Methods of Intervention - Case Studies and Analysis of Significant Examples Project: - Site Analysis, Approach Methods, and Conceptual Schemes - Zonal Urban Plan (detailed) - Graphic Representation of Urban Planning Regulation Elements within a Low-Complexity Urban Planning Approach - Plotting Plan and Housing Placement - Study of Area Organization with Presentation of Main Urban Planning Regulation Elements (alignments, height regime, groupings, land occupation mode)	ARA4206	Architecture	UG/MSc	4th	2 (S)	3
37	Urban Ecology	Necessity and Opportunity of the Course. Terms Used. General Concepts of Ecology: Urbanism, Environment, Ecology, Ecosystem: Urban Ecology: Definitions, Multidisciplinary Science, General Concepts. Course Objectives. Current Context. Environmental Issues at Global, Zonal, and Local Levels: Ecosystem: Functions and Benefits of Ecosystems; Urban Ecosystem/City Ecosystems; Definition, Concept, and Structure. Ecological Principles in the Urban Landscape: Global Warming Phenomenon: Causes, Phenomenology, Propagation Mechanisms, and Short- and Long-Term Effects. Greenhouse Effect. CO2 Equivalent – Carbon Footprint. Human Health: Sources of Pollution (Water, Air, Soil): Major Sources, Permanent and Non-Permanent Sources: Urban Climate; Specific Microclimate; Solar Radiation; Temperature; Air Movements/Ventilation; Urban Heat Island (UHI) and Climatic Effects of Urbanization. Urban Hydrology, Water Cycle in Nature, Rainwater - Domestic Water (Purification and Treatment); Rainwater: Harvesting, Storage, Purification, and Utilization – Classical Methods, Eco Methods. Urban Soils, Texture, pH, Residues, Composition (Access to Water, Air, Nutrients), Maintaining Life in Soil: Urban Development: Scenarios, Effects on the Environment and Population. Role and Importance of Green Spaces in the Urban Matrix. Biodiversity Conservation: Urban Environment and Surrounding Environment. Factors Influencing Physical-Spatial Characteristics. Interdependencies. Consequences: Urban Habitats: Biodiversity, Urban Flora and Fauna. Adaptability, Life Expectancy in Urban vs. Natural Environment: Sustainable Development. Generalities, Concept Clarifications, Origin of the Term. Conditions and Actions for Maintaining the Balance Between Built Environment/Natural Environment Through the Lens of Sustainable Development Concept: Quality of Life in Large Cities. Subjective and Objective Perception. Factors Contributing to the Increase or Decrease of Quality of Life in Large Cities. Sustainable Urban Development: Role of Landscape in Ecological Planning Studies. General Framework, Landscape as a Resource of the Environment. Procedures for Integrating Landscape into the Urban Framework: Ecological Issues of the Urban Matrix: Stages of an Urban Intervention for Maintaining Urban Sustainability in Relation to the Environment: Environmental Management. Assessing the Impact of the Built Environment on the Natural Environment. Impact Assessment Limits, Current Trends. Classification of Environmental Management Projects: Natural Disasters, Source of Ecological Imbalance. Causes and Effects: Project: Presentation of Exercises with Specific Themes, Correlated with the Course Material: - Presentation to Students of Representative Examples - Analysis of Examples of Urban Problem Solving Through Urban Interventions Based on Sustainable Development Principles - Evaluation Session, Critical Discussions on Proposed Interventions	ARA4209	Architecture	UG/MSc	4th	2 (S)	3
38	Architectural Complex Design	1.House of Music: Urban Integration Study: Functional Integration Volumetric Integration Study of the Cultural Program: Concert Hall Rehearsal Rooms, Exhibition and Leisure Spaces Complementary Functions (Cafes, Restaurants) 2. Sketch	ARA5101	Architecture	UG/MSc	5th	1(W)	13
39	Architectural Complex Design	1. Hybrid Building: - Urban Integration Study: - Functional Integration - Volumetric Integration - Study of the Services/Offices Program: - Conference Rooms - Sports and Leisure Facilities - Complementary Functions (Cafes, Restaurants) 2. Sketch	ARA5201	Architecture	UG/MSc	5th	2 (S)	13
40	Urban Composition	1. Defining Elements of the Compositional Process: Theories and Aesthetic Concepts Methods of Composition of Urban Ensembles: Procedures, Means, and Compositional Effects 2. Reading the Urban Spatial Structure Urban Image Urban Spatial Forms Urban Spatial Differentiation Urban Space Plasticity 3. Analysis of Significant Examples Evaluation Criteria and Analysis Grids Case Studies – Urban Ensembles and Public Squares	ARA5103	Architecture	UG/MSc	5th	1(W)	3
41	Urban Composition	Project Studies for the Organization of Urban Areas: Presentation of the Main Elements of Urban Planning Regulations (alignments, height regime, groupings, land occupation mode) Graphic Representation at the Level of a Zonal and Detailed Urban Plan	ARA5203	Architecture	UG/MSc	5th	2 (S)	2
42	Landscape Architecture	1. Introduction. The general structure of course. Context. The definition of the concept of LANDSCAPE. The relation between LANDSCAPE-SITE-URBAN FRAME-ENVIRONMENT ARCHITECTURAL OBJECT. 2. Classification, typology; elements of sensitive reading of Landscape. 3. Landscape structure. The relationship between environment, Site, Urban framework, object architecture. The relation between Building and Landscape. 4. Garden - philosophical and aesthetic direction. Cosmogonic theories. Archetypes garden. Site and sacredness. 5. Elements of language on reading and interpreting the landscape. Relationship Architecture / Construction / Frame Urban / Landscape / City. 6. Perceptual, aesthetic, symbolic, functional, cultural and historical Tools. Intervention in the landscape. 7. Evolution of Art Gardens. Landscape gardens styles: characteristics, evolution. 8. Landscape styles: modern tendencies of style development. Aesthetic principles and categories in landscape design. Functional and esthetic and landscape architecture. 9. Patterns of green spaces. Classifications, categories, features. 10. Designing urban green spaces. Green function. The green areas in the city.	ARA5105	Architecture	UG/MSc	5th	1(W)	2
43	Landscape Architecture	Project 1. Short Project: Study Project of Composition Rules and Landscape Styles – Urban Acupuncture 2. Long Project: Final Study Project of Composition Rules and Landscape Styles - Urban Parks	ARA5205	Architecture	UG/MSc	5th	2 (S)	2
44	Design	1. The Issue of Design: - Technosphere and the Technical Phenomenon - Premises for the Emergence and Development of Industrial Design 2. The History of Design: - Currents in Art and Design - Pioneers of Modern Design and Architecture - Premises - Modern Design - Contemporary Design 3. The Basics of Design Perception: - Function and Form - The Life of Form in Design 4. Form, Color, Light: - Style, Ornament, Design - Significance and Color Codes 5. Creativity (Creatology): - Psychological Theories and Techniques for Stimulating Creativity - The Issue of Design Methodology 6. Stages of the Creative Process: - Genesis of Creativity - Theories on Creativity 7. Advertising Graphics: - Packaging	ARA5106	Architecture	UG/MSc	5th	1(W)	2
45	Design	Project Presentation of Theme - Analysis of an Interior Design Project: - Analysis of Student Documentation - Presentation by Students of Analysis Schemes - Individual/Team Guidance Activities - Self-Evaluation Session, Critical Discussions on Detailed Analyzed Examples, Analysis of Own Projects, Presentation and Defense of the Design Project, Approaches, and Design Principles Used	ARA5106	Architecture	UG/MSc	5th	2(S)	2
46	Ecological Architecture		ARA5109	Architecture	UG/MSc	5th	1(W)	4
47	Practical Training - Research Methods in Architecture		ARA5209	Architecture	Architecture	5th	2 (S)	2
48	Communication techniques in architecture		ARA5211	Architecture	UG/MSc	5th	2 (S)	2

Faculty of Automatic Control and Computer Engineering

No.	Name of the course	Main Chapters	Study Plan Code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Discrete Event Systems	Untimed Petri Net (PN) models; Behavioral and structural properties of PNs; Design of discrete event systems based on PN models. PN models with deterministic timing. Applications to physical systems modelling	AIA306	Computer and Control Engineering	Undergraduate	3	2	3
2	Queueing Systems	Modeling and analysis of homogeneous discrete-time / continuous-time Markov chains. Modeling and analysis of markovian queueing systems. Theoretical and experimental study of some typical applications (operating, manufacturing, communications, transportation systems). Usage of MATLAB (Statistics and Machine Learning. Toolbox, SimEvents, Petri Net Toolbox)	IA414	Computer and Control Engineering	Undergraduate	4	1	4
3	Microprocessor-Based Systems	8051 Architecture, 8051 Assembly language programming 8051 C programming 8051 Timer/Counter operation 8051 Serial communication 8051 Interrupt programming 8051 Interfacing External Memory and Peripherals	AIA302	Computer and Control Engineering	Undergraduate	3	1	5
4	Data transmission	Transmission media. Error detection and correction. Baseband data transmission. Modulation techniques	AIA402	Computer and Control Engineering	Undergraduate	4	1	4
5	Remote process control	Networked control systems modeling and control. Remote predictive control	A416	Computer and Control Engineering	Undergraduate	4	2	5
6	Pneumatic Drives	Properties of Compressed Air. Thermodynamic Processes. Engineering Flow Rate Calculations. Electro-Mechanical Converters. Cylinders. Directional Control Valves. Shut-Off Valves. Proportional Directional Control Valves. Designing pneumatic circuit	A313	Computer and Control Engineering	Undergraduate	3	1	5
7	Real -Time Applications	Scheduler. Tasks. ISRs. Communication via message queues. Semaphores for sharing passive resources. Trace faciilities and hooks	AIA403	Computer and Control Engineering	Undergraduate	4	1	5
8	Neural Networks and Fuzzy Logic	Architecture. Approximation. Classification Identification and control). Fuzzy systems (sets, logic, control)	IA418	Computer and Control Engineering	Undergraduate	4	2	5
9	Statistics and Data Processing		AIA211	Computer and Control Engineering	Undergraduate	2	2	5
10	Control Engineering	Continuous Control Systems Design: Tuning PID controllers, Pole placement design, Complex control systems design- cascade, feedforward, ratio and split range control, Smith predictor; Digital Control Systems Design: Pole placement in discrete time, Dead-beat control, Non-interacting control of multivariable systems, State space control, Predictive control	AIA401	Computer and Control Engineering	Undergraduate	4	1	4
11	Robotics	Industrial robots. Forward and inverse kinematics. Robot workspace. Path planning. Robot programming	AIA305	Computer and Control Engineering	Undergraduate	3	2	4
12	Knowledge based systems	Knowledge representation. First order logics. Resolution. Semantic networks. Frames. Expert systems. Rule-based programming	IA413	Computer and Control Engineering	Undergraduate	4	1	4
13	Fundamentals of Feedback Control	Linear transfer function/state space system models. Stability analysis. Time domain analysis of dynamic systems. Frequency response and Bode plots	AIA207	Computer and Control Engineering	Undergraduate	2	2	5
14	Data Security		TI.DS.417	Computer and Control Engineering	Undergraduate	4	2	4

