Getting to Zero - Beyond Energy Transition Towards Carbon-Neutral Mediterranean Cities
portes grátis
Getting to Zero - Beyond Energy Transition Towards Carbon-Neutral Mediterranean Cities
Selected Papers from the World Renewable Energy Congress Med Green Forum 2024
Calcagno, Gisella; Trombadore, Antonella; Sayigh, Ali
Springer International Publishing AG
05/2025
1223
Dura
9783031823220
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
Part I. LANDSCAPE AND CITIES IN TRANSITION.- Chapter 1. What needs to be demonstrated: The potential benefits of an NBS (Nature-Based Solutions) project in a post-disaster reconstruction context, the case of the reconstruction of the Al Haouz region in Morocco.- Chapter 2. Energy transition and environmental sustainability in large commercial systems. A research project example.- Chapter 3. A Solarpunk Vision of the City and its Infrastructure.- Chapter 4. Innovative approaches for Cultural Heritage renovation in the Mediterranean area.- Chapter 5. Exploring the intersection of History and Morphology: A comparative study of the spatial formation in the early development of the Medina of Fez.- Chapter 6. A physics-based urban digital twin for designing and renovating sustainable cities.- Chapter 7. Analysing the Resilience of Microgrids as they Transition from Standalone to Grid-connected systems.- Chapter 8. Integrating transitions in climate-adaptive design. A Nature-based approach towards next resilient amphibious urban environments along Med coasts.- Chapter 9. Towards Sustainable and Regenerative Cities: Vertical Farming as a Solution for Achieving Zero-Carbon Cities and Climate Neutrality - A Case Study of a Mediterranean City.- Chapter 10. ECOLOGICAL AND BIOREGIONAL TRANSITION FOR MANHATTAN .- Chapter 11. Living labs to design the transition towards Carbon neutrality of Mediterranean Islands.- Chapter 12. Designing Nature Based Solutions for Climate Neutrality of school communities.- Chapter 13. Tailored solutions for the sustainable transition of the built environment: the specific context as information source.- Chapter 14. Seaweed House 2.0 Methods and Techniques to Harmonize and Improve the Living and Urban of Future Cities, Imitating Nature.- Chapter 15. SuDS-Sustainable Drainage Systems in city center. Open problems and technological solutions.- Chapter 16. Mapping urban local metabolism to support Building Integrated Agriculture.- Chapter 17. PV Cool: a hybrid solution for power and cooling generation.- Chapter 18. Recovering street life through urban climate control strategies: a design and assessment tool.- Chapter 19. Ventilation results and CFD model formulation for street canyons applied to climate control strategies.- Chapter 20. Integrated Methodology for Thermal Comfort Assessment in Urban Environments: Validation in the City of Seville, Spain.- Chapter 21. Microclimate analysis of urban comfort outdoors by studying anthropogenic heat in urban canyons.- Chapter 22. Wind farms and Diachronic Landscapes: The identity of sustainability.- Chapter 23. Energy and Environmental refurbishment of the residential complex of Torrevecchia in Rome: Retrofitting and Demand Response Activities.- Chapter 24. Shifting to a new sustainable paradigm: nature-based solutions and circular design for the urban regeneration.- Chapter 25. An Advanced Framework for Regenerative Design in Digital and Physical Prototyping. Crafting a Comprehensive Atlas for Predictive Modeling and Adaptive Technologies in Climate Change Scenario Analysis.- Chapter 26. Adaptive technologies in flooding scenarios through NBS/SUDS. The experimentation of an innovative protocol for the resilience and biodiversity protection on the coast of Reggio Calabria.- Chapter 27. New forms of interaction between infrastructure and the city The experience of the intensive forest in the Garbatella park in Rome.- Chapter 28. A Novel Collaborative Stakeholder Development Tool Using Energy System Optimisation and Visual Interface for Workshop Facilitation.- Chapter 29. Cities and decarbonisation: an assessment model for the technological reconfiguration of proximity open spaces .- Chapter 30. Smart Biophilic cities: green and innovative digital solutions for sustainable urban development.- Chapter 31. 'Getting to zero' the university buildings stock. Boosting the renovation strategy and the action plan of the University of Florence.- Chapter 32. The Technological Design of Renewable Energy Communities: architectural implication of an holistic approach.- Chapter 33. Climate Neutrality and Global Perspective for Net Zero Policies and Buildings.- Chapter 34. CONSTRUCTING AND CULTIVATING "THE URBAN NATURE".- Chapter 35. Comparative Analysis of the energetic performance of Buildings Integrated Semi-Transparent PV glazing systems in the climate of Hungary and Syria Title.