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dc.contributor.author
Tourpeslis, Iordanis
en
dc.date.accessioned
2019-03-16T10:42:24Z
dc.date.available
2019-03-17T01:00:14Z
dc.date.issued
2019-03-16
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/29260
dc.rights
Default License
dc.subject
Transient Heat Flows
en
dc.subject
Building’s Thermal Bridges
en
dc.title
Transient Heat Flows Through Building’s Thermal Bridges
en
heal.type
masterThesis
en_US
heal.language
en
en_US
heal.access
free
en_US
heal.license
http://creativecommons.org/licenses/by-nc/4.0
en_US
heal.fileFormat
pdf
en_US
heal.recordProvider
School of Science and Technology, MSc in Energy Building Design
en_US
heal.publicationDate
2019-03-16
heal.bibliographicCitation
Iordanis Tourpeslis , Transient Heat Flows Through Building’s Thermal Bridges, SCHOOL OF SCIENCE & TECHNOLOGY, ENERGY BUILDING DESIGN, International Hellenic University, 2019
en
heal.abstract
This dissertation was written as a part of the MSc in Energy Building Design at the International Hellenic University. With the implementation of Energy Performance of Buildings Directive (EPBD) and Nearly Zero Energy Buildings (NZEB), international as well national legislations are tending to have a tougher stance regarding the energy performance of the buildings. By implementing high envelope performance and well insulated buildings, heat flows through linear thermal bridges is of high importance in the calculation of total envelope heat flow. Despite their significance (in the accuracy of the calculation, the potential problems that can arise concerning health, maintenance costs and false selection of HVAC systems), thermal bridge effect in all calculation methodologies follows a simplified approach even neglected in some national regulations and building codes, in proportion to the literature it might be inaccurate. This study aims to calculate the actual heat flow through thermal bridges by using a dynamic simulation approach by implementing a transient finite element method software tool in order to investigate the accurate impact as well as to compare it with the steady state methods that are dominant and to evaluate the necessity of this change.
en
heal.advisorName
Theodosiou, Theodoros
en
heal.committeeMemberName
Martinopoulos, Georgios
en
heal.academicPublisher
IHU
en
heal.academicPublisherID
ihu
en_US
heal.numberOfPages
63
en_US


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