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Academic Year 2019/20 School of Industrial and Information Engineering Degree Programme of: Chemical Engineering Laurea (Equivalent To Bachelor Of Science) Milano Campus
1. General Information School | School of Industrial and Information Engineering | Code Reference Law | 347 | Name | Chemical Engineering | Reference Law | Ordinamento 270/04 | Class of degree | L-9 - Industrial Engineering | Degree level | Laurea (Equivalent To Bachelor Of Science) | First year of activation | 2008/2009 | Official length of the programme | 3 | Years of the programme already activated | 1,2,3 | Official language(s) | Italian | Campus | Milano | Dean of the School | Antonio Capone | Coordinator of the Study programme | Isabella Nova | Website of the School | http://www.ingindinf.polimi.it | Website of the Study programme | |
Central Student Office - Milano Leonardo Address | VIA C. GOLGI, 42 (MI) |
2. General presentation of the study programmeThe modern society needs clean and efficient technologies for the transformation of energy and it needs high performance materials for several applications including automotive, biomedical, electronic, environmental, aerospace, etc. We also require efficient methods for the production of food and we expect to live in a clean environment, characterized by a sustainable use of the natural resources. Whatever the solutions for these needs, they involve – in a way or in another - chemical transformations. Therefore the modern society needs Chemical Engineering, whose principles are at the basis of all transformation processes of matter and energy.
A chemical engineer is able to provide cutting edge solutions to meet the needs of society. Using his knowledge about chemistry, physics, mathematics and engineering he is able to describe the chemical and physical transformations, and to design processes from the molecular to the industrial scale.
The Chemical Engineering programme at Politecnico di Milano, structured on the Bachelor and the Master degrees, is not only focused on the chemical industry, but it is characterized by its wide-angle approach. In fact Chemical Engineering is involved in all manufacturing and processing technologies, and in the environmental protection as well. For this reason Chemical Engineering differs from other engineering degree programmes being Process Engineering in a broad sense, centered on the chemico-physical transformations of the materials. As examples of applications of Chemical Engineering, we can recall the production of fuels from biomasses; the development of technologies for the removal/reutilization of carbon dioxide; the production of a chemical product from different reactants; the production of a component made of plastic material (from reactants to the polymer and then to the final product); the production of an electronic device; the treatment of a waste to reduce its pollution loading; the design of environmentally sustainable processes and many others.
The scale of these applications may range from the laboratory and the pilot plant to the large industrial production plants.
Therefore chemical engineers do not work only in chemical and petrochemical plants, but in all companies involving transformation processes such as in the food, cosmetic, pharmaceutical, environmental or energy sector. Chemical engineers also deal with issues related to environmental aspects and the sustainability of production, including effluent treatment technologies to reduce the concentration of pollutants.
In other words, chemical engineer is a chemistry technologist, working in the transformation processes on all production scales, as opposed to the chemist or industrial chemist, who operate on smaller laboratory scales and in the field of chemical analysis methods.
3. Learning objectivesThe programme in Chemical Engineering aims at forming experts who can meet the technological challenges of modern society through their unique approach to work. In particulars, the Chemical Engineer will be able to summarize every complex system through a sequence of simpler operations for which an independent solution can be found. The chemical engineer must learn how to conduct a preliminary analysis of a process where first the desired characteristics of the final products are defined, the starting materials for the industrial production are chosen, the sequence of steps necessary for the process are established and operating conditions of each steps are investigated. At this point the Chemical Engineer is involved in the design phase of all the equipments involved in the process previously determined. After designing the process and the units, the activities involving the management and the control of the plants are also designed.
The Chemical Engineer training is accomplished through a solid preparation in basic subjects (mathematics, physics, chemistry), the study of traditional engineering disciplines (electrical and mechanical engineering, building science, heat engines) and, of course, in the deepening of chemical engineering subjects (principles of chemical engineering, unit operations of chemical plants, industrial chemistry, chemical thermodynamics, etc.). The result is an extremely flexible, professional cross-marked profile characterized by a strong knowledge in scientific subjects and application technology. The Chemical Engineering programme aims at shaping professional figures flexible and transversal characterized by a strong basic scientific, fundamental but also technical background.