Faculty of Civil Engineering and Building Services

No.	Name of the course	Main Chapters	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Roads 1		CF302	Civil Engineering	UG	3	1	5
2	Roads 2		CF310	Civil Engineering	UG	3	2	5
3	Reinforced Concrete and Reinforced Concrete Bridges 1		CF312	Civil Engineering	UG	3	2	4
4	Steel Bridges 1		CF313	Civil Engineering	UG	3	2	4
5	Computer Assisted Design for Roads and Bridges		CF314	Civil Engineering	UG	3	2	3
6	Reinforced Concrete and Reinforced Concrete Bridges 2		CF402	Civil Engineering	UG	4	1	5
7	Steel Bridges 2		CF403	Civil Engineering	UG	4	1	6
8	Roads 3		CF404	Civil Engineering	UG	4	1	5
9	Road rehabilitation		CF409	Civil Engineering	UG	4	1	3
10	Bridge rehabilitation		CF411	Civil Engineering	UG	4	2	3
11	Road and highway traffic		CF412	Civil Engineering	UG	4	2	3
12	Computer Aided Design		CI309	Civil Engineering	UG	3	2	3
13	Electrical Installations 1		CI311	Civil Engineering	UG	3	2	4
14	Electrical Installations 2		CI404	Civil Engineering	UG	4	1	5
15	Applied Informatics		CI305	Civil Engineering	UG	3	1	4
16	Heating Systems 1		CI301	Civil Engineering	UG	3	1	4
17	Heating Systems 2		CI307	Civil Engineering	UG	3	2	5
18	Descriptive Geometry	1) Introduction: Short history. Projection systems: central projection system and parallel projection system. 2) The point: Plotting of a point in double orthogonal projection. Plotting of a point in treble orthogonal projection. Characteristic positions of a point. Descriptive alphabet of a point.3) The line: Line’s projections. Line’s traces. Characteristic positions of a line. Relative positions of two lines. Finding the true length of a line segment. 4) The plane: Generating a plane. Plane’s traces. Planes parallel to projection planes. Planes perpendicular to projection planes. Relative positions of two planes. 5) The line and the plane: Finding the distance between a point and a plane. Visibility in draught. 6) Methods of Descriptive Geometry: Method of replacing the projection planes. Method of revolution. Method of folding. 7) Polyhedra: Plotting of polyhedra. Plane sections through polyhedra. Development of polyhedral surfaces. Intersection of a line with a polyhedron. Polyhedra intersections.	CE105	Civil Engineering	UG	1	1	3
19	Fundamentals of Fire Safety in Civil Engineering		CE308	Civil Engineering	UG	3	1	2
20	Fire Safety Engineering		ISE.IA.201	Civil Engineering	M	2	1	4
21	Engineering Geology	Introduction to Geology Mineral and Rocks Planetary Geology The Erath Volcanoes Earthquakes Plate Tectonics	CC203	Civil Engineering	UG	2	1	3
22	Foundations under special conditions	Soils with large swellings and shrinkages. Soils sensitive to wetting. Technologies for improving difficult foundations	CC413	Civil Engineering	UG	4	2	3
23	Special problems of foundations	Soils with large swellings and shrinkages. Soils sensitive to wetting. Technologies for improving difficult foundations	CF413	Civil Engineering	UG	4	2	3
24	Complements of engineering geology		IG.IA.114	Civil Engineering	M	1	2	3
25	Foundations for special constructions		IG.IA.204	Civil Engineering	M	2	1	3
26	Special geotechnical problems and foundations for transport infrastructures		IMT.IA.206	Civil Engineering	M	2	1	3
27	Ventilation and Air Conditioning systems 1	1.Introduction to HVAC Systems 2. Fundamentals of Heat Transfer 3. Indoor Air Quality (IAQ) 4.Ventilation Systems	CI302	Civil Engineering	UG	3	1	4
28	Ventilation and Air Conditioning systems 2	1. Air Conditioning Systems 2.Components of HVAC Systems 3. HVAC Design and Sizing 4. Energy Efficiency in HVAC	CI308	Civil Engineering	UG	3	2	5
29	Civil Buildings	1. Classification of constructions and buildings. Buildings components 2. Basic requirements for construction works. Performance concept. Technical specifications. Design and construction legislation in Romania. 3. Dimensional coordination and tolerances in constructions 4. Actions on structures. Classification and evaluation of actions 5. General notions on building engineering physics	CC213	Civil Engineering	UG	2	2	3

