GR Semicolon EN

Show simple item record

dc.contributor.author
Nikolopoulou, Elisavet
en
dc.date.accessioned
2017-05-12T08:08:13Z
dc.date.available
2017-07-19T00:00:33Z
dc.date.issued
2017-05-12
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/15860
dc.rights
Default License
dc.subject
Solar mass wall
en
dc.title
Parametric analysis & performance optimization of thermal mass solar walls
en
heal.type
masterThesis
en_US
heal.creatorID.dhareID
3302140020
heal.generalDescription
This dissertation was written as a part of the MSc in Energy Systems at the International Hellenic University and aims to investigate the performance and thermal behavior of a thermal storage wall (mass solar wall). Alongside contemplates a series of parameters of the mass wall and the correlation that these parameters have between them. The paper presents some general information on bioclimatic architecture for solar en-ergy. It analyzes the operating principles of passive solar systems and an extensive ref-erence to the function and design of thermal storage walls. Energy simulation software of Energy Plus and the design Google Sketch-up program were used to study the performance of the mass wall for a number of parameters that affect the function and performance of a thermal storage wall, accompanied by interpre-tation of the results.
en
heal.classification
Engineering
en
heal.keywordURI.LCSH
Sustainable construction
heal.keywordURI.LCSH
Architecture and climate
heal.keywordURI.LCSH
Sustainable architecture
heal.keywordURI.LCSH
Architecture--Environmental aspects
heal.keywordURI.LCSH
Bioclimatology
heal.keywordURI.LCSH
Buildings--Energy conservation
heal.keywordURI.LCSH
Solar energy
heal.keywordURI.LCSH
Environmental engineering
heal.keywordURI.LCSH
envi
heal.language
en
en_US
heal.access
free
en_US
heal.license
http://creativecommons.org/licenses/by-nc/4.0
en_US
heal.recordProvider
School of Science and Technology, MSc in Energy Building Design
en_US
heal.publicationDate
2017-03-09
heal.abstract
This dissertation was written as a part of the MSc in Energy Systems at the International Hellenic University and aims to investigate the performance and thermal behavior of a thermal storage wall (mass solar wall). Alongside contemplates a series of parameters of the mass wall and the correlation that these parameters have between them. The paper presents some general information on bioclimatic architecture for solar en-ergy. It analyzes the operating principles of passive solar systems and an extensive ref-erence to the function and design of thermal storage walls. Energy simulation software of Energy Plus and the design Google Sketch-up program were used to study the performance of the mass wall for a number of parameters that affect the function and performance of a thermal storage wall, accompanied by interpre-tation of the results. The goal of the study is to investigate the main energy performance factors of mass walls by energy simulation parametric analysis. The analysis will examine all material, design (orientation, thickness etc) and operation parameters together with representative climate parameters across the European continent, in order to propose an effective de-sign optimization. I would like firstly to thank my supervisor Professor Dr. Theodoros Theodosiou for his truly support in the preparation of this paper, directions encouragement and his valuable assistance. I would like to thank also my professor Dr. Georgios Martinopoulos for his support and advice throughout the course. Tasty Fruit company as they showed under-standing to undertake and fulfill all of my obligations and lastly my family that stands always by me.
en
heal.tableOfContents
ABSTRACT III CONTENTS IV 1 INTRODUCTION 1.1 HISTORICAL REVIEW 1.2 BIOCLIMATIC SYSTEMS 1.3 ENERGY BUILDING DESIGN PRINCIPLES 1.4 PASSIVE SOLAR HEATING 1.4.1 Direct Gain systems 1.4.2 Indirect gain systems 1.5 PASSIVE COOLING 1.6 THERMAL COMFORT CONDITIONS 1.6.1 Correlation parameters for assessing thermal comfort 1.6.2 The user involvement in shaping thermal comfort 1.7 ADVANTAGES AND DISADVANTAGES OF PSS 2 THERMAL MASS SOLAR WALL 2.1 THERMAL MASS WALL 25 2.2 THERMAL MASS WALL OPERATING PRINCIPLES 25 2.3 EFFICIENCY OF MASS WALL SYSTEM 2.4 THERMAL MASS WALL DESIGN 3 RESEARCH METHODOLOGY 3.1 BASIC ASSUMPTIONS 3.2 SOFTWARE & SIMULATION MODEL 3.2.1 Software used 3.2.2 Modeling process 3.2.3 Creation of Schedules 3.3 INTERVENTIONS TO IMPROVE THERMAL SOLAR MASS WALL 4 PARAMETRIC ANALYSIS & RESULTS 5 CONCLUSIONS BIBLIOGRAPHY APPENDIX I APPENDIX II
en
heal.advisorName
Theodosiou, Theodoros
en
heal.committeeMemberName
Martinopoulos, George
en
heal.committeeMemberName
Heracleous, Eleni
en
heal.academicPublisher
IHU
en
heal.academicPublisherID
ihu
en_US
heal.numberOfPages
91
en_US


This item appears in the following Collection(s)

Show simple item record

Related Items