The programme adopts the teaching methods that satisfy the Dublin Descriptors adopted on a European level. Comprehension and the ability to make independent judgements will be assessed through written and oral examinations and individual and/or group papers. The ability to apply knowledge and understanding will be tested through the student preparation of reports on student participation in laboratory activities and projects included in the curriculum. Communication abilities are checked through periodic presentations of the performed work. Learning ability will be checked during the individual activities designed in preparation of the final examination.
At the end of the study cycle, graduates will be able to choose the best material for a particular component and decide how to produce it at the best, taking into consideration the way in which the transformations and the processing affect the structure and therefore the properties of the final product. They will use methodological and technical instruments to face problems regarding: the development of traditional and innovative chemical processes, the production and transformation of materials, the choice of materials and the management of the components under normal or aggressive working conditions, the residual life of products.
4. Organization of the study programme and further studies 4.1 Structure of the study programme and QualificationsThe general structure of the Laurea in Chemical Engineering programme and the qualifications available are shown in the following figure:
The Chemical Engineering Programme structure includes awarding of the following qualifications:
- Bachelor of Science in Chemical Engineering, conferred upon completion of the first three years (Laurea), corresponding to 180 CFU credits
- Master of Science in Chemical Engineering, conferred upon completion of other two years (Laurea Magistrale), corresponding to 120 CFU credits.
- PhD programme in Industrial Chemistry and Chemical Engineering, conferred after three years of studies and work dedicated to research. 4.2 Further StudiesThe qualification grants access to "Laurea Magistrale" (2nd degree), "Corso di Specializzazione di primo livello" (1st level Specialization Course) and "Master Universitario di primo livello" (1st level University Master)
For its academic nature and for the wide range of skills the Chemical Engineering Bachelor of Science programme at the Politecnico di Milano allows access to the Master of Science programmes in Chemical Engineering, along with most other Master of Science programmes in the industrial engineering field. For this reason students are free to choose a number of courses needed to complete their profiles in consideration of their future track choices.
In particular, should students wish to proceed to one of the Master of Science options not expressly mentioned above, this choice can be guided so as to comply with the entrance requirements of the chosen Master of Science.
5. Professional opportunities and work market5.1 Professional status of the degreeThe student who graduated in chemical engineering is recognized as junior engineer in the class of industrial engineering. After the positive approval by the Government Commission, he/she can be inscribed in the B section of the registered engineers for the selected hometown. More information are available at http://www.ordineingegneri.milano.it 5.2 Careers options and profilesThanks to its transversal formation and general education, the chemical engineering graduates may find work in very different industrial sectors:
- chemical, pharmaceutical, food, energy production and distribution, and process transformation (textiles, cosmetics, detergents, plastic materials and general materials etc.) industries;
- engineering companies that design, develop and create processes and plants;
- industrial laboratories and research centers;
- technical sectors of local government agencies and environment and safety consultancy companies.
In these fields, the chemical engineer will be able to use his different competences, helping in developing new processes and/or products, new chemical plants, unit operations, and/or equipments and reactors, in managing production and service plants, in managing maintenance of plants and equipments. Chemical engineer may, as well, find positions in the Research & Developments sector, even if this position may be more suitable for students who graduated in Laurea Magistrale in Chemical Engineer.
In numerical terms, almost all the graduates in Chemical Engineer will continue the study by enrolling the course in Laurea Magistrale in Chemical Engineer. Today the market demand for Chemical Engineers is high. For this reason, many companies organise presentation and workshop days to meet undergraduates and choose candidates before they graduate. Meetings are periodically scheduled with companies such as DSM, ENI, TOPSOE, FOSTER WHEELER, SOLVAY-SOLEXIS, etc. Surveys of University Assessment Commission https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=41265.3 Qualification profileThe graduate in Chemical Engineering is a professional figure able to face the technological challenges of modern society through his particular method of work, extremely flexible and transversal, characterized by a strong basic scientific and technical-applicative preparation. The figure of the graduate in Chemical Engineering has been studied to meet the needs of the industrial sectors of reference, such as the chemical, energy and engineering companies, with which monitoring is always ongoing both on the quality of the training provided and on the contents of the disciplines taught.