Faculty of Machine Manufacturing and Industrial Management

No.	Name of the course	Main Chapters	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Chemistry	Introductory notions (atoms and molecules; chemical bonds; substances and mixtures of substances; laws of chemistry); Chemical thermodynamics; Chemical kinetics; Chemical equilibrium; Electrochemistry; Corrosion and corrosion protection; Chemistry of lubricants; Water: industrial water and wastewater; Macromolecular compounds applied in the technics.	IInd-1.05.DF	Industrial Engineering	Undergraduate	1	1	2
2	Theoretical Mechanics 1	Systems of forces; center of mass; statics of particle, statics of the rigid body statics of systems; particle kinematics; rigid body kinematics; dynamics of the particle; rigid body dynamics (Getting Started)	IInd-2.04-DID	Industrial Engineering	Undergraduate	1	2	6
3	Theoretical Mechanics 2	Rigid body dynamics (physical values, principles, theorems); moments of inertia; particular dynamics of rigid body motions; elements of analytical mechanics - D'Alembert dynamic equilibrium equations.	IInd-3.04-DID	Industrial Engineering	Undergraduate	2	1	3
4	Mechanics	Systems of forces; center of mass; statics of particle, statics of the rigid body statics of systems; particle kinematics; rigid body kinematics.	IMan-2-04-DID-T	Engineering and Management	Undergraduate	2	2	6
5	Tolerance and dimensional control	I. Liniar dimensions (Characteristics of the ISO tolerances and fits system, selection of tolerances and fits), II. Surfaces macrogeometrical form III. Orientation and relative position/location deviation IV. Control of angles between plane surfaces V. Conical surfaces, VI. Threads VII Keyway joints, VIII Gears	IInd-4.04-DID	Mechanical engineering, Industrial engineering, Engineering and management	Undergraduate	2	2	5
6	Fluid Mechanics (1)	1. Physical properties of fluids. 2. Basics of tensor calculus in orthonormal bases. 3. Fluid kynematics. 4. Fundamental equations of fluid mechanics. 5. Fluid statics. 6. Fluid dynamics	IInd-4.03-DID	Mechanical engineering, Industrial engineering, Engineering and management	Undergraduate	2	2	5
7	Engineering Thermodynamics	Introduction (Systems. Thermodynamic state and properties. Thermodynamic equilibrium. Reversible and irreversible processes); The first law (Different statements of the first law. The first law for closed and open systems); The ideal gas ( Ideal gas laws. Specific heats. Ideal gas mixtures. Analysis of ideal gas processes); The second law (Cycles, balance equation, efficiency of direct and reverse cycles. The Carnot cycle. Different statements of the second law. Entropy and the second law for reversible and irreversible processes); Real gases (Andrews isotherms. Compressibility factor. Generalized compressibility chart. Virial equations of state); Vapor cycles (Saturated liquid, saturated vapor and superheated vapor properties. Phase diagrams. Vapor power and refrigeration cycles); Ideal gas cycles (Internal combustion engines. Vapor-compression refrigeration cycle. Gas turbines); Humid air ( Properties. Mollier diagram. Air conditioning processes)	CMMI.L-4.08	Mechanical engineering, Industrial engineering, Engineering and management	Undergraduate	2	2	3
8	Electrical engineering and applied electronics	Direct current electrical circuits, elements of electrodynamics, magnetic materials, magnetic field, alternative current, elements of circuits in a.c., electric transformers, electric machines in c.c and a.c. Electronic devices, semiconductor diode, bipolar transistor, thyristor,amplifiers, logic integrated circuits definitions, logical functions, combinational logic circuits.	CMMI-L-5.07a	Mechanical engineering, Industrial engineering, Engineering and management	Undergraduate	3	1	6
9	Aerodynamics of Airfoil Cascades (1)	1. Theoretical bases of potential flows 2. Steady plane potential flows 3. Steady hydrodynamics of isolated airfoils	IMEC-6.03.DID	Mechanical engineering	Undergraduate	3	1	3
10	Aerodynamics of Airfoil Cascades (2)	1. Introduction in vortex theory 2. Aerodynamics of finite wing 3. Bases of hydrodynamics of airfoil cascades 4. Steady hydrodynamics of linear airfoil cascades	MSHP-6.05-DS	Mechanical engineering	Undergraduate	3	2	4
11	Sheet Metal Cold Forming Technology I	Sheet Metal Cold Forming Technology I	TCM-6.04-DS	Industrial engineering	Undergraduate	3	2	5
12	Sheet Metal Cold Forming Technology II	Sheet Metal Cold Forming Technology II	TCM-7.03-DS	Industrial engineering	Undergraduate	4	1	5
13	Computer aided manufacturing – CAM systems	• General and Technological principles of CAM technologies • Software: Cimco, NX CAM, ESPRIT, MASTERCAM • Data management over the life of products • Applications.	CMMI-TCM-7.04	Industrial engineering	Undergraduate	4	1	7
14	Processing technologies on numerically controlled machine tools	• Design process quality assurance tools • Technological principles used in machining by means of CNC • Basic concepts of technological design in the G format • Applications.	CMMI-TCM-7.07	Industrial engineering	Undergraduate	4	1	5
15	Computer aided design	Computer aided design	CMMI-IEDM-7.05	Engineering and management	Undergraduate	4	1	5
16	Computer aided design of the manufacturing systems 1	Computer aided design of the manufacturing systems 1	CMMI-SPD-7.06	Industrial engineering	Undergraduate	4	1	3
17	Pumps, Blowers and Fans 1	Generalities; Basic notions regarding turbo-pumps. Similitude and modeling of hydraulic machines. Fundamentals of hydrodynamic processes in turbo-pumps. Centrifugal pumps. Axial pumps.	MSHP-7.03-DS	Mechanical engineering	Undergraduate	4	1	4
18	Pressure Welding Tehchnology 2	General presentation of the welding pressure processes, Classification of the welding processes, Presentation of the main welding pressure processes (Resistance spot welding, Resistance seam Welding, Projection welding, Seam Welding, Friction Stir Welding, Duble Head Friction Welding, Fash Welding), Weldinfg defects, Development and approval of the Welding Procedure Specifications.	IS-7.04-DS	Industrial engineering	Undergraduate	4	1	3
19	Pumps, Blowers and Fans 2	Specific force on turbo-pumps elements and their equilibration. Characteristic curves of turbo-pumps. Cavitations in turbo-pumps. Basic notions regarding fans and turbo-blowers. Fundamentals of gas-dynamic processes in fans and turbo-blowers. Centrifugal and axial fans and turbo-blowers. Cross-flow fans. Characteristic curves for fans and turbo-blowers. Fan noises. Lobe blowers (Roots).	MSHP-8.01-DS	Mechanical engineering	Undergraduate	4	2	6
20	Computer aided design	Computer aided design	CMMI-MFNT-8.01	Mechanical engineering	Undergraduate	4	2	5
21	Computer aided design of the manufacturing systems 2	Computer aided design of the manufacturing systems 2	CMMI-SPD-8.05	Industrial engineering	Undergraduate	4	2	3
22	Hydroelectric power plants	1) Power engineering basics. 2) Hydrology and hydraulics basics. Hydrological circle. 3)Types of hydropower plants and integration of hydroelectric power plants in the electric power system. Pumped storage plants. 4) Electro-Hydromechanic components of a hydropower plant : turbines, valves, generators, transformers. Selection of the turbine, according to operating conditions. 5) Main components of hydropower structures: dams, gates, spillway, reservoir, water intake, headrace, pressure shaft/surge chamber, penstock, powerhouse, dissipation structures, fish passage, tailrace. 6) Monitoring and control of hydropower plants.	MSHP-8.04-DS	Mechanical engineering	Undergraduate	4	2	4
23	Advanced Welding Technologies	The role of advanced technologies in the development of humanity: primary technologies, mature technologies and emerging technologies; civilization through technological development. Advanced welding technologies usable in the 21st century. The role of the microprocessor in advanced manufacturing/welding technologies. Advanced welding technologies that use thermal plasma. Advanced welding technologies that use the particle beam. Weldability of new materials and WAAM concept in welding technologies. Econometrics of advanced welding technologies.	TAF-IA-104	Industrial engineering	Master	5	1	4
24	Dynamic Systems in Mechanical Enginering Introduction to fundamentals of system modeling	Types of causal models and remarkable properties. Systematic overview of some fundamental laws in Physics. Analogies between various physical domains. Modeling mechanical and hybrid systems by the bond-graph language. Controlled elements in the bond-graph language. Presentation of some specific software (20-SIM, Mathcad, MATLAB) with applications.	TAF-IA-105	Industrial engineering	Master	5	1	5
25	Computer aided management of the industrial products	Computer aided management of the industrial products	CFAC-IA-108	Industrial engineering	Master	5	2	5
26	Maintenance Management	The management of the ”Production - Quality - Maintenance” triplet; The information system of the maintenance management; Dependability strategic management; Maintenance systems; FMECA	CMMI-IEDM-7.02	Engineering and Management	Undergraduate	4	1	5
27	Total Quality Management: Quality management tools, tools and techniques	Standards for quality systems, environmental management systems, occupational health and safety management etc.; Standardization, Certification, Accreditation in Romania and worldwide; Stakeholders and processes within a company. Capability of processes. Six sigma. Benchmarking. Competitive engineering. Designing of experiments. Quality Engineering in Taguchi's vision. Techniques for defect analysis.	AI-IA-107	Engineering and Management	Master	5	2	4
28	Statistical Data Processing	Elements of descriptive statistics; Types of graphical representations; Normal, poisson, uniform, Weibull, exponential dispersions and percentage calculus; Elimination of data affected by aberrant errors from simple data strings: Chauvenet’s criterion, Peirce’s criterion; Elimination of data affected by aberrant errors from grouped data series: Cochran’s criterion, Bartlett test. Testing of statistical hypotheses; thresholds of significance; interpreting the results. Kolmogorov-Smirnov test, ?2, T. ANOVA procedure. The correlation between two quantitative variables. Assigning qualitative variables (nominal). Linear, nonlinear regression, other types. Gray's analysis. Time series.	AI-IA-104	Engineering and Management	Master	5	1	4
29	Conex Welding processes: A new approach to making an welding process	A new approach to making an welding process	CMMI-IS-7.06	Engineering and Industrial	Undergraduate	4	1	4
30	Machine-Tools & Cutting 1	Cutting Parameters, Chip Formation, Cutting Forces, Wear & Tool's Life, Kinematic Chains, Structural Elements of Machine-Tools, Speed Control Mechanisms	IMec-5.02-DID	Mechanical engineering	Undergraduate	3	1	6
31	Cutting Fundamentals	Surface generation, Kinematics, Cutting Parameters, Chip Formation, Plastic deformation, Cutting Forces, Heat, Wear & Tool's Life, Cutting Surface Quality	IInd-6.02-DID	Industrial engineering	Undergraduate	3	1	6
32	Nonconventional Technologies	Electrical Discharge Machining, Electrochemical machining, Chemical Machining, Plasma and ion beam manufacturing processes, Ultrasonic manufacturing processes, Laser beam manufacturing processes, Electron beam manufacturing processes, Sand blasting, abrasive water jet cutting, Additive manufacturing, Welding technologies (ultrasonic welding, friction welding, laser, electron beam welding), surface coating technologies.	CMMI-TCM-8.02	Industrial engineering	Undergraduate	4	2	4
33	Advanced technologies of mechanical machining and assembling	Integrated manufacturing - IT structures in integrated manufacturing and their inter-relationship, next generation manufacturing and the virtual enterprise. Advanced machining technologies. Advanced finishing and over-finishing technologies. Rapid prototyping technologies. Additive manufacturing. Advanced assembly technologies: DFA- design for assembly and DFMA- design for manufacturing and assembling; types, peculiarities and advantages of fully mechanical assemblies, technologies and advanced equipment for assembling plastic and glass parts, automation and robotization in assembly processes.	TAF-IA-103	Industrial engineering	Master	5	1	5
34	Fundamentals of Scientific Research	Fundamentals of Scientific Research	MPI, TAF-IA-110	Industrial engineering	Master	5	2	6
35	Optimization of Manufacturing Technologies	The principle of choosing the manufacturing technology process. Existence and uniqueness of the optimal solution without / with restrictions. Algorithms for optimizing problems dependent on a single variable / multiple variables without / with restriction. Dynamic optimization algorithms. General optimization by the Monte Carlo method. Heuristic, metaheuristic algorithms (Greedy type algorithms). Heuristic, metaheuristic algorithms (Tabu Search type algorithms). Combinatorial optimization. The problem of the travel agent. Determining the minimum path. Johnson's algorithm. Optimizing the launch of products in manufacturing. Establishment of reference values ??for the representative sizes accepted for the optimization criteria.	CMMI-TCM-8.09	Industrial engineering	Undergraduate	4	2	3
36	Physics	Physics	DIMA-109.DF DI	Industrial Engineering	Undergraduate	1	1	4
37	Physics 1, Physics 2	Physics 1, Physics 2	EDIF 132 Physics 1, EDIF139 Physics 2	Electronic Engineering, Telecommunications and Information Technologies	Undergraduate	1	1 and 2	3 for sem.I, and 4 for sem.II
38	Computer aided manufacturing technologies	• Programming in Gcode • Computer Assisted programming • Software • Materials and machining regimes • Postprocessors.	CMMI –MPI-IA-107	Industrial engineering	Master	1	2	6

