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OPERAZIONI UNITARIE E LORO DIMENSIONAMENTO

CODE 66109
ACADEMIC YEAR 2021/2022
CREDITS
  • 12 cfu during the 3nd year of 10375 INGEGNERIA CHIMICA E DI PROCESSO (L-9) - GENOVA
  • SCIENTIFIC DISCIPLINARY SECTOR ING-IND/25
    LANGUAGE Italian
    TEACHING LOCATION
  • GENOVA
  • SEMESTER 1° Semester
    MODULES This unit is a module of:
    TEACHING MATERIALS AULAWEB

    AIMS AND CONTENT

    LEARNING OUTCOMES

    The course aims to provide participants with the ability to analyze process diagrams, and to know how to determine the specifications of individual equipment Furthermore, the course aims to provide students with the basic notions of some unit operations, with the aim of providing the knowledge necessary to determine and quantify the most important parameters in the preliminary design of the equipment.

    AIMS AND LEARNING OUTCOMES

    Attendance and active participation in the proposed training activities (lectures, exercises and numerical exercises) and individual study will allow the student to acquire:

    - knowledge of process plants and of some unit operations: evaporation, solvent extraction, filtration, crystallization. Understanding of simplified models that relate operational and / or project parameters with their effects on material and energy balances.

    - the ability to analyze process diagrams and to be able to correctly orientate the determination of the specifications of the individual equipment and in the most common choices of operation in relation to the effect of a variation of the operating parameters on the performance of the process.

    - the ability to know how to determine and quantify the most important parameters in the preliminary design of the equipment corresponding to the main unit operations, and to use appropriate preliminary design methodologies.

    - the ability to use bibliographic data and databases to retrieve chemical-physical data and construction standards.

    - the ability to know how to identify the most suitable equipment to carry out a specific unit operation, and to determine the operating conditions suitable for obtaining the desired process specifications.

    - to apply the acquired knowledge to contexts different from those presented during the course, and to orientate oneself in the reading and understanding of the technical documentation of the equipment present in the process plants.

    PREREQUISITES

    • Mathematical analysis I
    • Fundamental of physics

     

    TEACHING METHODS

    The course provides about 60% of methodological and theoretical lessons in the classroom, about 40% of calculating exercises in the classroom.

    SYLLABUS/CONTENT

    Introduction to chemical plants:

    Process diagrams: block flow diagram (BFD), process flow diagram (PFD) and process and instrumentation diagram (P & ID). The sizing of the lines. The process sizing of control valves and equipment.

    The main unit operations:

    -FILTRATION

    Description of the filtration separation technique. Mechanism that regulates the flow of fluids through porous beds. The filter medium and the different types of industrial filtration.

    -EVAPORATION AND EVAPORATORS WITH SINGLE AND MULTIPLE EFFECT

    The principles of evaporation as a unitary operation. Types of evaporators and auxiliary equipments. Sizing of single and multiple effect evaporators.

    - SOLVENT EXTRACTION

    The principles of extraction. Experimental construction of a ternary diagram. Design of an extractor: analytical and graphic methods. Problem of verification.

    -CRISTALLIZATION

    Description of crystallization. Crystallization induced by pressure, temperature. Nucleation and growth. Crystallization models. Homogeneous and heterogeneous descriptive models. Population balance of the crystals. Sizing of a crystallizer. Critical evaluation and limits of the project

    RECOMMENDED READING/BIBLIOGRAPHY

    1. PERRY'S CHEMICAL ENGINEERS 'HANDBOOK - MC GRAW-HILL INTERNATIONAL EDITIONS

    2. FOUST ET AL. THE PRINCIPLES OF THE UNITARY OPERATIONS - ED. AMBROSIANA, MILAN

    3. MC CABE, SMITH AND HARRIOT: UNIT OPERATIONS OF CHEMICAL ENGINEERING, MC GRAW - HILL CHEM. ENG. SERIES

    4. KERN D.G .: PROCESS HEAT TRANSFER, MC GRAW - HILL CHEM. ENG. SERIES

    5. TREYBAL R.E .: MASS TRANSFER OPERATION, MC GRAW - HILL EDUCATION

    TEACHERS AND EXAM BOARD

    Exam Board

    CARLO SOLISIO (President)

    EMANUELA DRAGO

    ROBERTA CAMPARDELLI (President Substitute)

    LESSONS

    EXAMS

    EXAM DESCRIPTION

    The achievement of the teaching aims is certified by a written test lasting 240 minutes, consisting of the resolution of two exercises on two different unit operations with 3 questions per unit operation of the value of 5 points per question. These points are assigned in full if the question is answered correctly in the numerical value, at 80% if there is a calculation error, from 10% to 70% if the answer is well set but suffers from more or less serious conceptual errors (zero if the answer is not answered or is approached in a wrong way). The achievement of sufficiency (18/30) allows access to the oral exam.

    An oral interview is scheduled of about 30 minutes to verify the general knowledge of the design elements and any uncertainties related to the written test. The outcome of the oral exam can not replace the positive result of the written test.

    Excellence (30/30 cum laude) is achieved through the correct answer to all the questions of the two proposed exercises and to the contemporary positive result of the oral exam, which demonstrates how the student is able to manage the subject using the concepts learned and appling them to different types of problems compared to those discussed in the classroom.

    The grade obtained in the teaching will be the average of the marks given in the two modules in which the teaching is divided.

    ASSESSMENT METHODS

    Details on how to prepare for the exam and the degree of depth of each topic will be given during the lessons. The written test focuses on 2 exercises with three questions each, concerning the topics presented during the course. The oral exam includes questions concerning the basic theory and the criteria for sizing unit operations. The exam aims to ascertain the ability to understand the concepts learned and the mastery of the same. The quality of the exposure, the correct use of technical terminology and the critical reasoning ability will also be assessed.

    The evaluation of the achievement of the objectives is verified through a written and oral examination. The evaluation in the final exam will take into account the following criteria:

    a) knowledge and ability to solve the main problems that require the application of concepts expressed;

    b) knowledge of the basic hypotheses;

    c) ability to extend the application of the basic concepts to solve problems to new applications,

    d) language properties with particular reference to the specific terminology of the discipline.

    Exam schedule

    Date Time Location Type Notes
    20/12/2021 09:00 GENOVA Scritto + Orale
    21/01/2022 09:00 GENOVA Scritto + Orale
    15/02/2022 09:00 GENOVA Scritto + Orale
    06/06/2022 09:00 GENOVA Scritto + Orale
    13/07/2022 09:00 GENOVA Scritto + Orale
    16/09/2022 09:00 GENOVA Scritto + Orale