Thanks to its cross-training, the chemical engineer will find employment in many industrial sectors (chemical, pharmaceutical, food, production and energy management, transformation and process industries, engineering companies that design, develop and implement processes and plants, research centers and industrial laboratories, technical structures of the public administration and environmental and safety consulting offices).
During the course of his studies he will have acquired methodological and technical tools to deal with problems concerning: the management of transformation processes; the definition of the process quantification and the design of the equipment; the choice of materials and the management of components in normal or aggressive working conditions; the residual life of the products.
6. Enrolment6.1 Access requirementsItalian secondary school leaving qualification or other comparable foreign qualification (level 4 EQF)
According to Article 6 of the Ministerial Decree 270/04, admission to any Bachelor of Science Programme is subject to the possession of a four or five-year high school diploma or other qualification obtained abroad and recognized as equivalent.
Admission to the Chemical Engineering Bachelor of Science programme is subject to passing the entrance test prepared for the Engineering Schools.
Any student not fulfilling the above-listed knowledge requirements is required to complete supplementary education as indicated (OFA), which must be satisfied before attending courses offered after the first year. 6.2 Requested knowledgeTo be admitted to the Chemical Engineering Bachelor of Science (Laurea) Programme, students must have a sufficient background knowledge (in mathematics, sciences and verbal comprehension) and level of English, as shown in the Politecnico di Milano’s enrolment guide. This background is checked by means of a test prepared specifically for the Engineering Schools. The website http://www.polinternational.polimi.it/ offers sample questions asked during the entrance test along with detailed information concerning the test. The educational offer at the Politecnico di Milano https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=49316.3 Deadlines for admission and number of places availableFor the current academic year the number of enrolments to the Chemical Engineering Bachelor of Science is equal to 220.
Students who are already enrolled on other degree programmes of the Politecnico di Milano or at other Universities and wish to move to the Programme can request acknowledgement of any ECTS they have already earned. Requests from Politecnico di Milano students who want to move to the Bachelor Degree are accepted only after evaluating the student's educational curriculum and considering the number of available seats. How to become a student at Politecnico di Milano https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=29916.4 Tutoring and students supportThe School of Industrial and Information Engineering offers a series of guidance and tutoring activities. Timetables and information, periodically updated by the School itself, can be found on www.ingindinf.polimi.it. Polinternational https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=2191