Faculty of Industrial Design and Business Management

No.	Name of the course	Main Chapters	Study Plan code	Field of study	Level of study (Undergraduate/Master)	Year of study	Semester (1/2)	No. of ECTS
1	CAD in Knitting Technology I	Introduction in M1plus Stoll Software. Main tools for programming the weft knitted fabrics.	312.DS.DI	Industrial Engineering	UG	3	2	3
2	CAD in Knitting Technology II	Programming of basic weft knitted fabrics on M1plus Stoll Software	406.DS.DI	Industrial Engineering	UG	4	1	6
3	Flat knitting technology II	Stoll automatic weft flat knitting machines	403.DS.DI	Industrial Engineering	UG	4	1	6
4	Elements of Textile Design	Introduction in design/textile design. Structural design of textiles. Aesthetic textile design. Theory of colour. Textile design - Aplications.	113.DID	Industrial Engineering	UG	1	2	5
5	Industrial Design - Woven Fabrics	Woven fabrics structural characteristics. Geometrical modelling of woven fabrics. The mass and thickness of woven fabrics - calculus methods. Structural factors for woven fabrics. Technical calculations on reed and shafts.	314.DS.DI	Industrial Engineering	UG	3	2	4
6	Textile structures - Woven fabrics	Introduction to the field of woven fabrics structures. Functional design of woven fabrics (properties, construction parameters, structure/properties correlation). Drawing the draft for dobby weaving machines. Weave structures for simple woven fabrics. Compound woven fabrics (structural variants, construction method for double-face and double-layer weave structures). Aesthetic design of the woven fabrics (colour-and-weave effect, colour combinations).	207.DID.DI	Industrial Engineering	UG	2	2	4
7	CAD - Woven fabrics	Major software manufacturers for CAD – Woven fabrics. Software classification. General/specific features. The operating mode for generating the weave pattern/draft/colour-and-weave effect/woven fabric simulation. 3D-modelling of simple and compound woven fabrics.	402.DS.DI	Industrial Engineering	UG	4	1	5
8	Metrology in Textile and Leather	Metrology and links to the textile quality control. Standardization and standards. Textile metrology and applicable standards. The accuracy of a measurement process applied to textile/leather products: the essentials. Quality control strategies and protocols. Textile testing: from normative documents to protocols and practice. Customising the testing plan with measurements for the quality control of a textile material / product with specified end-use.	204 DID DI	Industrial Engineering	UG	2	1	4
9	Computer Aided Graphics II	Corel Draw - basic principles; sketches drawing; interactive effects; advertising models / Google SketchUp - basic principles; basic 3D models; advanced 3D models	202.DF.DI	Industrial Engineering	UG	2	1	6
10	Basics of computer aided technological design	Module 1 – Autocad 2D; Module 2 –Autocad3D; Module 3 –Inventor	203.DID.DI	Industrial Engineering	UG	2	2	4
11	Industrial Technologies –YARNS	Raw materials in spinning mills; Processing lines in spinning mills; Fiber preparation for carding; Carding; Doubling and drafting; Combing; Roving formation; Ring spinning; Rotor spinning.	302.DS.DI	Industrial Engineering	UG	3	1	4
12	General engineering in textiles & leather I	Introduction to textiles: Textile products and materials. Transforming fiber to yarn - Spinning mill. Woven fabric manufacturing – Weaving	110.DID.DI	Industrial engineering	UG	1	1	5
13	Structure and design of woven fabrics	Double cloth (backed weaves, double weaves double cloth, double cloth pocket cloth. Special compound woven fabrics (weft and warp pile fabrics, terry pile structures, surface figured weaves – pigué, lappet weaves)Multi-layer technical fabrics.	303.DID.DI	Industrial engineering	UG	3	1	6
14	Industrial technologies - woven fabrics	Short history of weaving, Raw materials, Yarn processing processes for fabrics manufacturing, Winding, Twisting, Warping (direct and sectional warping), Sizing, Drawing and knotting, Quilling, Weaving (classification of weaving machines, principle of weaving, shuttle, projectile, rapier and jer weaving machines, multiphase weaving, shedding systems)	303.DS.DI	Industrial engineering	UG	3	1	5
15	Textile Structures – Yarns	Main chapters: Yarns classification. The classification of yarns structure, the technological flow influence of the yarns structure, yarns structure, geometric structure implications. The characteristics of blend: blending objectives, types of proportions also connection relations among them, determination of the blend average characteristics. The characteristics of yarns: fineness, torsion, bulky, hairness, shrinkage, tensile strength (breaking force), elongation at break, stress-elongation curve, frictional behavior, bending behavior. Structure and the characteristics of twisted yarn, unconventional, fancy and special purpose yarns. Structure and characteristics of sewing thread.	205.DID.DI	Industrial Engineering	UG	2	1	5
16	Industrial Design – Yarns	Main chapters: Introduction. Types of yarn. Filability – theoretical aspects. Design of the fibre blend. Yarn design. The transfer of fibre characteristics in yarn characteristics. Fancy yarns design. Sewing thread design.	313.DS.DI	Industrial Engineering	UG	3	2	4
17	Industrial Design-clothing	Industrial design pattern making and grading of different category of textile garments. Design the garment tech pack	305.DS.DI	Industrial Engineering	UG	3	2	5
18	CAD-clothing	CAD functions for designing patterns. CAD functions to realize markers.	311.DS.DI	Industrial Engineering	UG	3	2	5
19	Textile Structures - Knitted Fabrics	Weft knitted fabrics - basic evolutions, colour patterns, miss stitches, tuck stitches, transferred stitches, jacquard	208.DID.DI	Industrial Engineering	UG	2	1	5
20	Aromatherapeutic Textiles	Essential oils, textile materials used for topical applications, application of microparticles on textile substrates, analysis of aromatherapeutic textiles	EFT.IA.101	Chemical engineering	MSc	1	1	7
21	The basics of footwear and leather goods technology I	Cutting technologies, Preparation technologies (splitting, skiving, punching, bending, etc)	303 DS.DI	Industrial engineering	UG	3	1	6
22	The basics of footwear and leather goods technology II	Stitching technologies for upper and sole, Bonding technologies, Lasting technologies)	303 DS.DI	Industrial engineering	UG	3	2	6
23	Design and technology of leather goods	Design and technology of small leather goods products, Design and technology of mediun leather goods products)	407 DS.DI	Industrial engineering	UG	4	1	6
24	Footwear comfort	Anatomy and biomechanics of the foot, Comfort components, Evaluation of foot comfort)	DPPIM.IA.103	Industrial engineering	MSc	1	1	5
25	Carbon footprint analysis in footwear industry	Carbon footprint analysis in footwear industry	DPPIM.IA.109	Industrial engineering	MSc	1	2	5
26	Knitting fundamentals (I)	Yarn preparation for knitting; Principles of loop formation; Basic knitting elements; Principles of weft knitting. Knitting cams; Principles of needle selection.	302.DID.DI	Industrial engineering	UG	3	1	6
27	Knitting fundamentals (II)	General classification and technical data of knitting machines. Basics on working mechanisms of weft and warp knitting machines. Technological parameters in knitting. Principles of producing different structures and forms on weft and warp knitting machines.	303.DID.DI	Industrial engineering	UG	3	2	4
28	Color measurement	Basics of color physics and physiology. Color attributes. Systems for color ordering. Color models. CIELab color space. Color matching in textile dyeing. Color difference. Instruments for color matching in the textile industry	411.DIS.DO	Chemical engineering	UG	4	1	3
29	Basic Footwear Modelling and Pattern Making I, II	Foot anatomy, footwear structure and functions, mean forme, 3D modelling, 2D construction, manual pattern making	302.DS.DI	Industrial Engineering	UG	3	1 and 2	7+6
30	Moulds for footwear	2D/3D CAD sole and heels modelling	306.DS.DI	Industrial Engineering	UG	3	1 and 2	5+4
31	Footwear Computer Aided Design I	Footwear Computer Aided Design I	309.DS.DI	Industrial Engineering	UG	3	2	7
32	Footwear Manufacturing Processes	Footwear Manufacturing Processes	403.DS.DI	Industrial Engineering	UG	4	2	5
33	Footwear and Leather Goods Fashion Design I	Priciples of design, trends,concept, target group, moodboard	405.DS.DI	Industrial Engineering	UG	4	1	6
34	Footwear and Leather Goods Fashion Design II	Product diversification, innovative concepts for footwear collections	406.DS.DI	Industrial Engineering	UG	4	2	4
35	Footwear Computer Aided Design II	Footwear Computer Aided Design II	412.DS.DI	Industrial Engineering	UG	4	1	6
36	Product innovation in footwear industry	Product innovation in footwear industry	DPPIM.IA.201	Industrial Engineering	MSc	1	1	4
37	Special footwear design and technology 2	Orthopedic footwear	DPPIM.IA.106	Industrial Engineering	MSc	1	2	5
38	CAD for footwear and leather goods	3D CAD modelling and 2D CAD pattern making	DPPIM.IA.101	Industrial Engineering	MSc	1	1	5
39	Logistics Management	Logistics Management	IMA.405.DS.DI	Engineering and Management	UG	4	1	4
40	Quality Management	Quality Management	IMA.302.DID.DI	Engineering and Management	UG	3	1	5
41	Quality Management	Quality Management	MAA.110.DA.DI	Engineering and Management	MSc	1	2	5
42	The Basics of Systems Engineering	The Basics of Systems Engineering	IMA.206.DS.DI	Engineering and Management	UG	2	1	4
43	Fundamentals of management	Fundamentals of management	IMA.101.DID.DI	Engineering and Management	UG	1	1	5
44	Strategic Management	Strategic Management	MAA.202.DA.DI	Engineering and Management	MSc	2	1	6
45	Product Lifecycle Management	Product Lifecycle Management	MAA.1 03.DA.DI	Engineering and Management	MSc	1	2	4
46	Marketing research	Marketing research	IMA.317.DS.DO	Engineering and Management	UG	3	2	4
47	Marketing research	Marketing research	MAA.115.DS.DO	Engineering and Management	MSc	1	1	4
48	Fundamentals of economics (I)	Microeconomics	IMA.103.DF.DI	Engineering and Management	UG	1	1	5
49	Fundamentals of economics (II)	Macroeconomics	MA.108.DF.DI	Engineering and Management	UG	1	2	5
50	Product Lifecycle Management	Innovation Management, Product Innovation, Product Lifecyle	IMA.310.DS.DI	Engineering and Management	UG	3 and 4	2	3
51	Product Lifecycle Management	Innovation Management, Product Innovation, Product Lifecyle	IA. 103.DA.DI	Engineering and Management	Msc	1	1	4
52	Product Lifecycle Management	Innovation Management, Product Innovation, Product Lifecyle	IMPBS.103.DA.DI	Engineering and Management	MSc	1	1	5
53	Human Resources Management	Human Resources Management	IMA.410.DID.DI	Engineering and Management	UG	4	2	3
54	Human Resources Management	Human Resources Management	IMA.410.DID.DI	Engineering and Management	MSc	1	1	3
55	Management	Fundamentals of Management	IMA.101.DID.DI	Engineering and Management	UG	1	1	5
56	Advanced Production Systems	Advanced Production Systems	IMPBS.201.DA.DI	Engineering and Management	MSc	2	2	5
57	Operational Research	Operational Research	IM.204.DID.DI	Engineering and Management	UG	2	1	5
58	Environmental management	Environmental management	IM.401.DID.DI	Engineering and Management	UG	4	1	4
59	Probability and mathematical statistics	Probability and mathematical statistics	IM.201.DF.DI	Engineering and Management	UG	2	1	5
60	Marketing management	Marketing management	IM.302.DS.DI	Engineering and Management	UG	3	1	4
61	Business Models	Business Models	IMA.402.DS.DI	Engineering and Management	UG	4	1	4

Faculty of Electronics, Telecommunications and Information Technology

No.	Name of the course	Study Plan code	Field of study	Level of study (UG/MSc)	Year of study	Semester (1/2)	No.of ECTS
1	Optoelectronics	DID405M	Electronics and Telecommunications Engineering	UG	4	2	3
2	Modeling, simulation of electronic drive systems	DOS312E	Electronics and Telecommunications Engineering	UG	3	2	5
3	Electroacoustic	DOS311E	Electronics and Telecommunications Engineering	UG	3	2	5
4	Digital video audio systems	DIS404E	Electronics and Telecommunications Engineering	UG	4	2	4
5	High efficiency modern converters	SAEA.IA.106	Electronics and Telecommunications Engineering	MSc	1	2	6
6	Satellite Communications	RC.IA.104	Electronics and Telecommunications Engineering	MSc	1	1	6
7	Web Applications Programming	RC.IA.108	Electronics and Telecommunications Engineering	MSc	1	2	5

