dc.contributor.author
Pavlaki, Kalliopi M.
en
dc.date.accessioned
2015-06-18T09:05:03Z
dc.date.available
2015-09-27T05:57:34Z
dc.date.issued
2015-06-18
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/404
dc.rights
Default License
dc.title
Environmental assessment methods and their impact on buildings’ life cycle cost
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heal.keyword
Architecture and energy conservation
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heal.keyword
Buildings--Energy conservation
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heal.keyword
Buildings--Environmental aspects
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heal.keyword
Buildings--Environmental engineering
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heal.keyword
Sustainable construction
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heal.keyword
Sustainable buildings
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heal.keyword
Sustainable architecture
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heal.keyword
Dissertations, Academic
en
heal.license
http://creativecommons.org/licenses/by-nc/4.0
heal.recordProvider
School of Science and Technology, MSc in Energy Systems
heal.publicationDate
2013-12
heal.bibliographicCitation
Pavlaki, Kalliopi , 2013, Environmental assessment methods and their impact on buildings' life cycle cost ,Master's Dissertation, International Hellenic University
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heal.abstract
This dissertation was written as a part of the MSc in Energy Systems at the International
Hellenic University.
An existing multi-tenant / multifamily building located in the area of Thessaloniki in
Greece was evaluated under LEED 2009 for Existing Buildings: Operations and
Maintenance criteria and thereafter alterations and additions were proposed in order the
building to be certified under the same rating system.
The goal of this dissertation is to investigate the impacts of the proposed modifications
on the building’s life cycle cost, targeting construction, operation and demolition –
waste management phases of the building’s life cycle.
At this point, I would like to thank my supervisor and my professor at International Hellenic
University, Prof. Dimitrios Anastaselos, for the guidance, encouragement and advice
throughout my time as his student. As well as, my family members for their support,
encouragement and patience towards all of my ups and downs during the preparation
of this dissertation.
en
heal.tableOfContents
ABSTRACT ................................................................................................................. III
CONTENTS ................................................................................................................... V
1. INTRODUCTION ....................................................................................................... 7
2. ENVIRONMENTAL ASSESSMENT METHODS ............................................... 11
2.1. THE SITUATION IN EUROPE – ENERGY PERFORMANCE OF BUILDINGS
DIRECTIVE (E.P.B.D.) .............................................................................................. 11
2.1.1 Hellenic Regulation on Energy Performance in the Building
Sector – Κ.ΕΝ.Α.Κ. ....................................................................................... 13
2.2 BRITISH RESEARCH ESTABLISHMENT ENVIRONMENTAL ASSESSMENT
METHOD……………… ............................................................................................ 17
2.3 LEADERSHIP IN ENERGY AND ENVIRONMENTAL DESIGN ................................... 20
2.3.1 LEED 2009 FOR NEW CONSTRUCTION AND MAJOR
RENOVATIONS ............................................................................................ 23
2.3.2. LEED 2009 FOR EXISTING BUILDINGS: OPERATIONS AND
MAINTENANCE (LEED 2009 EBOM) ....................................................... 23
2.4 COMPARISON BETWEEN B.R.E.E.A.M. AND L.E.E.D. ..................................... 24
3. LEED 2009 EBOM CREDITS ................................................................................ 28
4. ASSESSMENT OF THE BUILDING UNDER KENAK ...................................... 56
4.1. GENERAL BUILDING FEATURES ......................................................................... 56
4.2. OPAQUE BUILDING ELEMENTS ........................................................................... 59
4.3. TRANSPARENT BUILDING ELEMENTS ................................................................. 60
4.4. HEATING SYSTEM .............................................................................................. 61
4.4.1. Heating production system ............................................................... 62
4.4.2. Heating distribution system .............................................................. 62
4.4.3. Heating emission system .................................................................. 62
4.5. COOLING SYSTEM .............................................................................................. 62
4.5.1. Cooling production system ............................................................... 63
-vi-
4.5.2. Cooling emission system .................................................................. 63
4.6. DOMESTIC HOT WATER ..................................................................................... 63
4.6.1. DHW production system ................................................................... 63
4.6.2. DHW distribution system .................................................................. 63
4.7. ENERGY RANKING ............................................................................................. 63
5. ADAPTION OF THE BUILDING TO MEET LEED 2009 EBOM ..................... 65
6. THE IMPACT OF THE ADAPTIONS TO THE BUILDINGS’ LIFE CYCLE
COST ............................................................................................................................. 94
6.1. CONSTRUCTION PHASE ..................................................................................... 94
6.2. OPERATION PHASE ........................................................................................... 94
6.3 DEMOLITION - WASTE MANAGEMENT PHASE ...................................................... 97
6.4 NET PRESENT VALUE OF BUILDING’S LIFE CYCLE COST ..................................... 97
7. CONCLUSIONS ...................................................................................................... 99
BIBLIOGRAPHY ....................................................................................................... 102
APPENDICES ............................................................................................................ 104
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heal.advisorName
Anastaselos, Prof. Dimitrios
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heal.committeeMemberName
Dr. Anastaselos
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heal.committeeMemberName
Prof. Papadopoulos
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heal.committeeMemberName
Dr. Martinopoulos
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heal.academicPublisher
School of Science &Technology, Master of Science (MSc) in Energy Systems
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heal.academicPublisherID
ihu
heal.fullTextAvailability
true