7. Contents of the study Program7.1 Programme requirementsAs required by the law, to obtain the Laurea Degree (Bachelor of Science) in Chemical Engineering the student must gain 180 credits. These include the study of the basic disciplines (mathematics and statistics, physics, chemistry), of chemical engineering (transport phenomena, thermodynamics, chemical technology, chemical reaction engineering, unit operations, process control, etc), of energy engineering (engines, pumps and turbines, systems for environment and energy), of materials engineering (materials science and technology), of building science, of integrative disciplines (e.g. organic chemistry, technical physics and electric engineering), and some credits to be freely selected by the student. In the Chemical Engineering course the first 4 semesters (2 academic years) allow the student to acquire all the basics for the basic disciplines and industrial engineering. The third year is then devoted to the deepening of the chemical engineering topics, and to the introduction of the more specialized topics that the student can freely select. 7.2 Mode of studyThe Course requires a full time attendance and involves classroom, conferences about specific arguments with experts and laboratory activities. There are also visits to industrial plants. 7.3 Detailed learning objectivesCurriculur Structure of the BSc (1st Cycle Laurea)
The Bachelor of Science (Laurea) is structured over a three-year period in which the following courses are offered:
1 Year courses - Track: N1L - Ingegneria Chimica
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 082919 | A | MAT/03 MAT/05 | ANALISI MATEMATICA I E GEOMETRIA | | 1 | 10,0 | 10,0 | | 054264 | A | CHIM/07 | CHIMICA GENERALE | | 1 | 10,0[1,0 ] | 10,0 | | 083428 | A | FIS/01 | FISICA SPERIMENTALE A+B | | 1 | 10,0 | 10,0 | | 060110 | B | ING-IND/26 | SPERIMENTAZIONE INDUSTRIALE | | 2 | 5,0 | 5,0 | | 052475 | A | MAT/05 | ANALISI MATEMATICA II | | 2 | 10,0[1,0 ] | 10,0 | | 054265 | C | CHIM/06 | CHIMICA ORGANICA A | | 2 | 10,0[1,0 ] | 10,0 | | 097536 | C | ING-IND/10 | FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA | | 2 | 5,0 | 5,0 |
2 Year courses - Track: N1L - Ingegneria Chimica
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 089257 | B | ING-IND/24 | MECCANICA DEI FLUIDI CON FONDAMENTI DI INGEGNERIA CHIMICA | | 1 | 10,0 | 10,0 | | 060112 | B | ING-IND/26 | CALCOLI DI PROCESSO DELL'INGEGNERIA CHIMICA | | 1 | 5,0 | 5,0 | | 086507 | B | ICAR/08 | SCIENZA DELLE COSTRUZIONI | | 1 | 10,0 | 10,0 | | 086552 | C | ING-IND/31 | ELETTROTECNICA | | 1 | 7,0 | 7,0 | | 060116 | B | ING-IND/22 | SCIENZA E TECNOLOGIA DEI MATERIALI | | 2 | 10,0 | 10,0 | | 061182 | B | ING-IND/08 ING-IND/09 | MACCHINE E SISTEMI ENERGETICI | | 2 | 10,0 | 10,0 | | 086551 | B | ING-IND/24 | TERMODINAMICA DELL'INGEGNERIA CHIMICA | | 2 | 10,0 | 10,0 |
3 Year courses - Track: N1L - Ingegneria Chimica
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 089143 | B | ING-IND/24 | PRINCIPI DI INGEGNERIA CHIMICA | | 1 | 10,0 | 10,0 | | 089147 | B | ING-IND/27 | CHIMICA INDUSTRIALE | | 1 | 10,0 | 10,0 | | 089148 | B | ING-IND/25 | IMPIANTI CHIMICI | | 1 | 10,0 | 10,0 | | 089173 | B | ING-IND/25 | STRUMENTAZIONE E CONTROLLO DI IMPIANTI CHIMICI + AFFIDABILITÀ E SICUREZZA NELL'INDUSTRIA DI PROCESSO | | 2 | 10,0 | 10,0 | | -- | -- | -- | Courses to be chosen from Group CHI1 | -- | -- | -- | 15,0 | -- | -- | -- | Courses to be chosen from Group CHI2 | -- | -- | -- | | 052523 | -- | -- | PROVA FINALE | | 1 | 3,0[3,0 ] | 3,0 | 052523 | -- | -- | PROVA FINALE | | 2 | 3,0[3,0 ] |
Legenda: A: basic disciplines; B: chemical engineering specific disciplines; C: integrative disciplines.
Elective courses
The teachings of the group CHI1 are specifically aimed at Bachelor of Science students in Chemical Engineering. Particularly motivated students will be able to select teachings even within the CHI2 group, which contains courses offered in the Master of Science in Chemical Engineering. These courses are, however, scheduled for the attendance of the students enrolled in the Master of Science.
The courses Atomic Physics and Physics of Nucleus are for those students who want to get the Master of Science in Nuclear Engineering.
