Minimizing energy consumption, energy poverty and global and local climate change in the built environment : (Record no. 216499)
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| fixed length control field | 11499cam a2200505 i 4500 |
| 040 ## - CATALOGING SOURCE | |
| Transcribing agency | N$T |
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| -- | 1105196326 |
| -- | 1105564675 |
| -- | 1125672148 |
| -- | 1136254988 |
| -- | 1228649921 |
| -- | 1229756391 |
| -- | 1244634334 |
| -- | 1261772491 |
| -- | 1439604267 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9780128114186 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 0128114185 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 0128114177 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9780128114179 |
| 082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| -- | https://id.oclc.org/worldcat/ddc/E3mRkMDCtcTcTJCQrk8jfTTHKW |
| 100 1# - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Santamouris, Matthaios, |
| 245 10 - TITLE STATEMENT | |
| Title | Minimizing energy consumption, energy poverty and global and local climate change in the built environment : |
| Sub title | innovating to zero: Causalities and impacts in a zero concept world / |
| Statement of responsibility, etc. | Matthaios Santamouris. |
| 300 ## - DESCRIPTION | |
| Extent | 1 online resource |
| 505 0# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Front Cover -- Minimizing Energy Consumption, Energy Poverty and Global and Local Climate Change in the Built Environment: Innovating to Zero -- Copyright Page -- Dedication -- Contents -- Acknowledgments -- 1 Introduction -- The Built Environment: Characteristics, Problems, Prospects and Future Needs -- Analyzing the Three Main Problems of the Built Environment: Energy Consumption and Environmental Quality, Energy Poverty an... -- Energy Consumption in the Built Environment: Challenges and Opportunities -- Climate Change in the Urban Built Environment: Our New Big Problem -- Energy Poverty: Status and Prospects -- References -- Further Reading -- 2 Energy Consumption and Environmental Quality of the Building Sector -- Evolution of Energy Consumption in the World: Trends and Progress -- Energy Consumption in Developed and Developing Countries -- Energy Consumption in Developed Countries -- Energy Consumption in Europe -- Energy Consumption in The United States of America -- Energy Consumption in the Rest of the World -- The Impact of Global Economy on the Energy Consumption of the Building Sector -- Standards and Regulations on the Energy Consumption of the Building Sector -- References -- Further Reading -- 3 Urban Heat Island and Local Climate Change -- Definition of Local Climatic Change and Urban Overheating -- Synergies Between Local and Global Climate Change -- On the Magnitude of the Urban Heat Island in the World -- Analysis of the Main Parameters Defining the Magnitude and the Characteristics of Local Climate Change -- Impact of Local Climate Change on Electricity Power Demand -- Impact of Local and Global Climate Change on the Energy Consumption of Buildings -- Studies Aiming to Analyze the Energy Impact of the Heat Island on Various Types of Buildings, Using Urban and Rural Climati... |
| 505 8# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Studies Investigating the Energy Impact of UHIs and Global Climate Change on the Total Energy Consumption of the Building S... -- Studies Analyzing the Multi-Annual Impact of the Urban Warming on the Energy Consumption of Various Types of Buildings -- Expected Future Increase in the Cooling Energy Demand of Buildings Caused by Global Climate Change -- Impact of Local Climate Change on the Environmental Quality of Cities -- Impact of Local Climate Change on Health, Mortality and Morbidity -- Impact of Local Climate Change on the Global Economy -- Impact of Local Climate Change on Indoor and Outdoor Comfort Conditions -- Targets for Urban Climatic Resilience -- References -- Further Reading -- 4 Energy Poverty and Urban Vulnerability -- Definitions of Energy Poverty and Actual Status in the World -- Energy Poverty in the Developed World -- Facts and Statistics -- Energy Poverty Characteristics in the Developing World -- Analysis of Indoor Climatic Conditions in Low Income Households: Energy Consumption, Environmental Quality and Vulnerability -- Indoor Thermal Comfort During the Summer Period -- Discomfort Problems of Low Income Households in Winter -- Lighting and Visual Problems in Low Income Houses -- Ventilation and Indoor Air Quality Problems in Low Income Houses -- Exposure to Noise Pollution -- Analysis of the Urban Environmental Conditions in Low Income Urban Districts: Problems and Characteristics -- Building Quality and its Role in Energy Poverty -- Levels of Energy Consumption of Low Income Households -- Social and Health Status of Low Income Households -- References -- Further Reading -- 5 Defining the Synergies Between Energy Consumption-Local Climate Change and Energy Poverty -- Explaining the Synergies Between Energy Consumption, Energy Poverty and Local Climate Change. |
