MARC ayrıntıları
| 000 -LEADER |
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| fixed length control field |
08482nam a2200313 i 4500 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
150203s2014 enkm a001 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780123972699 |
| Qualifying information |
(hardback) |
|
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| International Standard Book Number |
0123972698 |
| Qualifying information |
(hardback) |
| 040 ## - CATALOGING SOURCE |
|---|
| Original cataloging agency |
UKMGB |
| Language of cataloging |
eng |
| Transcribing agency |
UKMGB |
| Modifying agency |
OCLCO |
| -- |
SGG |
| -- |
YDXCP |
| -- |
BTCTA |
| -- |
OCLCF |
| -- |
OSU |
| -- |
UtOrBLW |
| -- |
BAUN |
| Description conventions |
rda |
| 049 ## - LOCAL HOLDINGS (OCLC) |
|---|
| Holding library |
BAUN_MERKEZ |
| 082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Edition number |
23 |
| 090 ## - LOCALLY ASSIGNED LC-TYPE CALL NUMBER (OCLC); LOCAL CALL NUMBER (OCLC) |
|---|
| Classification number (OCLC) (R) ; Classification number, CALL (RLIN) (NR) |
NA2542.36 |
| Local cutter number (OCLC) ; Book number/undivided call number, CALL (RLIN) |
.S97 2014 |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
|---|
| Personal name |
Sayigh, A. A. M., |
| Dates associated with a name |
1939- |
| 245 10 - TITLE STATEMENT |
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| Title |
Sustainability, energy and architecture : |
| Remainder of title |
case studies in realizing green buildings / |
| Statement of responsibility, etc |
Ali Sayigh. |
| 250 ## - EDITION STATEMENT |
|---|
| Edition statement |
First edition. |
| 264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE |
|---|
| Place of production, publication, distribution, manufacture |
Oxford, UK : |
| Name of producer, publisher, distributor, manufacturer |
Academic Press, |
| Date of production, publication, distribution, manufacture, or copyright notice |
2014. |
| 300 ## - PHYSICAL DESCRIPTION |
|---|
| Extent |
xxv, 524 pages : |
| Other physical details |
illustrations ; |
| Dimensions |
24 cm. |
| 336 ## - CONTENT TYPE |
|---|
| Content Type Term |
text |
| Content Type Code |
txt |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
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| Media Type Term |
unmediated |
| Media Type Code |
unmediated |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
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| Carrier Type Term |
volume |
| Carrier Type Code |
volume |
| Source |
rdacarrier |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
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| Bibliography, etc |
Includes bibliographical references and index. |
| 505 00 - FORMATTED CONTENTS NOTE |
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| Title |
-- Table of Contents |
| -- |
Copyright |
| -- |
Preface |
| -- |
Authors’ Biography |
| -- |
Chapter 1. Dutch Efforts Towards a Sustainable Built Environment |
| -- |
Abstract |
| -- |
1.1 Introduction |
| -- |
1.2 Passive Houses |
| -- |
1.3 Types of Case Studies |
| -- |
1.4 The Veldhuizerschool Ede |
| -- |
1.5 Christiaan Huygens College: an Energy Plus School |
| -- |
1.6 Conventional Dutch Building Design |
| -- |
1.7 Energy Saving Techniques |
| -- |
1.8 Novel Design and Examples |
| -- |
1.9 The TNT Green Office |
| -- |
1.10 Sustainability |
| -- |
1.11 Diverse Sustainability Measures |
| -- |
1.12 Results of GreenCalc+ and LEED Assessment |
| -- |
References |
| -- |
Chapter 2. Low Energy Approaches to Design-Led Schemes – Five Case Studies |
| -- |
Abstract |
| -- |
2.1 Introduction |
| -- |
2.2 Case Studies 1 and 2 – Overview |
| -- |
2.3 Case Study 3 – Overview |
| -- |
2.4 Case Studies 4 and 5 – Overview |
| -- |
2.5 Conclusion |
| -- |
Chapter 3. Sustainable Construction Materials |
| -- |
3.1 Introduction |
| -- |
3.2 Demand for Construction Materials |
| -- |
3.3 Material Resources |
| -- |
3.4 Renewable Materials |
| -- |
3.5 Recycled Materials |
| -- |
3.6 Life Cycle Analysis |
| -- |
3.7 Embodied Energy |
| -- |
3.8 Gross Energy Requirement |
| -- |
3.9 Process Energy Requirement |
| -- |