Courses of the Group CHI1
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | 089317 | -- | -- | STAGE | | 1 | 5,0 | 083243 | A | CHIM/07 | CHIMICA AMBIENTALE | | 1 | 5,0 | 089540 | A | FIS/03 | FISICA ATOMICA | | 1 | 10,0 | 089317 | -- | -- | STAGE | | 2 | 5,0 | 091672 | C | CHIM/06 | CATALISI OMOGENEA IN SINTESI ORGANICA | | 2 | 5,0 | 061174 | A | CHIM/07 | CONTROLLO DI QUALITA' DEI PRODOTTI CHIMICI | | 2 | 5,0 | 089256 | B | ING-IND/22 | CORROSIONE E PROTEZIONE DEI MATERIALI | | 2 | 5,0 | 060076 | -- | ING-IND/35 | ECONOMIA E ORGANIZZAZIONE AZIENDALE C | | 2 | 5,0 | 094893 | -- | ING-IND/20 | FISICA DEL NUCLEO | | 2 | 5,0 | 089188 | B | ING-IND/25 | INGEGNERIA CHIMICA AMBIENTALE A+B | | 2 | 10,0 | 089258 | B | ING-IND/22 | MATERIALI CEMENTIZI E CERAMICI | | 2 | 5,0 | 075838 | B | ING-IND/25 | PRINCIPI DI COMBUSTIONE | | 2 | 5,0 | 087101 | B | ING-IND/22 | MATERIALI POLIMERICI A+B | | 2 | 10,0 |
Courses of the Group CHI2
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | 083042 | C | ING-IND/34 | BIOINGEGNERIA CELLULARE | | 1 | 10,0 | 099307 | C | ING-IND/23 | CHEMICAL PRODUCT DESIGN | | 1 | 5,0 | 099301 | B | ING-IND/24 | COMPUTATIONAL FLUID DYNAMICS OF REACTIVE FLOWS | | 1 | 5,0 | 054696 | B | ING-IND/22 | CORROSION ENGINEERING | | 1 | 5,0[0,5 ] | 099309 | B | ING-IND/25 | ENTERPRISE RISK MANAGEMENT (ERM) | | 1 | 5,0 | 051191 | B | ING-IND/22 | FOOD PACKAGING MATERIALS | | 1 | 5,0 | 093563 | B | ING-IND/27 | FUNCTIONAL CERAMIC MATERIALS | | 1 | 5,0 | 096125 | A | CHIM/07 | INTRODUCTION TO GREEN AND SUSTAINABLE CHEMISTRY | | 1 | 5,0 | 052385 | C | ING-IND/34 | LABORATORIO DI MICRO E NANOSTRUTTURE(a) | | 1 | 5,0[1,0 ] | 096218 | B | ING-IND/22 | MICROSTRUCTURAL CHARACTERISATION OF MATERIALS | | 1 | 5,0 | 096220 | A | CHIM/07 | MOLECULAR BIOLOGY | | 1 | 5,0 | 052529 | B | ING-IND/25 | NEW TECHNOLOGY FRONTIERS IN GAS PRODUCTION, TRANSPORTATION AND PROCESSING | | 1 | 5,0[5,0 ] | 054187 | B | ING-IND/22 | PRINCIPLES OF POLYMER CHEMISTRY(b) | | 1 | 5,0[1,0 ] | 052526 | B | ING-IND/26 | PROCESS SYSTEMS ENGINEERING | | 1 | 10,0[3,0 ] | 054115 | B | ING-IND/27 | PROCESSES FOR ENERGY AND ENVIRONMENT | | 1 | 10,0[2,0 ] | 054915 | B | ING-IND/25 | PROCESSES OF FOOD INDUSTRY | | 1 | 5,0 | 099302 | A | CHIM/07 | PRODOTTI DA RISORSE RINNOVABILI | | 1 | 5,0 | 052528 | B | ING-IND/25 | SICUREZZA ANTINCENDIO | | 1 | 5,0[3,0 ] | 096214 | B | ING-IND/27 | SPECIAL CHEMICAL TECHNOLOGIES: RENEWABLE RAW MATERIALS | | 1 | 5,0 | 097621 | A | FIS/03 | STATISTICAL PHYSICS | | 1 | 10,0 | 054116 | B | ING-IND/27 | TECNOLOGIE CHIMICHE SPECIALI: FONTI FOSSILI | | 1 | 5,0[1,0 ] | 089626 | B | ING-IND/27 | TECNOLOGIE E PROCESSI DELL'INDUSTRIA PETROLIFERA | | 1 | 10,0 | 097746 | B | ING-IND/27 | INDUSTRIAL HETEROGENEOUS CATALYSIS | | 1 | 10,0 | 089656 | B | ING-IND/25 MED/44 | TECNICA DELLA SICUREZZA E IGIENE INDUSTRIALE A+B | | 1 | 10,0 | 052531 | B | ING-IND/27 | ADVANCED CATALYTIC REACTOR DESIGN | | 2 | 5,0[3,0 ] | 099306 | C | ING-IND/23 | APPLIED ELECTROCHEMISTRY | | 2 | 5,0 | 098501 | C | ING-IND/23 | APPLIED PHYSICAL CHEMISTRY | | 2 | 