Renata ADAMI | PHYSICAL PROCESSES AND SUSTAINABILITY
Renata ADAMI PHYSICAL PROCESSES AND SUSTAINABILITY
cod. 0512900013
PHYSICAL PROCESSES AND SUSTAINABILITY
| 0512900013 | |
| DEPARTMENT OF PHYSICS "E. R. CAIANIELLO" | |
| EQF6 | |
| SCIENCE AND NANOTECHNOLOGY FOR SUSTAINABILITY | |
| 2024/2025 |
| OBBLIGATORIO | |
| YEAR OF COURSE 2 | |
| YEAR OF DIDACTIC SYSTEM 2022 | |
| FULL ACADEMIC YEAR |
| SSD | CFU | HOURS | ACTIVITY | ||
|---|---|---|---|---|---|
| PROCESSI FISICI SOSTENIBILI (MODULO DI PROCESSI FISICI E SOSTENIBILITÀ) | |||||
| ING-IND/27 | 3 | 24 | LESSONS | ||
| ING-IND/27 | 3 | 36 | EXERCISES | ||
| CHIMICA PER LE REAZIONI E LA SICUREZZA (MODULO DI PROCESSI FISICI E SOSTENIBILITÀ) | |||||
| ING-IND/27 | 3 | 24 | LESSONS | ||
| ING-IND/27 | 3 | 36 | EXERCISES | ||
| Exam | Date | Session | |
|---|---|---|---|
| APPELLO DI APRILE 2025 | 14/04/2025 - 15:00 | SESSIONE ORDINARIA |
| Objectives | |
|---|---|
| CHEMISTRY FOR REACTIONS AND SAFETY KNOWLEDGE AND UNDERSTANDING KNOWLEDGE AND UNDERSTANDING OF THE PRINCIPLES OF THERMODYNAMICS, ELEMENTARY PROCESSES OF THERMODYNAMIC CYCLES, PHASE EQUILIBRIA AND CHEMICAL EQUILIBRIA. KNOWLEDGE OF THE FUNDAMENTAL CONCEPTS OF TRANSPORT OF MOMENTUM, HEAT AND MASS IN THE ABSENCE AND PRESENCE OF CHEMICAL REACTIONS. KNOWLEDGE OF IDEAL CHEMICAL REACTORS AND ABILITY TO BIND RELATIONSHIPS THAT BIND PROCESS VARIABLES THROUGH THE SETTING OF MASS AND ENERGY BALANCES UNDERSTANND AND MANAGE A REACTIVE PROCESS APPLIED KNOWLEDGE AND UNDERSTANDING APPLICATION OF KNOWLEDGE FOR THE RESOLUTION OF PROBLEMS ON MATTER AND ENERGY BALANCES AND PHASE AND REACTION EQUILIBRIA. APPLICATION OF THE FUNDAMENTAL CONCEPTS OF MOMENTUM, HEAT AND MASS TRANSFER TO THE RESOLUTION OF TRANSFER PROBLEMS BASED ON BALANCE EQUATIONS. APPLICATION OF THE METHODOLOGIES LEARNED TO SET AND SOLVE MASS AND ENERGY BALANCES ON CHEMICAL REACTORS, ALSO IN THE PRESENCE OF REACTIONS. SUSTAINABLE PHYSICAL PROCESSES KNOWLEDGE AND UNDERSTANDING KNOWLEDGE AND UNDERSTANDING OF THE PROBLEMS RELATED TO THE EQUIPMENT OF THE PROCESS INDUSTRY. KNOWLEDGE AND ABILITY TO APPROACH EQUIPMENT AND PROCESSES NOT DIRECTLY COVERED IN THE TRAINING COURSE. APPLIED KNOWLEDGE AND UNDERSTANDING ANALYSIS AND MANAGEMENT OF DIFFERENT TYPES OF PROCESSES FOR SUSTAINABILITY APPLICATIONS |
| Prerequisites | |
|---|---|
| CHEMISTRY, MATHEMATICS |
| Contents | |
|---|---|