Faculty of Hydrotechnical Engineering, Geodesy and Environmental Engineering

No.	Name of the course	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Modern mapping techniques	GC.IA.107	Geodetic engineering	MSc	1	2	4+2
2	Digital terrain modeling	GC.IA.201	Geodetic engineering	MSc	2	1	6
3	Ecological Management	ME	Environmental engineering	UG	4	7	3
4	Environmental assessments	EM	Environmental engineering	MSc	1	2	5
5	Aquifer depollution technologies	TDA	Environmental engineering	MSc	2	3	5
6	Water Resources Management	GRA	Environmental engineering	UG	4	1	5
7	Water Resources Management	GRA	Civil Engineering	UG	4	1	5
8	Water Resources Management	GRA	Civil Engineering	UG	4	1	5
9	River Regulation and Embankments	RR	Environmental engineering	UG	4	1	4
10	River Regulation and Embankments	RR	Civil Engineering	UG	4	1	5
11	River Regulation and Embankments	RR	Civil Engineering	UG	4	1	5
12	Water Ways	CN	Civil Engineering	UG	4	2	4
13	Climatology	C	Environmental engineering	UG	1	2	3
14	Acquisition technologies, monitoring and diagnosis of the quality of environmental factors	TAMD	Environmental engineering	UG	4	2	5
15	Hydraulics 1	H1	Civil Engineering	UG	2	1	5
16	Hydraulics 1	H1	Civil Engineering	UG	2	1	5
17	Hydraulics 2	H2	Civil Engineering	UG	2	2	8
18	Hydraulics 2	H2	Civil Engineering	UG	2	2	8
19	General notions regarding structures	CGC	Civil Engineering	UG	2	1	4
20	Timber structures	CL	Civil Engineering	UG	4	2	2
21	Hydrotechnical constructions	CH	Civil Engineering	UG	3	2	4
22	Ecology	E	Environmental engineering	UG	1	1	4
23	Environmental Engineering	IM	Civil Engineering	UG	3	2	4
24	Environmental Engineering	IM	Civil Engineering	UG	3	2	2
25	Rural development	DR	Civil Engineering	UG	4	2	5
26	Hydrology and Hydrogeology 1	HHg1	Civil Engineering	UG	3	1	5
27	Photogrammetry I	FOTO1	Geodetic Engineering	UG	2	2	4
28	Photogrammetry II	FOTO2	Geodetic Engineering	UG	3	1	4
29	Photogrammetry III	FOTO3	Geodetic Engineering	UG	3	2	3
30	Photogrammetry IV	FOTO4	Geodetic Engineering	UG	4	1	5
31	Remote Sensing	TD	Geodetic Engineering	UG	4	2	4
32	Spatial data from photogrammetry and Remote Sensing	GC.IA.104	Geodetic Engineering	Msc	1	1	5
33	Special hydraulics	IH.IA.102	Civil Engineering	Msc	1	1	6
34	Modern water supply and sewerage systems	IH.IA.107	Civil Engineering	Msc	1	2	5
35	Water supply and sewerage systems 1	AAC1	Civil Engineering	UG	3	2	4
36	Map projection 1	CART1	Geodetic Engineering	UG	3	1	4
37	Map projection 2	CART2	Geodetic Engineering	UG	3	2	4
38	Mathematical Geodesy 1	GM1	Geodetic Engineering	UG	2	2	4
39	Mathematical Geodesy 2	GM2	Geodetic Engineering	UG	3	1	4
40	Mathematical Geodesy 3	GM3	Geodetic Engineering	UG	3	2	3+2
41	Design and optimization of geodesic networks	PRG	Geodetic Engineering	UG	4	2	4
42	Spatial reference systems	GC.IA.101	Geodetic Engineering	MSc	1	1	5
43	Positioning by GNSS methods	PMG	Geodetic Engineering	MSc	1	2	6
44	Satellite geodesy 1	GS1	Geodetic Engineering	UG	3	6	3
45	Satellite geodesy 2	GS2	Geodetic Engineering	UG	4	7	4
46	Automation Elements in Environmental Engineering -Structure of a measurement and control system. Types of regulators	C	Environmental engineering	UG	3	2	3
47	Buildings Installations - Heating systems. Fire signaling and extinguishing systems.	C	Civil Engineering	UG	4	1	2
48	Buildings Installations - Heating systems. Fire signaling and extinguishing systems.	C	Civil Engineering	UG	4	1	2
49	Hydrology and Hydrogeology 2	HHg2	Civil Engineering	UG	3	2	4
50	Hydrology and Hydrogeology 2	HHg2	Civil Engineering	UG	3	2	4
51	Hydrology and Hydrogeology 2	HHg2	Environmental engineering	UG	3	2	4

“Cristofor Simionescu” Faculty of Chemical Engineering and Environmental Protection

No.	Name of the course	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Advanced water and air treatment technologies	EMSE IA 501	Environmental Engineering	Master	1	1	5
2	Solid waste management	EMSE IA 502	Environmental Engineering	Master	1	1	5
3	Environmental assessments	EMSE IA 503	Environmental Engineering	Master	1	1	5
4	Environmental monitoring	EMSE IA 504	Environmental Engineering	Master	1	1	5
5	Scientific researcher	EMSE PA 505	Environmental Engineering	Master	1	1	7
6	Integrated environmental management	EMSE IA 506	Environmental Engineering	Master	1	2	5
7	Sustainable industrial production	EMSE IA 507	Environmental Engineering	Master	1	2	5
8	Sustainable energy production	EMSE IA 508	Environmental Engineering	Master	1	2	4
9	Sustainability indicators and circular economy	EMSE IA 509	Environmental Engineering	Master	1	2	5
10	Ethics and integrity	EMSE IA 510	Environmental Engineering	Master	1	2	2
11	Scientific researcher	EMSE PA 511	Environmental Engineering	Master	1	2	6
12	Ecological restoration and soil remediation	EMSE IA 512	Environmental Engineering	Master	1	1	3
13	Data acquisition and teletransmission	EMSE IA 513	Environmental Engineering	Master	1	2	3
14	Sustainable consumption and integrated product policies	EMSE IA 601	Environmental Engineering	Master	2	1	5
15	Life cycle assessment	EMSE IA 602	Environmental Engineering	Master	2	1	5
16	Industrial and ecological risk management	EMSE IA 603	Environmental Engineering	Master	2	1	5
17	Scientific research for disertation project	EMSE PA 604	Environmental Engineering	Master	2	1	7
18	Elaboration of the dissertation project	EMSE PA 605	Environmental Engineering	Master	2	2	15
19	Scientific research for dissertation project	EMSE PA 606	Environmental Engineering	Master	2	2	15
20	Eco-labelling	EMSE IA 608	Environmental Engineering	Master	2	1	4
21	Risk assessment and management	MM IA 601	Environmental Engineering	Master	2	1	5
22	Physical chemistry of homogeneous and disperse systems	IPN IA 101	Chemical engineering	Master	1	1	3
23	Transport phenomena intensification	IPN IA 102	Chemical engineering	Master	1	1	4
24	Gas - liquid non-catalytic processes	IPN IA 103	Chemical engineering	Master	1	1	6
25	Solid- fluid non-catalytic processes	IPN IA 106	Chemical engineering	Master	1	2	7
26	Heterogeneous catalytic processes	IPN IA 104	Chemical engineering	Master	1	1	6
27	Electrochemical processes	IPN IA 107	Chemical engineering	Master	1	2	6
28	Anticorosive and decorative protection of metals	IPN IA 108	Chemical engineering	Master	2	1	4
29	Modern separation techniques	IPN IA 201	Chemical Engineering	Master	2	1	6
30	Nanomaterials and nanotehnology	IPN IA 202	Chemical Engineeing	Master	2	1	5
31	Vegetable and microbial secondary metabolites	IBVEM 513.1	Chemical engineering	Master	1	1	4
32	Industrial microbiology	IBVEM 514.2	Chemical engineering	Master	1	2	5
33	Physical chemistry 1 - Thermodinamics	IC.203	Chemical Engineeing	Undergraduate	2	1	6
34	Physical chemistry 2 - Kinetics	IC.207	Chemical engineering	Undergraduate	2	2	4
35	Transport phenomena, unit operations and equipments 1	IC.206	Chemical engineering	Undergraduate	2	2	5
36	Transport phenomena, unit operations and equipments 3	IC.304	Chemical engineering	Undergraduate	3	1	4
37	Physical process engineering	IC.405	Chemical engineering	Undergraduate	4	1	5
38	Chemical processes engineering	ISAPM.309	Chemical engineering	Undergraduate	3	2	5
39	Electrochemical process engineering	ISAPM.401	Chemical engineering	Undergraduate	4	1	6
40	Modeling and design of chemical reactors 2 (heterogeneous reactors)	ISAPM.403	Chemical engineering	Undergraduate	4	2	5
41	Inorganic products engineering 1 (acids and hydroxides)	ISAPM.404	Chemical engineering	Undergraduate	4	1	5
42	Inorganic products engineering 2 (salts)	ISAPM.405	Chemical engineering	Undergraduate	4	1	6
43	Inorganic fertilizer products engineering	ISAPM.407	Chemical engineering	Undergraduate	4	2	6
44	Catalysis and technology of inorganic industry	ISAPM.413.1	Chemical engineering	Undergraduate	3	2	4
45	Technology of building materials	ISAPM.414.1	Environmental Engineering	Undergraduate	4	2	3
46	Environmental protection	IPMI 114.1	Environmental Engineering	Undergraduate	1	1	4
47	Communication	IPMI 115.1	Environmental Engineering	Undergraduate	1	2	2
48	Radiation Sources and Protection Technologies	IPMI 216.1	Chemical engineering/ Envirnonemtal Engineering	Undergraduate	2	2	4
49	Materials science	IPMI.202	Environmental Engineering	Undergraduate	2	1	5
50	Transfer phenomena and unit operations 2	IPMI.301	Environmental Engineering / Engineering and management	Undergraduate	3	1	4
51	Physical chemistry 1 - Thermodynamics	IPMI.303	Chemical engineering/ Environmental Engineering	Undergraduate	3	1	5
52	Analysis and synthesis of technological processes	IPMI.304	Environmental Engineering	Undergraduate	3	1	6
53	Chemical and biological process engineering	IPMI.306	Environmental Engineering	Undergraduate	3	1	6
54	Equipments and technologies for air treatment	IPMI.309	Environmental Engineering	Undergraduate	3	2	4
55	Equipments and technologies for air treatment-project design	IPMI.310	Environmental Engineering	Undergraduate	3	2	3
56	Technologies for Drinking and Industrial Water	IPMI 313	Environmental Engineering / Engineering and management	Undergraduate	3	2	4
57	Physical Chemistry 2 - Kinetics	IPMI.312	Environmental Engineering	Undergraduate	3	2	4
58	Technologies for Wastewater Treatment	IPMI.401	Environmental Engineering	Undergraduate	4	1	6
59	Technologies for Wastewater Treatment project design	IPMI.402	Environmental Engineering	Undergraduate	4	1	3
60	Biotechnologies and Bioremediation	IPMI.403	Environmental Engineering	Undergraduate	4	1	6
61	Waste Treatment Technologies and Valorization	IPMI.405	Environmental Engineering	Undergraduate	4	1	6
62	Waste Treatment Technologies and Valorization project design	IPMI.406	Environmental Engineering	Undergraduate	4	1	3
63	Ecological management	IPMI.407	Environmental Engineering	Undergraduate	4	2	4
64	Catalysis in environmental protection	IPMI.408	Environmental Engineering	Undergraduate	4	2	4
65	Management of environmental projects	IPMI.409	Environmental Engineering	Undergraduate	4	2	3

