Anna-Katharina Magg scite author profile

Anna-Katharina Magg

2Publications

3Citation Statements Received

3Citation Statements Given

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Affiliations

Graz University of Technology

Publications

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Strategies for a Safe Integration of Water-Bearing MEP Systems in Prefabricated CLT Room Modules

Monsberger¹,

Schickhofer

Magg³

et al. 2019

mocs

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The market for modular buildings based on prefabricated room modules made of cross-laminated timber (CLT) is rapidly growing in Europe. Short construction times combined with high construction quality due to prefabrication are highly attractive features of this construction method. While structural design aspects have been steadily improved, only little attention has been paid to mechanical, electrical and plumbing (MEP) systems so far. However, the integration of water-bearing pipes and surface seals must be done with great care, since a permanent exposure of the timber construction to moisture caused by leaks may result in biological degradation of the wooden structure. The risk of moisture damage can be reduced by decreasing the length of horizontal piping by means of intelligent pipe routing. In addition, sensor technology can be used to detect water leaks in critical areas where other measures fail to provide sufficient protection. Both aspects are addressed in this paper. First, the results of an analysis of nine completed construction projects based on CLT modules including hotels, student residences, nursing homes, and health care centers are presented. The projects were used to identify the current state of practice regarding the design of CLT room modules with respect to the integration of MEP installations. In a next step, general strategies for a safe integration of MEP installations in timber buildings are outlined. A bathroom layout with optimized pipe routing based on three individual shafts is chosen to show the application of these strategies. The approach enables a considerable reduction of horizontal pipe length while maintaining the functional and architectural requirements of the room module. Finally, a new planar sensor for detecting water leaks is presented. The results were developed in the research project SensGT and will lead to standardized solutions for a safe integration of MEP installations in CLT room modules.

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Building services in timber construction – Investigation on difficulties and reliefs during the installation procedures in multi-storey timber residential buildings

Koppelhuber

Magg

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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Multi-storey timber construction has undergone a strong positive development in Austria in recent years. However, while there are constant advancements in materials, construction technologies, production stages and assembly methods in timber construction itself, the design as well as the installation procedures of building services in multi-storey timber buildings lags far behind these technological progresses. The principles of planning and installation of building equipment are generally similar to those within solid mineral constructions that could be identified in the holistic research project TGA-Timber. A comprehensive investigation of the installation procedure on 3 multi-storey timber-construction projects has been carried on site and during prefabrication within the past 2 years in Austria at Graz University of Technology. The emphasis was set on the identification of disorders and delays caused by installation procedure of HVAC-building equipment in timber construction. The results of this research release the large potential of optimisation of piping runs as well as time- und cost savings within the installations process of building equipment as part of an overall economical optimisation. This publication is an excerpt of the results generated for these construction site analysis and deals in particular with difficulties and disturbances that have occurred.

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