Wiesbaden : , : Springer Fachmedien Wiesbaden : , : Imprint : Springer, , 2026

3-658-50797-7

1 online resource (68 pages)

Springer essentials, , 2731-3115

690

Buildings - Design and construction

Sustainable architecture

Buildings - Repair and reconstruction

Buildings - Maintenance

Building Construction and Design

Sustainable Architecture/Green Buildings

Building Repair and Maintenance

Inglese

Vorwort -- Einführung (Motivation) -- Akustische Grundlagen -- Verfahren auf der Basis von Schallgeschwindigkeitsmessungen -- Anwendungen tomografischer Messungen -- Akustische Dichtheitsmessungen -- Zusammenfassung und Ausblick.-Literatur.

Although this essential deals with acoustic measurement methods in rooms and buildings, acoustics here is not to be understood as building acoustics. In addition to conventional methods for assessing indoor climate and achieving energy-efficient air conditioning, acoustic methods can provide information useful for indoor climate design, such as: • Analyzing sound speed distributions as a source of information about temperature and flow fields in rooms, • Acoustic detection of leaks to identify unwanted ventilation or air exchange and thus energy losses. These methods partly originate from other fields of knowledge, including meteorology, tomography, and acoustic imaging. They can therefore be regarded as alternatives and supplements to conventional methods for energy-efficient indoor climate design. The authors Armin

Raabe and Peter Holstein studied physics at the University of Leipzig. Their shared interest lies in analyzing sound propagation conditions in a wide range of environments and developing corresponding measurement methods. The work on the topic discussed here was carried out at the Institute of Meteorology at the University of Leipzig (A. Raabe) and in collaboration with SONOTEC GmbH (P. Holstein). The translation was done with the help of artificial intelligence. A subsequent human revision was done primarily in terms of content. .