Faculty of Electrical Engineering

No.	Name of the course	Main Chapters	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Electrical Equipment	Thermal stresses of electrical equipment, Electro-dynamic stresses of electrical equipment, Electric arc (DC and AC)Electric contact resistance, Fuses Circuit breakers, Contactors, Surge Arresters, Switch disconnectors	IEE.304.DID.DI	Engineering and Management	Undergraduate	3	1	5
2	Smart/Intelligent sensors	Main chapters: Quasidigital sensors, smart temperature and humidity sensors, smart presure sensors, electronic nose, artificial skin, Arduino, ESP32 and RaspberryPi	IAD.406.DS.DI	Electrical engineering	Undergraduate	4	1	5
3	Sensors and Transducers II	Resitive, capacitive, inductive, magnetic and optic sensors and application in industry, data acquisition using DAQB, cRIO, PLC LabVIEW	IAD.403.DS.DI	Electrical engineering	Undergraduate	4	2	4
4	Sensors and sensory systems	Resitive, capacitive, inductive, magnetic and optic sensors and application in industry, data acquisition using PLC	MCT.310.DI.DD	Mecanical engineering	Undergraduate	3	2	2
5	Measurements in electronics and telecommunications		EDID205	Electronic Engineering, Telecommunications and Information Technologies	Undergraduate	2	2	4
6	Electromagnetic Compatibility	EMC fundamentals; Coupling mechanisms and EMI reduction techniques; EMC filters; Electromagnetic shielding; Electrostatic discharge, ESD; Instruments for measurement and analysis of electromagnetic emissions; RF transmission lines; Emissions and immunity tests;Bio-electromagnetic Compatibility	EL.306.DID.DI	Electrical engineering	Undergraduate	3	2	4
7	Electromagnetic Compatibility	EMC fundamentals; Coupling mechanisms and EMI reduction techniques; EMC filters; Electromagnetic shielding; Electrostatic discharge, ESD; Instruments for measurement and analysis of electromagnetic emissions; RF transmission lines; Emissions and immunity tests;Bio-electromagnetic Compatibility	IAIE.405.DID.DI	Electrical engineering	Undergraduate	4	1	5
8	Information systems for monitoring electricity consumption	Evolution of energy metering systems; Power quality; Hardware components of Energy Monitoring Information Systems (EMIS); Software for EMIS; Case studies of EMIS.	IEE.407.DS.DI	Electrical engineering	Undergraduate	4	2	4
9	Sensors and Transducers I	Systems Sensor Technologies, Temperature Measurement, Pressure Measurement, Flow Measurement, Level Measurement, Mass, Force and Torque Measurement, Vibration and Shocq Measurement, Rotational Motion Transducers	EL.312.1.DS.DO	Electrical engineering	Undergraduate	3	2	3
10	Fluid Mechanics	1. Properties of Fluids; 2. Basic Concepts of Fluid Mechanics; 3. Pressure and Fluid Statics; 4. Kinematics of the Flow; 5. Ideal-fluid Flow ; 6. Laminar Flow; 7. Turbulent Flow; 8. Steady Flow in Pipes; 9. Unsteady Flow in Pipes.	EN.206.DID.DI.	Power Engineering	Undergraduate	2	1	4
11	Utizations of the Electrical Energy	1. Lighting (photometry, light sources, sizing elements) 2. Low voltage Lighting Installations(structure and materials, sizing elements, power factor improvement and electro-security)3. Electrothermics(heating and welding installations)	EL.303.DS.DI	Electrical engineering	Undergraduate	3	1	5
12	Optimal utilization of the electrical Energy	1. Energy efficiency in electrothermics, 2. Energy efficiency in lighting, 3. Energy efficiency in electromecanic drives, 4. Energy efficiency of the electric networks, 5. Energy efficiency case studies in diferent industries, 6. Audit and power balances	IEE.408.DS.DI	Engineering and management	Undergraduate	4	2	4
13	Numeric optimization techniques	1. Introduction to optimization 2. Single-variable optimization 3. Unconstrained multivariable optimization 4. Constrained optimization techniques 5. Multi-criteria optimization 6. Nature-Inspired Search Methods	CECM.IA.201	Electrical engineering	Master	2	1	4
14	Electrical circuits theory II	Polyphase networks. Three-phase network structures. Powers three-phase networks, Multipole type circuits. Electric frequency filters. Long homogeneous lines. Transient regime.	EL.208.DID.DI	Electrical Engineering	Undergraduate	2	2	4
15	General energetics	1. Energy - a global problem, 2. Hydropower, 3. Nuclear energy, 4. Solar energy, 5. Wind power, 6. Electrochemical conversion, 7. Hydrogen	EN.208.DID.DI	Power engineering	Undergraduate	2	2	4
16	Power Systems I		ISE.404.DS.DI	Power Engineering	Undergraduate	4	1	6
17	Power Systems II		ISE.409.DS.DI	Power Engineering	Undergraduate	4	2	2
18	Systems with Artificial Intelligence		IAIE.407.DS.DI	Electrical Engineering	Undergraduate	4	2	3
19	Power System Stability and Control		MSE.IA.104	Power Engineering	Master	1	1	5
20	Computer Programming and Programming Languages 1	Main chapters: General aspects of computing systems, How to use an IDE, Main types of C language, I/O functions, Operator precedence, if-else, switch () for(), while() and do-while()	EH1.106.DF.DI	Computer Science, Electrical Engineering	Undergraduate	1	1	4
21	Computer Programming and Programming Languages 2	Main chapters:Array types of C, Struct data, Working with data file I/O, Functions, Graphic lybrary (glut), Lists, trees	EH1.108.DF.DI	Computer Science, Electrical Engineering	Undergraduate	1	2	5
22	Python Programming		IAIE.302.DS.DI	Computer Science	Undergraduate	3	1	4
23	Modeling and simulation of the electromagnetic field applications	Main chapters:1.Vectorial calculus 2.Introduction in modeling and simulation of the electromagnetic field applications 3.Review of electromagnetic field theory 4.Numerical methods for electromagnetic field modeling 5.Finite difference method 6.Finite difference method in time domain 7.Finite element method 8.Structure of a software package for electromagnetic field modeling	IAIE.301.DS.DI	Electrical Engineering	Undergraduate	3	1	5
24	Strategies and optimal decisions in power systems		EN.413.1.DS.DO	Power Engineering	Undergraduate	4	2	5
25	Modern control techniques in power systems		MSE.IA.202	Power Engineering	Master	2	1	6
26	Smart grids	1.Challenges in electrical networks 2.Fundamental concepts of SG 3.Measurements in SG 4. Microgrids 5. Energy storage 6.Communication systems in SG 7.Energy management in SG	ETI.408.DS.DI	Power Engineering	Undergraduate	4	2	4
27	Numerical methods	1.Numerical errors 2.Interpolation Methods 3.Numerical solutions to nonlinear Equations 4.Numerical solutions to Linear system Equations 5.Numerical Differentiation 6.Numerical Integration.	EN.202.DF.DI	Power Engineering	Undergraduate	2	1	5
28	Electrical machines I		EL.210.DID.DI	Electrical Engineering	Undergraduate	2	2	5
29	Electrical machines II		EL.302.DID.DI	Electrical Engineering	Undergraduate	3	1	5
30	Equipments and thermal installations I		EN.305.DID.DI	Power Engineering	Undergraduate	3	1	4
31	Energy buildings		MEM.IA.103	Power Engineering	Master	1	1	4
32	Computer-aided optimization of electrical circuits		IAIE.314.2.DS.DO	Electrical Engineering	Undergraduate	3	1	4
33	Fundamentals of Electrical and Electronic Engineering		IM.112.DID.DI	Electrical Engineering	Undergraduate	1	2	5
34	Power system protections		ISE.407.DS.DI	Power Engineering	Undergraduate	4	2	3
35	Sustainable development - strategies and prognosis		IMCG.202.DA.DI	Engineering and management	Master	2	1	4

