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Scheda Riassuntiva
Anno Accademico 2019/2020
Tipo incarico Dottorato
Insegnamento 055038 - HVAC DYNAMIC SIMULATION - FROM THE ANALYSIS TO CODE WRITING
Docente Del Pero Claudio
Cfu 5.00 Tipo insegnamento Monodisciplinare

Corso di Dottorato Da (compreso) A (escluso) Insegnamento
MI (1367) - ARCHITETTURA, INGEGNERIA DELLE COSTRUZIONI E AMBIENTE COSTRUITO / ARCHITECTURE, BUILT ENVIRONMENT AND CONSTRUCTION ENGINEERINGAZZZZ055038 - HVAC DYNAMIC SIMULATION - FROM THE ANALYSIS TO CODE WRITING

Programma dettagliato e risultati di apprendimento attesi

The aim of the course is to train the building energy modelling expert in a detailed, dynamic modelling and simulation of its HVAC systems.

The students will learn how to create dynamic model for building systems, which is a key aspect for the sizing, control and optimization/development of multi generation systems using renewable energy sources.

 

Objectives of the course

  • To introduce to HVAC dynamic simulation
  • To help to achieve proficiency and awareness in HVAC dynamic modelling and simulation
  • To provide skills for HVAC dynamic modelling using the Trnsys software

 

Teaching organization and contents

The course will be organized in seven meetings (lectures and workshops), in two different weeks. Students will be required to take part to the class activities in small groups (e.g. two). During the workshops, they will perform, under the control of the teachers, a series of detailed building services modelling and simulation activities, with design feedbacks.

HVAC systems under analysis:

  • Solar thermal systems;
  • electric Heat Pump (EHP);
  • thermal Driven Heat Pump (TDHP);
  • PV, PVT and EHP integration;
  • thermal storages.

Note Sulla Modalità di valutazione

Each group of students has to submit a brief report (10 pages maximum) and present and discuss the project results after the end of the course.

 


Intervallo di svolgimento dell'attività didattica
Data inizio
Data termine

Calendario testuale dell'attività didattica

Lecture 1 - Introduction.
Lecturer: Mario Motta and Claudio del Pero
[04/02/2020 09:00 - 13:00]

  1. Overview of the course
  2. Motivation of the course: the importance of HVAC dynamic modelling. Scientific introduction and practical examples.

 

Lecture 2 – Solar thermal systems and vapour compression and absorption heat pumps.
Lecturer: Mario Motta
[05/02/2020 9:00 - 13:00]

  • Summary of the basics of solar thermal systems and vapour compression and absorption heat pumps. Focus on the different existing mathematical approaches and formalisms for their modelling. Overview of the outcomes of previous modelling experiences for national and international projects.

 

Workshop 1 – Hands-on Trnsys 18. Solar thermal systems and vapour compression and absorption heat pumps modelling
Rossano Scoccia
[06/02/2020 09:00 - 13:00]

  • Introduction to Trnsys software modelling tool;
  • solar thermal systems and vapour compression and absorption heat pumps modelling;
  • simulation strategies and data analysis;
  • sensitivity analysis, first parametric simulations and post-processing.

 

Lecture 3 – Summary on PV and PVT systems and their integration.
Lecturer: Claudio Del Pero and Fabrizio Leonforte
[07/02/2020 09:00 - 13:00]

  1. Advanced technical configurations including PV, PVT, energy storages and heat pumps.
  2. Overview on the relevant Trnsys types

 

Workshop 2 – Student groups project definition
[10/02/2020 08:30 - 13:30]

Starting from the discussion of the PhD thesis object of each students, and from the topics of the previous lectures, the project to be analyzed by each student group will be defined in agreement with the teacher

 

Workshop 3 – Hands-on Trnsys 18. PV, Heat Pumps  and storage systems
Lecturer: Rossano Scoccia

[11/02/2020 08:30 - 13:30]

PV, Heat Pump  and storage systems modelling approaches in Trnsys.

 

Workshop 4 – Question and answers workshop on the student’s projects
Lecturer: Rossano Scoccia
[13/03/2020 08:30 - 13:30]


Bibliografia
Risorsa bibliografica obbligatoriaJohn A. Duffie, William A. Beckman, Solar engineering of thermal processes, ISBN: 978-04-7087-366-3
Risorsa bibliografica obbligatoriaTrnsys 18 user manual
Risorsa bibliografica obbligatoria2011 ASHRAE handbook : heating, ventilating, and air-conditioning applications

Software utilizzato
Nessun software richiesto

Mix Forme Didattiche
Tipo Forma Didattica Ore didattiche
lezione
12.0
esercitazione
0.0
laboratorio informatico
0.0
laboratorio sperimentale
0.0
progetto
0.0
laboratorio di progetto
19.0

Informazioni in lingua inglese a supporto dell'internazionalizzazione
Insegnamento erogato in lingua Inglese
Disponibilità di materiale didattico/slides in lingua inglese
Disponibilità di libri di testo/bibliografia in lingua inglese
Possibilità di sostenere l'esame in lingua inglese
Disponibilità di supporto didattico in lingua inglese

Note Docente
You will need a laptop, with Win 10 64 bits. Two weeks before the beginning of the course please contact rossano.scoccia@polimi.it for the sharing of the starting material package.
schedaincarico v. 1.6.9 / 1.6.9
Area Servizi ICT
21/01/2022