10,0 | 096205 | C | ING-IND/23 | BIOMEDICAL PHYSICAL CHEMISTRY | | 2 | 5,0 | 096123 | B | ING-IND/27 | CATALYTIC PROCESSES FOR ENERGY AND ENVIRONMENT | | 2 | 5,0 | 091676 | A | CHIM/07 | CHEMISTRY FOR ELASTOMERS AND COMPOSITE MATERIALS TECHNOLOGIES | | 2 | 5,0 | 096221 | B | ING-IND/26 | DYNAMICS AND CONTROL OF CHEMICAL PROCESSES | | 2 | 5,0 | 096046 | -- | ING-IND/19 | DYNAMICS AND CONTROL OF NUCLEAR PLANTS | | 2 | 10,0 | 096124 | C | ING-IND/23 | ELECTROCHEMICAL ENERGY GENERATORS | | 2 | 5,0 | 051190 | C | ING-IND/23 | ELECTROCHEMICAL TECHNOLOGIES FOR WATER AND WASTE WATER TREATMENT | | 2 | 5,0 | 096284 | C | ING-IND/23 | ELECTROCHEMISTRY OF MATERIALS | | 2 | 5,0 | 096219 | C | ING-IND/23 | FORMULATION TECHNOLOGY | | 2 | 5,0 | 054179 | -- | IUS/07 | IMPLICAZIONI LEGALI DELL'ESERCIZIO DELLA PROFESSIONE (LE RESPONSABILITA' DELL'INGEGNERE) | | 2 | 5,0[5,0 ] | 052380 | C | ING-IND/34 | LABORATORIO DI BIOCOMPATIBILITA' E COLTURE CELLULARI(c) | | 2 | 5,0[1,0 ] | 091754 | -- | ING-IND/19 | COMPUTATIONAL METHODS FOR SAFETY AND RISK ANALYSIS A+B | | 2 | 10,0 | 054365 | A | CHIM/07 | METODI FISICI PER L'ANALISI CHIMICA | | 2 | 5,0 | 054114 | C | ING-IND/23 | METODI PER LA VALUTAZIONE DELL'IMPATTO OLFATTIVO INDUSTRIALE | | 2 | 5,0[2,0 ] | 054247 | B | ING-IND/24 | MODELLAZIONE DELLE CONSEGUENZE DI INCIDENTI INDUSTRIALI | | 2 | 5,0[1,0 ] | 054357 | A | CHIM/07 | MOLECULAR MODELING OF MATERIALS | | 2 | 5,0 | 094942 | C | ING-IND/23 | NANOMEDICINE-PRINCIPLES AND APPLICATIONS | | 2 | 5,0 | 099305 | C | ING-IND/23 | POLYMER REACTION ENGINEERING | | 2 | 5,0 | 099310 | C | ING-IND/23 | PRINCIPLES OF ADVANCED SEPARATIONS | | 2 | 5,0 | 054916 | B | ING-IND/27 | PROCESS CONTROL AND INSTRUMENTATION LABORATORY | | 2 | 10,0[1,5 ] | 052530 | B | ING-IND/25 | PROCESS PLANTS | | 2 | 5,0[3,0 ] | 081301 | A | CHIM/07 | REACTIVITY, STRUCTURE AND FUNCTIONS OF FLUORINATED MATERIALS | | 2 | 5,0 | 089650 | B | ING-IND/24 | SICUREZZA DEI PROCESSI DISCONTINUI | | 2 | 5,0 | 096131 | B | ING-IND/24 | SICUREZZA DEI REATTORI DISCONTINUI | | 2 | 5,0 | 099300 | A | FIS/03 | SOFT MATTER: THE STRUCTURE AND RHEOLOGY OF COMPLEX FLUIDS | | 2 | 5,0 | 093531 | C | ING-IND/23 | SURFACE ENGINEERING | | 2 | 5,0 | 052527 | C | ING-IND/23 | TECHNOLOGIES FOR SAFETY AND ENVIRONMENT IN THE OIL&GAS AND ENERGY INDUSTRY | | 2 | 5,0 | 054262 | B | ING-IND/17 ING-IND/25 | CHEMICAL PROJECTS ENGINEERING AND MANAGEMENT | | 2 | 10,0[5,0 ] | 096128 | B | ING-IND/22 | CHEMISTRY AND MATERIALS FOR ENERGY AND ENVIRONMENT | | 2 | 10,0 | 093555 | B | ING-IND/27 | MICROBIOLOGIA INDUSTRIALE | | 2 | 10,0 | 089653 | B | ING-IND/24 | TECNOLOGIE DI PRESIDIO PER I PROCESSI INDUSTRIALI A+B | | 2 | 10,0 |
(a) Closed number subject (b) Closed number subject (c) Closed number subject
Pre-requisite Courses
Some courses have pre-requisite courses, and can be taken only upon successful completion of such pre-requisite courses. The courses underlined in the table are pre-requisites to the courses listed under “Course name”.
Code
|
SSD
|
Course name
|
Year
|
Sem
|
Pre-requisite(s)
|
087158
|
MAT/05
|