3.10 Embodied Carbon |
| -- |
3.11 Natural Building Materials |
| -- |
3.12 Short Rotation Renewable Materials |
| -- |
3.13 Summary |
| -- |
References |
| -- |
Chapter 4. The Sustainable Corporate Image and Renewables: From Technique to the Sensory Experience |
| -- |
Abstract |
| -- |
4.1 Introduction |
| -- |
4.2 Sustainable Innovation, or the Tried and Tested |
| -- |
4.3 The 20th Century, the Corporate Image and Sustainability |
| -- |
4.4 The Techno-Centric Sustainable Building in the 21st Century |
| -- |
4.5 The Sustainable Working Shed, Lion House, Alnwick, Northumberland, UK |
| -- |
4.6 Experiencing Renewables in Building Skins |
| -- |
4.7 The Responsive Skin and Corporate Image |
| -- |
4.8 Increasing Facade Layers: Double Skin Facades as a Passive Measure and a Cultural Message |
| -- |
4.9 Sustainability as Haptic Experience |
| -- |
Conclusions |
| -- |
References |
| -- |
Chapter 5. Residential Deep Energy Retrofits in Cold Climates |
| -- |
Abstract |
| -- |
5.1 Introduction |
| -- |
5.2 Building Materials and Assemblies |
| -- |
5.3 Ventilation and Air Movement |
| -- |
5.4 Case Studies |
| -- |
Chapter 6. Sustainable Building for a Green and an Efficient Built Environment: New and Existing Case Studies in Dubai |
| -- |
Abstract |
| -- |
6.1 Introduction |
| -- |
6.2 Climate Change: Cities and Buildings |
| -- |
6.3 Importance of Sustainable/Green Building |
| -- |
6.4 Sustainability Regulations and Laws Contributing to Carbon Emissions Reduction |
| -- |
6.5 Taxonomy of a Sustainable Building |
| -- |
6.6 Green Buildings in Dubai, UAE |
| -- |
6.7 Conclusions |
| -- |
References |
| -- |
Suggested Reading |
| -- |
Chapter 7. The LED Lighting Revolution |
| -- |
Abstract |
| -- |
7.1 Introduction |
| -- |
7.2 From LED Chips to Fixtures |
| -- |
7.3 Optics |
| -- |
7.4 Fixture Body |
| -- |
7.5 Advantages and Features |
| -- |
7.6 Comparisons with Traditional Lighting |
| -- |
7.7 Architectural/General Illumination Applications |
| -- |
7.8 Case Studies |
| -- |
7.9 Future/Novel Designs Possible with LEDs |
| -- |
7.10 Conclusions |
| -- |
References |
| -- |
Chapter 8. Minimum Energy Housing in Cuba |
| -- |
Abstract |
| -- |
8.1 Introduction |
| -- |
8.2 Life Cycle and Sustainable Buildings |
| -- |
8.3 Design Strategies in Warm and Humid Climates |
| -- |
8.4 The Urban Microclimate |
| -- |
8.5 Vernacular Architecture in Cuba |
| -- |
8.6 Modern Architecture in Cuba |
| -- |
8.7 Present and Future |
| -- |
8.8 Final Remarks |
| -- |
Chapter 9. Daylighting |
| -- |
Abstract |
| -- |
9.1 Introduction |
| -- |
9.2 Characteristics and Availability |
| -- |
9.3 Photometric Units |
| -- |
9.4 Colors |
| -- |
9.5 Daylight Availability |
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9.6 Performance of Daylighting |
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9.7 Comfort and Health |
| -- |
9.8 Visual Performance |
| -- |
9.9 Daylight Factor |
| -- |
9.10 Thermal Comfort and Energy Use |
| -- |
9.11 Daylighting Design |
| -- |
9.12 Daylighting Systems and Solar Control |
| -- |
9.13 Energy Saving and Daylight Responsive Controls |
| -- |
9.14 Design Tools |
| -- |
References |
| -- |
Chapter 10. Vernacular Tower Architecture of Sana’a: Theory and Method for Deriving Sustainable Design Guidelines |
| -- |
Abstract |
| -- |
10.1 Introduction |
| -- |
10.2 Background |
| -- |
10.3 Theoretical Model for Sustainable Architecture |
| -- |
10.4 Analysis |
| -- |
10.5 Conclusion |
| -- |
References |
| -- |
Appendix A Sustainable Design Guidelines Derived From Response of Architectural Form and Space to Climatic and Functional Factors |
| -- |
Appendix B A Comparison between a Vertical Form and a Horizontal Form |
| -- |
Chapter 11. Sustainable Buildings in Mediterranean Area |
| -- |
Abstract |
| -- |
11.1 Abitare Mediterraneo Project |
| -- |
11.2 EULEB |
| -- |
11.3 Technological and Business Incubator – Lucca, Italy |
| -- |
11.4 Bardini Museum – Florence, Italy |
| -- |
11.5 New Meyer Hospital – Florence, Italy |
| -- |
11.6 Primary School – Empoli, Italy |
| -- |
11.7 Malta Stock Exchange – La Villetta, Malta |
| -- |
Chapter 12. A Low-Energy Building Project in Sweden – the Lindås Pilot Project |
| -- |