| REACTION CHEMISTRY AND SAFETY •MASS AND ENERGY BALANCES, THE FIRST LAW OF THERMODYNAMICS, PHASE TRANSITIONS (2 HOURS THEORY, 3 HOURS EXERCISE) •HEAT, THE SECOND LAW OF THERMODYNAMICS (2 HOURS THEORY, 3 HOURS EXERCISE) •FLUID THERMODYNAMICS (2 HOURS THEORY, 3 HOURS EXERCISE) •PHYSICAL AND CHEMICAL BALANCES (2 HOURS THEORY, 3 HOURS EXERCISE) •MOMENTUM TRANSPORT, MOMENTUM BALANCE (2 HOURS THEORY, 3 HOURS EXERCISE) •ENERGY TRANSPORT, HEAT FLOW, HEAT CONDUCTION, MACROSCOPIC ENERGY BALANCES (2 HOURS THEORY, 3 HOURS EXERCISE) •TRANSPORT OF MATTER, FLOW OF MATTER, MACROSCOPIC BALANCES OF MATTER (2 HOURS THEORY, 3 HOURS EXERCISE) •TRANSPORT OF HEAT AND MATTER (2 HOURS THEORY, 3 HOURS EXERCISE) •REACTION RATE, REACTORS AND THEIR CLASSIFICATION (2 HOURS THEORY, 3 HOURS EXERCISE) •KINETICS OF CHEMICAL REACTIONS, CONTINUOUS AND DISCONTINUOUS REACTORS (4 HOURS THEORY, 6 HOURS EXERCISE) •REACTORS WITH RECYCLING, AUTOCATALYTIC AND CATALYTIC REACTORS (2 HOURS THEORY, 3 HOURS EXERCISE) SUSTAINABLE PHYSICAL PROCESSES •PLANTS FOR TRANSFORMATION PROCESSES (4 HOURS THEORY, 3 HOURS EXERCISE) •METHODS OF STORAGE AND TRANSPORT OF SOLIDS, LIQUIDS AND GASES (2 HOURS THEORY, 3 HOURS EXERCISE) •TECHNIQUES FOR THE SEPARATION OF SOLIDS, LIQUIDS AND GASES: EVAPORATION AND EVAPORATORS, FLASH SEPARATOR, DISTILLATION (6 HOURS THEORY, 9 HOURS EXERCISE) •PRINCIPLES OF HEAT EXCHANGE AND TRANSFER, HEAT EXCHANGERS (2 HOURS THEORY, 6 HOURS EXERCISE) •GAS-LIQUID ABSORPTION, ABATEMENT OF ENVIRONMENTAL POLLUTANTS (2 HOURS THEORY, 3 HOURS EXERCISE) •PROCESS VARIABLES AND THEIR CONTROL (2 HOURS THEORY, 3 HOURS EXERCISE) •PLANTS FOR THE RECOVERY OF SECONDARY RAW MATERIALS (2 HOURS THEORY, 3 HOURS EXERCISE) •PLANTS FOR THE RECYCLING OF MATERIALS (2 HOURS THEORY, 3 HOURS EXERCISE) •ENERGY OPTIMIZATION (2 HOURS THEORY, 3 HOURS EXERCISE) |
| Teaching Methods | |
|---|---|
| THE COURSE INCLUDES THEORETICAL LECTURES AND CLASSROOM EXERCISES. THE EXERCISES ARE CARRIED OUT IN A COOPERATIVE MANNER, GUIDED BY THE TEACHER, WITH THE HELP OF REFERENCE MATERIAL. |
| Verification of learning | |
|---|---|
| THE EVALUATION OF THE ACHIEVEMENT OF THE OBJECTIVES WILL TAKE PLACE THROUGH A WRITTEN TEST AND AN ORAL INTERVIEW. THE WRITTEN TEST TYPICALLY CONSISTS OF PROBLEMS TO BE CARRIED OUT IN TWO HOURS. THE ORAL INTERVIEW TYPICALLY LASTS 30MIN. THE STUDENT IS ASKED QUESTIONS AIMED AT HIGHLIGHTING HIS ABILITY TO REASON ON THE ASPECTS OF INTEREST OF THE COURSE. |
| Texts | |
|---|---|
| INTRODUCTION TO CHEMICAL ENGINNERING THERMODYNAMICS - JM SMITH, HC VAN NESS, MCGRAW FENOMENI DI TRASPORTO, BIRD R.B., STEWARD W.E., LIGHTFOOT E.N., CASA EDITRICE AMBROSIANA (1970) INGEGNERIA DELLE REAZIONI CHIMICHE - OCTAVE LEVENSPIEL FOUST ET AL. I PRINCIPI DELLE OPERAZIONI UNITARIE - ED. AMBROSIANA, MILANO MC CABE, SMITH AND HARRIOT: UNIT OPERATIONS OF CHEMICAL ENGINEERING, MC GRAW - HILL CHEM. ENG. SERIES |
| More Information | |
|---|---|
| THE TEACHER IS ALWAYS AVAILABLE FOR INFORMATION OR DISCUSSIONS ON THE CONTENTS OF THE COURSE. EMAIL: RADAMI@UNISA.IT |
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