ANALISI MATEMATICA II
|
1
|
2
|
082919
|
ANALISI MATEMATICA IE GEOMETRIA
|
060009
|
CHIM/06
|
CHIMICA ORGANICA A
|
1
|
2
|
083424
|
CHIMICA GENERALE
|
097536
|
ING-IND/10
|
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
|
1
|
2
|
083424
083428
082919
|
CHIMICA GENERALE
FISICA SPERIMENTALE A+B
ANALISI MATEMATICA IE GEOMETRIA
|
089257
|
ING-IND/24
|
MECCANICA DEI FLUIDI CON FONDAMENTI DI INGEGNERIA CHIMICA
|
2
|
1
|
082919
087158
083428
|
ANALISI MATEMATICA I E GEOMETRIA
ANALISI MATEMATICA II
FISICA SPERIMENTALE A+B
|
060112
|
ING-IND/26
|
CALCOLI DI PROCESSO DELL'INGEGNERIA CHIMICA
|
2
|
1
|
082919
087158
060110
097536
|
ANALISI MATEMATICA I E GEOMETRIA
ANALISI MATEMATICA II
SPERIMENTAZIONE INDUSTRIALE
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
|
086507
|
ICAR/08
|
SCIENZA DELLE COSTRUZIONI
|
2
|
1
|
082919
087158
083428
|
ANALISI MATEMATICA I E GEOMETRIA
ANALISI MATEMATICA II
FISICA SPERIMENTALE A+B
|
086552
|
ING-IND/31
|
ELETTROTECNICA
|
2
|
1
|
082919
087158
083428
|
ANALISI MATEMATICA IE GEOMETRIA
ANALISI MATEMATICA II
FISICA SPERIMENTALE A+B
|
060116
|
ING-IND/22
|
SCIENZA E TECNOLOGIA DEI MATERIALI
|
2
|
2
|
083424
|
CHIMICA GENERALE
|
061182
|
ING-IND/08/09
|
MACCHINE E SISTEMI ENERGETICI
|
2
|
2
|
097536
|
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
|
086551
|
ING-IND 24
|
TERMODINAMICA DELL’INGEGNERIA CHIMICA
|
2
|
2
|
082919
087158
097536
|
ANALISI MATEMATICA I E GEOMETRIA
ANALISI MATEMATICA II
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
|
089143
|
ING-IND/24
|
PRINCIPI DI INGEGNERIA CHIMICA
|
3
|
1
|
087158
083428
097536
089257
|
ANALISI MATEMATICA II
FISICA SPERIMENTALE A+B
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
MECCANICA DEI FLUIDI CON FONDAMENTI DI INGEGNERIA CHIMICA
|
089147
|
ING-IND/27
|
CHIMICA INDUSTRIALE
|
3
|
1
|
086551
|
TERMODINAMICA DELL’INGEGNERIA CHIMICA
|
089173
|
ING-IND/25
|
IMPIANTI CHIMICI
|
3
|
1
|
087158
089257
086551
097536
|
ANALISI MATEMATICA II
MECCANICA DEI FLUIDI CON FONDAMENTI DI INGEGNERIA CHIMICA
TERMODINAMICA DELL’INGEGNERIA CHIMICA
FONDAMENTI DI FISICA TECNICA PER L'INGEGNERIA CHIMICA
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089148
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ING-IND/25
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STRUMENTAZIONEE CONTROLLODI IMPIANTI CHIMICI + AFFIDABILITÀ E SICUREZZA NELL'INDUSTRIA DI PROCESSO
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3
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2
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087158
086551
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ANALISI MATEMATICA II
TERMODINAMICA DELL’INGEGNERIA CHIMICA
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7.4 Foreign languageLanguage courses https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=30717.5 Degree examinationThe final examination consists in the presentation of a paper carried out by the student under the supervision of a tutor. The final examination gives students a further opportunity to explore and verify their analytical, elaboration and communication skills. Information concerning general rules and regulations, session calendars, registration and consignment of theses is available at https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=3151