Faculty of Mechanical Engineering

No.	Name of the course	Main Chapters	Study Plan code	Field of study	Level of study (Undergrad./Master)	Year of study	Semester (1/2)	No. of ECTS
1	Materials Science and Engineering	Structure of materials; Methods for analyzing the structure of materials; Physico-chemical constitution of materials; Diffusion in materials; Thermodynamics of material systems; Balance charts; Solidification of metallic materials	MTC.103.DI.DD	Automotive Engineering/ Mechanical Engineering/ Mechatronics and Robotics	Undergraduate	1	1	4
2	Computer Programming and Programming Languages	Data structures. Computational environment. Programming and mathematical software. Vectors and matrices. Polynomials and interpolation. Symbolic and numerical calculus in Matlab. Logical and relational operators. Special functions. Numerical integration. Solution of linear algebraic equations. Eigenvalues and eigenvectors of a matrix. Solving non-linear equations and systems of non-linear equations. Graphics in Matlab. Programming in C/C++	MTC.106.DI.DF	Automotive Engineering/ Mechanical Engineering/ Mechatronics and Robotics	Undergraduate	1	1	5
3	Applied Thermodynamics 1	Introduction, Energy and First Law of Thermodynamics, Properties and Gas Laws, Second Law Analysis	MTC.110.DI.DD	Automotive Engineering/ Mechanical Engineering/ Mechatronics and Robotics	Undergraduate	1	2	5
4	Chemistry	Introductory notions (atoms and molecules; chemical bonds; substances and mixtures of substances; laws of chemistry); Chemical thermodynamics; Chemical kinetics; Chemical equilibrium; Electrochemistry; Corrosion and corrosion protection; Chemistry of lubricants; Fuels; Water: industrial water and wastewater; Macromolecular compounds applied in the technics	MTC.111.DI.DF	Automotive Engineering/ Mechanical Engineering/ Mechatronics and Robotics	Undergraduate	1	2	3
5	Materials Technology	Process of production; Materials properties;The elaboration and cast of usual alloys; The plastic deformation of metallic materials; The welding of metallic materials;The processing of compound materials and nonmetals.	MTC.113.DI.DF	Mechanical Engineering	Undergraduate	1	2	4
6	Strenght of Materials 1	Introduction; Materials testing. Mechanical and elastic characteristics; Materials testing, influencing factors. Simplifying assumptions in SM; Energy theorems and methods; Axial stresses, statically determined problems; Axial stresses, heavy weight bars, equal strength solid. Axial stresses, statically indeterminate problems, lifting indeterminacy by geometric methods; Axial stresses, statically indeterminate problems; Lifting indeterminacy by geometric methods and energy methods; Axial stresses, statically indeterminate problems, lifting indeterminacy by FEM; Conventional shear design, joint design; Torsional stress, statically determined problems; Torsional stress, statically indeterminate problems; Bending stress, calculation of stresses and strains; Bending, equal strength solid, rational sections, longitudinal slip; Bending, statically determined problems; Bending, statically determined problems; Bending, statically indeterminate problems; Longitudinal buckling; Calculation of lattice beams; Fundamentals of variable stress design (fatigue); Elements of elasticity theorie (TE): General state of stresses. Tensile stresses and strains. Variation of stresses around a point; Principal stresses and strains, principal directions; Mohr's circles for plane and spatial state of stresses; Fundamental equations of TE. Deformation potential energy (3D); Relationship between elastic characteristics (E, G and ?); Tensor rosette; Limit state theories	MTC.202.DI.DD	Mechanical Engineering	Undergraduate	2	1	7
7	Applied Thermodynamics 2	Power Cycles - vapor and gas; Refrigeration Cycles, Heat Pumps; Introduction in Heat Transfer	MTC.204.DI.DD	Mechanical Engineering	Undergraduate	2	1	6
8	Strength of Materials 2	Failure theories (Rankine, Tresca, von Mises, Mohr-Coulomb etc.); Multiaxial loading; Calculus for compound state of stress: unsymmetric bending, eccentric axial loads, circular shafts etc.; Torsion of noncircular members and shafts; Frames; Curved bars; Hyperstatic systems; Thin-walled vessels; Thick-walled tubes; Spinning discs; Design for impact loads	MTC.208.DI.DD	Mechanical Engineering	Undergraduate	2	2	4
9	Mechanisms	This course introduces the principles of designing mechanisms. Students will investigate the kinematics and dynamics of machinery. Topics include fundamentals of linkage kinematics and design, gear kinematic analysis, cam mechanisms analysis, and integrating common mechanisms for a machinery group project	MTC.203.DI.DD	Mechanical Engineering	Undergraduate	2	1	7
10	Machine Elements 1	Design methodology; General Design Criteria; Safety at static loads; Variable load safety; Threaded Joints; Transmissions (belts, chains and gears)	MTC.209.DI.DD	Mechanical Engineering	Undergraduate	2	2	6
11	Mechanical Vibrations	Harmonic and periodic motion; theory of free and forced vibrations in linear elastic systems with one or more degrees of freedom; theoretical models for the study of longitudinal vibration, torsional and transverse straight bars; free vibration, damped and undamped; harmonically excited vibration; transient responses; vibration damping, isolation and absorption elementary energy methods; multi-degree of freedom systems; usual approximate methods (Rayleigh, Ritz) for vi study; getting started in the study of nonlinear vibration, random vibration, shocks; noise; characteristics and noise-vibration correlation; sources of vibration and noise from machinery; solving specific vibration design problems	MTC.212.DI.DD	Mechanical Engineering	Undergraduate	2	2	4
12	Fundamentals of Systems Theory/Automation	Automated system concept; standard signals; computation techniques in time domain (pulses train; convolution); computation techniques based on Laplace transform, on frequency method, on sampling theorem; transfer function; systems operating regimes; analysis of the systems quality; stability analysis fundamentals (Routh-Hurwitz, Nyquist); mechatronic system structure; practical experience with LabVIEW in transfer functions, the close loop stability analysis based on Nyquist criterion, the frequency and time response analysis of automated/mechatronics systems.	MTC.305.DI.DD	Mechanical Engineering	Undergraduate	3	1	4
13	Renewable Energy	Renewable Energy - fundamentals, solar, wind, hydro and marine, geothermal, biomass	IM.313.DO.DS-1	Mechanical Engineering	Undergraduate	3	1	3
14	Machine Elements 2	Axles and shafts; Connections between hubs and shafts; Sliding bearings; Rolling Bearings; Joints with elastic elements and dampers; Couplings	MTC.301.DI.DD	Mechanical Engineering	Undergraduate	3	1	7
15	Finite Element Method (FEM)	Introductory elements; Basics of deformable body mechanics used in FEA - Elasticity. Plasticity. Nonlinearity; Basics of FEA - Evaluation of strains and stresses	MTC.302. DI. DD	Mechanical Engineering	Undergraduate	3	1	4
16	Basics of Robotics	Introduction; Manipulator mechanical structure; Coordinate transformations; Forward and inverse kinematics; Manipulator statics and dynamics; Trajectory planning	MCT.307.DI.DD	Mechatronics and Robotics	Undergraduate	3	2	5
17	Electrical Engineering	Electric and magnetic circuits (DC circuits, Magnetic circuits, AC circuits, The elements of the circuits in permanent sinusoidal regime, Powers in alternating current circuits,Three-phase electrical circuits; Electric transformers; Asynchronous electric machines; DC electric machines	MTC.303.DI.DD	Mechanical Engineering	Undergraduate	3	1	3
18	Heat Transfer	Introduction; Energy balance in thermal systems;1D, 2D conduction in steady-state and transient; Numerical solution methods; Heat, impulse and mass transfer analogies; Forced external and internal convection; Natural convection; Radiation heat transfer; Heat exchangers	SET.308.DI.DS	Mechanical Engineering	Undergraduate	3	2	5
19	Biomechanics	Basics of biomechanics of the human locomotor system: general biomechanics and systemic biomechanics	RBT.309.DI.DS	Mechatronics and Robotics	Undergraduate	3	2	4
20	Compressors	Volumetric reciprocating compressors; Volumetric rotary compressors; Dynamic radial and axial compressors	SET.309.DI.DS	Mechanical Engineering	Undergraduate	3	2	5
21	Design and computation of automotive transmissions	Manual gearboxes, clutches, torque converters, synchronizers, hybrid and electrical vehicle transmissions	CA.312.DI.DS	Automotive engineering	Undergraduate	3	2	6
22	Turbomachinery	Radial and axial compressors; steam and gas turbines	IM.411.DO.DS-1	Mechanical Engineering	Undergraduate	4	2	4
23	Data Acquisition Systems and Interfaces	Signals; Statistical processing of signals; Mathematical transformations applied to signals; Data acquisition; Sampling signals; Dithering signals; The phenomenon of aliasing; Correlation function, autocorrelation amplitude-frequency spectra, power spectra; Types of filters and filtering signals	MCT.401.DI.DD.	Mechanical Engineering/ Mechatronics and Robotics	Undergraduate	4	1	3
24	Refrigeration Machines	Refrigeration machines, refrigeration system, refrigerants, mechanical / absorption / jet refrigeration, thermoelectric effect	SET.401.DI.DS	Mechanical Engineering	Undergraduate	4	1	8
25	Mobile robotics	This course will introduce the basic principles of mobile robotics history, theory, hardware and control. Topics will include robot components, effectors and actuators, locomotion, sensors, feedback control, control architectures, representation, localization and navigation.	RBT.402.DI.DS	Mechatronics and Robotics	Undergraduate	4	2	5
26	Internal Combustion Engines Construction and Calculus	Presentation of the theoretical bases of operation, as well as the real processes that take place in the internal combustion engines; Constructive and functional aspects of the engine elements, fuel system, gas distribution system, lubrication and cooling system.	AR.404.DI.DS	Automotive Engineering	Undergraduate	4	1	6
27	Manufacturing Technologies	Industrial processes; Production process; Technological process; Construction technology; Surface condition; Processing of external cylindrical surfaces; Processing of inner cylindrical surfaces; Planing of flat surfaces;Thread processing technology; Milling of gears; Stamping and punching; Special processing technologies; Welding technologies; Rapid prototyping; Injection of plastics	CA.410.DI.DS	Automotive Engineering	Undergraduate	4	2	5
28	Artificial Cooling	Air conditioning principles and systems; Renewable energies for air conditioning and refrigeration; Refrigeration and freezing in food industry; Refrigeration load for cold storage rooms; Transportation of refrigerated foods; Ice making; Ice skating rinks; Artificial ground freezing; Concrete cooling; Artificial cooling in chemical industry	SET.413.DO.DS-1	Mechanical Engineering	Undergraduate	4	2	3
29	Automotives testing	The course contains the classification and preparation of road vehicle tests, the vehicle’s installation tests, general test for the entire vehicle, safety tests.	AR.408.DI.DS	Automotive Engineering	Undergraduate	4	2	5
30	Polymers: Properties and processing	Polymer structure; Polymer classification; Physical and thermodynamic properties of polymers; Technological procedures for polymer processing; Polymer testing; Fields of use	IM.412.DO.DS-2	Mechanical Engineering	Undergraduate	4	1	4
31	Biomimetics	Introduction; Basics in micro- and nano-tribology; Friction and adhesion in biological systems; Micro- and nanoscale test equipment; Electroactive polymers as artificial muscle; Biological inspired robots; Biomimetic hand. Robotic arm; Human skin. Bioinspired smart skin; Tribology of human joints; Biological inspired sensors	MA.IA.104.DS	Mechatronics and Robotics	Master	1	1	5
32	Nonconventional Actuators	Principles of operation and examples with actuators based on ”smart materials” such as: shape memory alloys; piezoelectric, electro and magneto-strictive materials; electro and magneto-rheological fluids, electroactive polymers	MA.IA.108. DS	Mechatronics and Robotics	Master	1	2	6
33	Vibroacoustic Diagnosis/ Vibroacoustic Analysis of Automotive Systems	Vibroacoustic signals; Time analysis; Frequency analysis; Time-frequency analysis; Rolling bearings diagnosis; Gears diagnosis; Electrical motors diagnosis	DETIM.IA.108/ CMPA.IA.108	Mechanical Engineering	Master	1	2	3
34	Experimental Data Processing	Basic principles of data acquisition and processing; data acquisition boards; signal conversion principles; analogue/digital and digital/analog converters; sensors and transducers; signal conditioning (analyzers, filters, amplifiers, integrators, differentiating); acquisition and distance data transmission; programming languages for data acquisition and processing (LabVIEW soft).	DETIM.IA.102/ STA.IA.102	Mechanical Engineering/ Automotive Engineering	Master	1	1	4
35	Correlated Performances of Road Traffic Participants	Transmission of knowledge on vehicle drivers reaction, depending on various factors driving, errors that may occur, and correlating performance drivers of vehicles and other road users	SPCR.IA.103	Automotive Engineering	Master	1	1	6
36	Road Accidents Study	Transmission of knowledge on accidentological researches, acquisition and interpretation of traces from road accidents, processing data	SPCR.IA.101	Automotive Engineering	Master	1	1	6
37	Fracture mechanics	The actual behavior of the materials and the notion of defect; Mechanisms of brittle and ductile rupture nucleation; Statistical representations, dispersion of characteristics for defective materials; Micro-fissures in materials and their propagation conditions; Calculation of Resistance based on the concepts of Fracture mechanics; Criteria for fissure propagation, breaking, Fracture toughness; Study of static and dynamic fracture mechanisms in materials and structures; Establishing the fracture toughness criteria for a more precise definition of resistance to different loadings)	DETIM.IA.103	Mechanical Engineering	Master	1	1	6
38	Risk analysis and expertise in Mechanical Engineering	Terminology practice expertise: method, approach, instrument; Diagnostic tools and evaluation approach; Sources of risk, In-Service Inspection; Probabilistic models for risk assessment; Methods for determination of defects; Analytical models to detect and locate faults; Analysis of systems with faulty actuators; Maintenance system based on the diagnosis	DETIM.IA.107	Mechanical Engineering	Master	1	2	5
39	Tehnical Regulations and Approval of Automotive and Components	European rules into effect concerning the approval of road vehicles and their components; Romanian and European legislation concerning the approval; technical standards that must meet each subset separately, and the vehicle as a whole, to be homologated	CMPA.IA.109	Automotive Engineering	Master	1	2	4
40	Technical Standards for Road Traffic Safety	Technical performances and maintenance conditions in Romania; Checking the technical condition of vehicles; Methods and means of diagnosing vehicles	SPCR.IA.108	Automotive Engineering	Master	1	2	5
41	Engineering ethics and integrity	General information on ethics and integrity. Objectives, methods, definitions, , interdisciplinary approaches. Traditions, theoretical and applied ethics. Professional deontology. Concept of integrity. Proper conduit in scientific research, technological development and innovation. Personal integrity. Reputation (individual and public). Corruption, conflict of interests, transparency. Ethical careers; integrity whistleblowers; ethics counselors. Harassment and inadequate behavior in collectivity.	MTFC.IA.110	Mechanical Engineering	Master	1	2	2
42	Project Management	Generalities of Project Management; Organization management by projects; Project Management specific processes; Project Management in scientific research	DETIM.IA.106	Mechanical Engineering	Master	1	2	3
43	Transfer Processes, Modelling and Simulation	Transfer coefficients, engineering correlations, Mathematical formulation, Engineering numerical methods, numerical methods for solving conductive heat transfer, compressible and incompressible flows, convection – diffusion eqns)	MTFC.IA.109	Mechanical Engineering	Master	1	2	5
44	Alternative Energy Sources for Sustainable Development	Renewable energy and climate change, technologies and markets, Integration into present and future energy systems, Policy, implementation and financing, sustainable development	MTFC.IA.201	Mechanical Engineering	Master	2	1	4
46	Modern systems for railway transport	Modeling of high-speed trains; the bogie; gearbox; motor; double cardan transmission; sustainability electric motor bearings; the influence of the complexity of railway routes on the maximum speed of train and its transmissions	STCF.IA.202	Mechanical Engineering	Master	2	1	5
47	Road Traffic Safety Management	Road traffic safety, evolution and perspectives; Institutional organization of road safety; Visions on road safety; Road safety strategies; Increasing road safety through the construction, reconstruction and design of road infrastructure; Improving road safety by designing safer vehicles; Improving road safety through education and road education campaigns; Improving road safety through measures to enforce road legislation; Determining, updating and improving the use of social costs of road accidents	SPCR.IA.203	Automotive Engineering	Master	2	1	5
48	Advanced FEA (Advanced Finite element analysis)	Theoretical basis concerning the use of FEA in Mechanical Engineering; Non-linear FEA.; Python programming language. Internet resources and E-learning in the FEA-CAE field; The Concepts: CFD, „Multiphysics”, MES, “Mechanical Event Simulation”. Structural optimization by use of FEA.	DETIM.IA.208-1	Mechanical Engineering	Master	2	1	5
49	Unconventional Thermal Machines	Stirling engine, Ericsson engine, Vuilleumier machine	MTFC.IA.204	Mechanical Engineering	Master	2	1	5