Abstract |
| -- |
12.1 Introduction |
| -- |
12.2 The Building’s Energy Systems and Buildings in Energy Systems |
| -- |
12.3 Energy Use in Swedish Building Sector |
| -- |
12.4 Energy Use in Residential Buildings |
| -- |
12.5 New Technologies that Make Buildings more Energy-Efficient and Environmentally Sound |
| -- |
12.6 Action Plans and Energy Policies to Achieve Energy-Efficient Buildings |
| -- |
12.7 Building and the Health of Occupants |
| -- |
12.8 Some Examples of Low-Energy Buildings in Sweden |
| -- |
12.9 Energy-Efficient Buildings and Cities – a Strategic Direction for Urban Policy Makers |
| -- |
12.10 The Swedish Lindås Pilot Project – Houses without Heating Systems |
| -- |
References |
| -- |
Chapter 13. Key Characteristics of Top Performing Sustainable Buildings from the Perspective of the Users |
| -- |
Abstract |
| -- |
Acknowledgments |
| -- |
13.1 Introduction |
| -- |
13.2 The Buildings and their Users |
| -- |
13.3 Survey Methodology and Analytical Procedures |
| -- |
13.4 Design Features of Buildings with High Summary Indices |
| -- |
13.5 Key Characteristics and Common Features of these Sustainable Buildings |
| -- |
References |
| -- |
Appendix Calculation of Indices |
| -- |
Chapter 14. Sustainable Buildings and their Relationship with Humans and Nature: Lessons from the Past |
| -- |
Abstract |
| -- |
Acknowledgments |
| -- |
14.1 Background and Present Situation |
| -- |
14.2 Traditional Architecture; The Outcome of a Complex Thinking System |
| -- |
14.3 Traditional Architecture and Adaptive Response to Climate |
| -- |
14.4 Wind Catcher/Tower |
| -- |
14.5 Spatial Organization: A Means to Adapt to Culture and Climate |
| -- |
14.6 Conclusion |
| -- |
References and further reading |
| -- |
Chapter 15. Architectural Buildings in Romania |
| -- |
15.1 One Family House in Burlusi Ciofringeni, Arges County, Romania |
| -- |
15.2 Amvic Passive Office Building – Bragadiru, Ilfov County, Romania |
| -- |
15.3 Residential Living Units in Cluj Napoca, Cluj County, Romania |
| -- |
15.4 Two Passive Houses in Caransebes, Caras-Severin County, Romania |
| -- |
15.5 Church in Bistra, Neamt County, Romania – Low-Energy Building |
| -- |
15.6 Conclusions |
| -- |
References |
| -- |
Chapter 16. Sustainable Architecture in Africa |
| -- |
Abstract |
| -- |
16.1 Introduction |
| -- |
16.2 Bioclimatic Project: General Guidelines |
| -- |
16.3 Climatic Context |
| -- |
16.4 Building Location, Form and Orientation |
| -- |
16.5 Shading |
| -- |
16.6 Envelope Coatings |
| -- |
16.7 Insulation |
| -- |
16.8 Window Size and Glazing Type |
| -- |
16.9 Natural Ventilation |
| -- |
16.10 Thermal Mass |
| -- |
16.11 Evaporative Cooling |
| -- |
16.12 Control of Internal Gains |
| -- |
16.13 The Use of Environmental Controls |
| -- |
16.14 Passive Design and Thermal Comfort Criteria |
| -- |
Chapter 17. Mud to Skyscraper – Building Revolution in 50 Years in the Middle East |
| -- |
Abstract |
| -- |
17.1 Portable Housing: The Bedouin Tent |
| -- |
17.2 Mud Houses and Comfort |
| -- |
17.3 A New Generation of Buildings |
| -- |
17.4 What is the Solution? |
| -- |
17.5 Energy and Buildings |
| -- |
17.6 Final Remarks |
| -- |
Index |
| 520 ## - SUMMARY, ETC. |
|---|
| Summary, etc |
Addresses what constitutes a sustainable building, suggesting bases for benchmarks, and explains the most important techniques and tools available to engineers and architects exploring green building technologies. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Sustainable architecture. |
|
|---|
| Topical term or geographic name as entry element |
Sustainable buildings |
| General subdivision |
Design and construction. |
|
|---|
| Topical term or geographic name as entry element |
Sustainable architecture |
| Form subdivision |
Case studies. |
|
|---|
| Topical term or geographic name as entry element |
Sustainable buildings |
| General subdivision |
Design and construction |
| Form subdivision |
Case studies. |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
|---|
| Source of classification or shelving scheme |
Library of Congress Classification |
| Koha item type |
Kitap |
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