8. Academic calendarAcademic calendar https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=3231
9. FacultyThe names of professors for each Course, together with their subject, will be available on the degree programme starting from the month of September. The degree programme is annually published on the website of Politecnico di Milano. The names of professors for each Course, together with their subject, will be available on the degree programme starting from the month of September. The degree programme is annually published on the website of Politecnico di Milano.
10. Infrastructures and laboratoriesThe educational activities delivered in the Degree Programme in Chemical Engineering provides access to educational workshops at the Politecnico di Milano to carry out specific laboratory activities.
The services for students take care of guidance, career management of students enrolled in undergraduate and graduate degree / master, right to education, international mobility, and of all those services in support of university life: http://www.polimi.it/en/students/services-for-students/
Student Administration: Toll Free 800 420 470 (from Monday to Friday, 9.30-12.30)
IT Services to Students: http://www.polimi.it/en/students/contact-polimi/infopoint/
11. International contextThe Master of Science in Chemical Engineering are spread all over the world, so it is easy to find teachings corresponding to those provided at the Politecnico di Milano.
Politecnico di Milano is presently performing benchmarking analyses with some of the most prominent international technical universities, on the analyzing overall the teaching activities and the integration of graduates into the work world. Reports and studies on this topic will be available on http://www.polimi.it/en/students/experience-abroad/study-mobility/
12. InternationalizationQuality in teaching and research benefits from Politecnico di Milano internationalization strategy. Politecnico di Milano has a number of exchange agreements with the most qualified universities in Europe and in the world. With the exception of the double degree programme, the student from Politecnico cannot achieve more than 30 CFU abroad. Information on exchange programmes, double degree projects and international internships, European research and international relations projects are available at https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=204&idApp=1&idLink=4640
13. Quantitative dataThe Didactic Observation Unit and the Evaluation Nucleus perform periodic analysis on the overall results analysing the teaching activities and the integration of graduates into the work world. Reports and studies are available on the website of the Politecnico di MIlano.
14. Further information
15. Errata corrige
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