| 505 8# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Analysis of the Synergies Between the Energy Consumption of Buildings and Local Climate Change -- Link 1: Low Energy Consumption Decreases Heat Emissions from the HVAC Systems and Power Plants, and Reduces the Total Anthr... -- Link 2: An Increase in the Energy Efficiency of Buildings will Decrease the Cost of Energy Services and may Result in an In... -- Link 3: Fuel Shift From Conventional to Renewable Energy Sources Will Result in Decreased Gas Emissions -- Link 4: Higher Ambient Temperatures Increase Energy Consumption for Cooling and Decrease Energy Consumption for Heating -- Link 5: Higher Ambient Temperatures and Heat Waves Increase Peak Electricity Demand and Oblige Utilities to Build Additiona... -- Link 6: Climate Change Creates Increased Energy and Environmental Needs for Dwellings Belonging to the Elderly and Vulnerab... -- Link 7: UHI Increases the Size of HVAC Systems and Raises Capital Investment Cost -- Link 8: UHI Increases the Concentration of Ozone in the Atmosphere and Obliges for the Installation of Additional Mechanica... -- Link 9: Higher Ambient Temperatures Decrease the Potential of Passive Cooling Techniques Such as Night Ventilation -- Synergies and Impacts Between Low Energy Consumption Buildings and Energy Poverty -- Link 10: Improvement of the Thermal Quality of Buildings Achieved Through Strict Regulations and Technological Developments... -- Link 11: Improvement in the Thermal Quality of Low Income Buildings will Deliver Important Economic, Social and Labour Benefits -- Link 12: Improvement in the Housing Quality will Help to Ameliorate Health Problems Among the Vulnerable Population -- 5Link 13: An Increase in Rehabilitation Cost Induced by Severe Energy Regulations may Decrease Adaptation Potential and Mar... |
| 505 8# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Link 14: Energy Poverty Brings Additional Financial Pressure to the Built Environment and Increases the Total Cost of Build... -- Link 15: Energy Poverty Creates Additional Research and Industrial Needs to Develop High Efficiency-low Cost Energy Technol... -- Impacts and Synergies Between Climate Change and Energy Poverty -- Link 16: An Increase in the Ambient Temperature has a Global Negative Effect on Indoor Thermal Comfort, Health and Energy C... -- Link 17: An Increase in the Ambient Temperature Deteriorates Outdoor Climatic Conditions in Deprived Urban Areas Where the ... -- Link 18: Higher Ambient Temperatures Increase the Cost of Peak and Regular Electricity and put Stress on Energy Poor Popula... -- Link 19: Higher Ambient Temperatures Decrease the Cooling Potential of Environmental Heat Sinks. They Oblige the Energy Poo... -- Link 20: Economic Disadvantage in Poor Urban Areas Decreases the Potential for the Application of Mitigation and Adaptation... -- Link 21: The use of Improper and Polluting Fuels by the Energy Poor Increases Emissions and Intensifies Local Climate Change -- Link 22: The Increased Energy Consumption per Square Meter of low Income Households Increases Emissions and Intensifies Cli... -- Integrating the Global Synergies in a Common Frame -- References -- 6 Defining Future Targets -- The Idea of 'Minimizing to Zero': Analysis of the Concept, Advantages and Drawbacks -- Objectives, Expected Outcomes, Policies and Tools -- References -- 7 Technological-Economic and Social Measures to Decrease Energy Consumption by the Building Sector -- State of the Art Technologies to Decrease the Energy Consumption of Buildings and Improve their Environmental Quality -- Zero Energy Buildings and Zero Energy Settlements: An Evaluation of Existing Progress and Future Trends and Prospects. |
| 505 8# - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Future Energy Consumption of the Building Sector, The Role of Overpopulation, Technology Development, Economic Development ... -- Policy and Regulatory Issues to Control and Minimize Energy Consumption in the Building Sector -- Analysis of the Potential Impact of the Minimization of Energy Consumption in the Building Sector on Labor, Economy, Enviro... -- References -- 8 Mitigating the Local Climatic Change and Fighting Urban Vulnerability -- Introduction -- Description and Performance of Mitigation Technologies to Fight Local Climate Change -- General -- Reflective Technologies -- Increasing the Albedo of Cities -- White Materials -- Colored Infrared Reflective Materials -- Infrared Reflective Materials Doped with Phase Change Materials -- Color Changing Reflective Technologies -- Thermochromic Coatings for the Urban Built Environment -- Fluorescent Cooling for Urban Materials -- Greenery Technologies -- Urban Parks -- Green Roofs -- Heat Dissipation Techniques -- Water-Based Mitigation Technologies -- Ground Mitigation Technologies -- Presentation and Evaluation of Existing Large-Scale Mitigation Projects Globally -- Performance of Evaporative Mitigation Technologies -- Mitigation Potential of Urban Greenery Systems -- Projects Using Reflecting Materials to Mitigate UHI -- Combined Projects Involving the Use of Reflective Pavements with Greenery, Shading and Evaporative Technologies -- Mitigation Projects Using Earth to Air Heat Exchangers Combined with Other Technologies -- Concluding Remarks About the Real Cooling Potential of the Considered Mitigation Technologies -- Existing and Future Policies to Fight Local Climatic Change and Urban Vulnerability -- Analysis of the Potential Impact of a... -- References -- Further Reading -- 9 Eradicating Energy Poverty in the Developed World. |
| 650 #0 - SUBJECT | |
| Keyword | Sustainable development. |
| 650 #0 - SUBJECT | |
| Keyword | Urban ecology (Sociology) |
| 650 #0 - SUBJECT | |
| Keyword | Energy consumption. |
| 650 #0 - SUBJECT | |
| Keyword | Energy conservation. |
| 650 #0 - SUBJECT | |
| Keyword | Energy policy. |
| 856 40 - ONLINE RESOURCES | |
| url | https://www.sciencedirect.com/science/book/9780128114179 |
| 100 1# - MAIN ENTRY--PERSONAL NAME | |
| -- | https://id.oclc.org/worldcat/entity/E39PCjKF7PwDxVFqHyGywHYGd3 |
| 758 ## - | |
| -- | has work: |
| -- | Minimizing energy consumption, energy poverty and global and local climate change in the built environment (Text) |
| -- | https://id.oclc.org/worldcat/entity/E39PCGhyK87xjw97WxjjqQK9j3 |
| -- | https://id.oclc.org/worldcat/ontology/hasWork |
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