# 206.289 Building Physics 2 - Lecture and Lab Practice This course is in all assigned curricula part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_21",{id:"j_id_21",showEffect:"fade",hideEffect:"fade",target:"isAllSteop"});});This course is in at least 1 assigned curriculum part of the STEOP.\$(function(){PrimeFaces.cw("Tooltip","widget_j_id_23",{id:"j_id_23",showEffect:"fade",hideEffect:"fade",target:"isAnySteop"});}); 2022W 2021W 2020W 2019W 2018W 2017W 2016W 2015W 2014W 2013W

2022W, VU, 3.0h, 4.0EC

## Properties

• Semester hours: 3.0
• Credits: 4.0
• Type: VU Lecture and Exercise
• Format: Distance Learning

## Learning outcomes

After successful completion of the course, students are able to...

.. use simplified calculation methods for energy efficiency; durability and thermal comfort assesment.

.. use a hygrothermal component simulation (liquid water transport, convection, diffusion; heat conduction) for three-dimensional building constructions to calculate the hygrothermal behavior and the risk of frost damage; rotting of biogenous materials and mold.

.. to collect the legal framework for a specific construction with relevance to building physics.

.. develope building constructions taking into account building physics aspects (fire protection, sound insulation, minimizing the risk of moisture damage) for timber based construction.

## Subject of course

The lecture is a continuation of the lecture "Building Physics" .

Contents: Air, moisture and heat transport in buildings, rooms and components; Description of indoor climate and microclimate at the building site; Comfort, productivity; Moisture-related damage processes (mold formation, ice formation, hygr. Length change); Flow processes in buildings, components; Hygrothermal component simulation and assessment of results; Hygrothermal room simulation and assessment of the results; Overall energy efficiency of buildings; Application of simulation programs;

## Teaching methods

Introductory lectures; Practical task close to reality; Calculations and simulations.

## Mode of examination

Immanent

Please join the tuwel course before the course starts
and carry out the tasks in the course topic "Wiederholung".

## Course dates

DayTimeDateLocationDescription
Thu10:00 - 13:0013.10.2022HS 18 Czuber - MB LV Einheit
Thu10:00 - 13:0020.10.2022 - 19.01.2023Seminarraum AA 03 - 1 LV Einheit
Thu14:00 - 18:0003.11.2022Seminar room 2 Holzbau Bauphysik Bauteilworkshop
Thu14:00 - 18:0010.11.2022Seminar room 3 Holzbau Bauphysik Workshop Anschlüsse
Thu14:00 - 18:0001.12.2022HS O221 LABOR
Thu10:00 - 13:0022.12.2022 Zoom Link in TUWELLV Einheit
Building Physics 2 - Lecture and Lab Practice - Single appointments
DayDateTimeLocationDescription
Thu13.10.202210:00 - 13:00HS 18 Czuber - MB LV Einheit
Thu20.10.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu27.10.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu03.11.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu03.11.202214:00 - 18:00Seminar room 2 Holzbau Bauphysik Bauteilworkshop
Thu10.11.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu10.11.202214:00 - 18:00Seminar room 3 Holzbau Bauphysik Workshop Anschlüsse
Thu17.11.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu24.11.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu01.12.202214:00 - 18:00HS O221 LABOR
Thu15.12.202210:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu22.12.202210:00 - 13:00 Zoom Link in TUWELLV Einheit
Thu12.01.202310:00 - 13:00Seminarraum AA 03 - 1 LV Einheit
Thu19.01.202310:00 - 13:00Seminarraum AA 03 - 1 Diskussion Aufgabenstellung

## Examination modalities

1. All practical exercises completed positively

2. written final exam with calculations or simulations

## Course registration

Begin End Deregistration end
15.09.2022 00:00 07.10.2022 12:00 22.10.2022 12:00

## Curricula

Study CodeSemesterPrecon.Info
066 505 Civil Engineering Science

## Literature

No lecture notes are available.

## Previous knowledge

Knowledge according to

VO Bauphysik

or Foundations of building science

German