Faculty of Materials Science and Engineering

No.	Name of the course	Main Chapters	Code from the Study Plan	Field of study	Level of study (Undergraduate/Master)	Year of study	Semester (1/2)	No. of ECTS
1	Advanced ceramic materials	Advanced ceramic materials used to transport, in electronics and in the cutting process Advanced ceramic materials for nuclear techniques and with electro-magnetic properties)		Engineering; materials engineering	Master	6	1	6
2	Metallic Materials (2)	Stainless steel, high temperature resistant materials, hard steel, microstructure and heat treatment of steels)	3SM07 DS	Materials Science	Undergraduate	3	2	6
3	Modeling and Simulation in Materials processing (1)	(• The concept of a model and modeling methods.• Modeling the processes by material balance and energy balance. • Knowledge of statistical and mathematical methods for the obtaining of mathematical models that describe the functional links between input and output variables of metallurgical processes.)	4IPM12 DS	Materials Science	Undergraduate	4	2	4
4	Superalloys	General characterization; Microstructure, Properties, Physical metallurgy of Ni-base superalloys, Applications, Coatings role in superalloys protection	1MATAE IA 101	Materials Engineering	Master course	5	1	5
5	Nonmetallic Shape Memory Materials	General characterization of shape memory materials; shape memory alloys, shape memory ceramics, shape memory polymers, shape memory composites; shape memory hybrids	1MATAE IA 113	Materials Engineering	Master course	5	2	4
6	Electro and Magnetorheological Materials	Fundamentals of complex fluids; Properties of complex fluids; Electrorheological fluids; Magnetorheological suspensions	2 MATAE IA 208	Materials Engineering	Master course	6	1	5
7	Termotechnics (1)	Heat and mass transfer; Convection, Radiation, Conduction, Boiling, Condensation, Difusion	2SM9 DD	engineering; materials engineering	undergraduate	2	2	5
8	Thermal Equipment and Instalations (1)	Combustion, Burners, Heating in a furnace, Walls design, Industrial balance and efficiency	3IPM05 DS	engineering; materials engineering	undergraduate	3	1	4
9	Simulation techniques of thermo-gas-dynamics processes	Geometry creation, Geometry validation in ANSYS, Model creation and validation in Ansys Fluent, 2D models, 3D models	1TAIPM DA5	engineering; materials engineering	master	1	1	6
10	Metallic Materials 3 (Non-ferrous alloys-processing, microstructure, properties)	Metals and non-ferrous alloys. Physico-chemical processes in the processing of non-ferrous metals and alloys. Alloys refining. Copper and its alloys. Nickel and its alloys. Aluminum and its alloys. Magnesium and its alloys. Tin, lead and their alloys. Specific methods of obtaining, refining and casting.	3.SM.09.DS	Materials science	undergraduate	3	2	4
11	Sintered Materials and Products (processing, microstructure, properties)	Metal powder manufacturing processes. Powder characterization properties and methods. Preparatory operations applied to powders. Powder alloying and microstructure. Powder formation and compaction. Sintering. Products obtained by powder metallurgy	3.SM.12.DS-1	Materials science	undergraduate	3	1	4
12	Expert Systems for Thermal System Command	Artifical Intelligence, Intelligent Systems Applications	2SITM DA1	engineering; materials engineering	master	2	1	4
13	Equipment for materials engineering	Industrial application, plastic deformation, thermal treament equipment	3SM03 DS	engineering; materials engineering	undergraduate	3	1	5
14	Computer Added Design for Thermal Systems	furnace/oven/kiln design, thermal technology design, CAD-CAM	4EPI02 DS	engineering; materials engineering	undergraduate	4	1	4
15	Thermal Equipment and Instalations (2)	Industrial application, plastic deformation, thermal treament equipment	3IPM06 DS	engineering; materials engineering	undergraduate	3	2	4
16	Metallic materials (1)	Cast iron industry: past, present and future, Cast irons: Definition. Classification criteria. Grades; Metal bath processing Liquid phase, Smelting of cast iron in the cupola, Smelting of cast iron in units with electric heating, Control of the chemical composition of the metal bath during the smelting; 3. Cast iron modification : Inoculation, Modification; 4. Physic-chemical and mechanical properties of cast irons.	3SM06DS	engineering; materials engineering	undergraduate	3	2	4
17	Surface corrosion	Electrochemical corrosion. The mechanism of electrochemical corrosion. Thermodynamics of the corrosion process.Kinetics of electrochemical corrosion Determination of corrosion current. Corrosion protection.	3.SM.15.DS-1	engineering; materials engineering, materials science	undergraduate	3	2	3
18	Polymeric materials	Polymer molecules. Molecular structure of polymers. Structure of copolymers. Crystallization, melting and glass transition of polymeric materials. Mechanical material properties of polymeric materials. Thermal properties of polymeric materials.Characterization of acrylic polymers.Special forms of use of polymeric materials. Technologies for obtaining polymeric materials.Processing technologies of polymeric materials.	3.SM.15.DS-2	materials engineering, materials science	undergraduate	3	2	3
19	PROPERTIES of MATERIALS 1	Clasification of properties; Elements of structural theory of materials properties; Physical properties; (density, electrical, thermal, magnetic properties, supraconductibility, combined physical effects); chemichal properties (electrode potential, corrosion mechanisms and protection against corrosion).	4.SM.02.DD	materials engineering, materials science	undergraduate	4	1	4
20	BASICS OF COMPUTER AIDED DESIGN	Assisted design technologies for Plastic deformation: lamination, free forging, stamping, extrusion, drawing, stamping, plastic processing.	4 SM 06	materials engineering, materials science	undergraduate	4	2	3
21	PROPERTIES of MATERIALS 2	Mechanical properties: static and dynamic properties and details concerning the methods of determination; technological properties (cutting, hardenability, weldability, hot and cold deformability). Elements of materials choice: classic method, matriceal methods, Ashby’s method.	4.SM.08.DD	materials engineering, materials science	undergraduate	4	2	3
22	Composite Materials	Chapter 1. General considerations on the composite materials; Chapter 2. Thermodynamics and kinetics of processes at the matrix-reinforcement interface; Chapter 3. Synthesis techniques of composite materials; Chapter 4. Properties evaluation of composite materials; Chapter 5. Composite materials. Allegations of specific works. Discussion board. Conclusions. Applications: 2. Determination of contact angle between liquid metal and reinforcing material. 3. Determination of superficial tension of matrix alloys. 4. The processing of composite materials with ceramic particles and the matrix from aluminum alloys. 5. Obtaining of foam-type composite materials with aluminum alloy matrix. 6. Obtaining of composite materials with HEA alloys particles.	4.SM.12.DS-1	materials engineering, materials science	undergraduate	4	1	4
23	Non-metallic materials	Non-metallic materials. Plastic materials:Obtaining plastics materials.Plastics materials processing.Ceramic materials.Refractory ceramic materials Chemical properties of refractory materials Silicon-based ceramic materialsCarbon-based ceramic materials. Ceramic materials used in electronics	4.SM.15.DS-1	materials engineering, materials science	undergraduate	4	2	5
24	Technical Drawing and Infographics 2	Geometric Transformations, Object Visualization, Solid and Surface Modeling and Wireframe Modeling; Drawing objects, Editing a drawing, Projecting three-dimensional models, parts and mechanical assemblies.	1.IMAT.12.DF	materials engineering, materials science	undergraduate	1	2	6
25	MATERIALS FOR CONSTRUCTION	Definition and classification of steel according to European Standards. Technological, utility and mechanical properties of steels used for metallic constructions. Non-alloy steel constructions for general use Non-alloy steel for reinforcement and precompression concrete Steel Pipes Steel used for metallic constructions and offshore platforms. Steel for the viaducts, bridges and railway road. Stainless steels. Technological features.	4.SM.05.DS	materials engineering, materials science	undergraduate	4	1	4
26	Thermal analysis advanced techniques (1)	Introduction to thermal analysis 2. Characterization of measuring instruments 3. Characterization, interpretation and presentation of results 4. Differential thermal analysis 5. Differential scanning calorimetry	MATAE IA 110	materials engineering	Master	1	2	4
27	Thermal analysis advanced techniques (2)	Thermomechanical analysis 2. Thermodilatometry 3. Dynamic mechanical analysis 4. Thermogravimetry 5. Thermomagnetometry 6. Thermoptometry 7. Simultaneous Thermal Analysis 8. Other methods of thermal analysis 9. Nano-thermal analysis	MATAE IA 203	materials engineering	Master	2	1	4
28	MATERIALS FOR SPECIAL APPLICATIONS	Phase transformations in shape memory alloys Characteristics and properties of shape memory alloys Obtaining shape memory alloys Applications of shape memory alloys	4SM13DS	materials engineering	undergraduate	4	1	3

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