- Part II. ARCHITECTURES FOR TOMORROW.- Chapter 36. Mediterranean Under Pressure: Architectures resistance to the Climate Emergency.- Chapter 37. Madonie Green Walls Revolution sustainable revitalization and enhancement of Sicilian inner rural areas.- Chapter 38. Explaining Positive Building definition: A Review and Revision.- Chapter 39. Energy retrofit of non-monumental, historic buildings: Limitations and opportunities of technological advances.- Chapter 40. A multi-criteria evaluation tool for the adaptive regeneration of the residential heritage.- Chapter 41. Technological and environmental strategies for the redevelopment of Outdoor Learning spaces and the establishment of Energy Hubs in school buildings.- Chapter 42. Bioclimatic Urban Renewal approach on an Historical Disused Military Area in Naples.- Chapter 43. CIS Roma Scuole Verdi: a Programme to Improve Energy Efficiency and Decarbonization by Retrofitting School Buildings .- Chapter 44. Adaptive Approaches to Attain Net Zero through Carbon Sequestration in Heritage Sites of Coastal Mediterranean Cities.- Chapter 45. Investigating the Effect of Geometry to Approach Positive Buildings.- Chapter 46. Architectural treatments for the integration of solar energy systems on the roofs of residential buildings as an alternative solution to the energy crisis in Syria.- Chapter 47. Comfort at work: Analysis, evaluation and design proposal for an industrial building in northern Italy.- Chapter 48. Architectural regeneration between innovative technologies and cultural heritage: adaptive reuse of school buildings.- Chapter 49. Assessing climate change adaptation of buildings: a review of performance indicators in Green Building Rating Systems.- Chapter 50. Open-source tools to support local circular co-design.- Chapter 51. Nature positive buildings: systemic approaches and technological design experimentation.- Chapter 52. Holistic redevelopment of a coastal heritage area in Palermo (IT).- Chapter 53. Mediterranean synergies for the energy renovation of university buildings: three pilot projects in Palestine, Tunisia, and Italy.- Chapter 54. The Digitalization of Participatory Approaches.- Chapter 55. GREEN ARCHITECTURE, NZEB AND CLIMATE NEUTRALITY. AN INTERVENTION DESIGN MODEL FOR DEEP RENOVATION OF PUBLIC HOUSING.- Chapter 56. Environment, Technology, Architecture. Application of green technologies for the rehabilitation and energy renovation of the modern built heritage.- Chapter 57. Adopting circular economy strategies in building regeneration through a holistic approach.- Part III. ECO-TECHNOLOGIES AND MATERIALS.- Chapter 58. European Drive to use Photovoltaic Application in New Buildings in 2025.- Chapter 59. Material synergies and industrial symbiosis to valorise granite scraps from quarries in Sardinia.- Chapter 60. Biobased materials for the improvement of human quality life a Km 0.- Chapter 61. Bio-based materials to foster efficient retrofitting of the existing building stock Cork and hemp to support environmental transition preserving socio-cultural values.- Chapter 62. Reusing olive pomace waste for energy saving applications in construction: development of a panel prototype.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 64. Experimental development and proof of concept for natural-based cool pavements.- Chapter 65. Green Responsive System (GRS): A Paradigm Shift in Urban Decarbonization in the Mediterranean Context.- Chapter 66. A zero-waste strategy toward carbon neutrality. Circular technology experimentations for life extension of non-recyclable plastic packaging.- Chapter 67. Eco-Design for Transition Architecture: Comparative Analysis for an a-scalar methodology using PNACC-defined green actions and pre-design according to Life Cycle Thinking.- Chapter 68. An Integrated Approach towards Smart Building Strategies to Mitigate Climate Change and attain the SDGs in Architectural Education and Knowledge to Reach Net Zero .- Chapter 69. When architectural design unveils the ethical and aesthetic value of BIPV: the Santa Verdiana demo case.- Chapter 70. Circular building production in the South Mediterranean area: the experience of CUBATI Project.- Chapter 71. From waste to resource using recycled stone in 3D Printed building elements.- Chapter 72. Low carbon bio-based building materials from organic waste: a closed-loop production model within circular neighborhoods.- Part IV. PEOPLE AND COMMUNITIES.- Chapter 73. Empowering Circular Economy Transition in the Building Sector: A Stakeholder-Centric Approach in the Design Phase for Climate Change Mitigation.- Chapter 74. ESG Measurement Tool: An approach to measure the sustainability introduced in real estate requalification projects.- Chapter 75. A systemic design-led participatory process to address meaningful impact pathways for NetZero cities.- Chapter 76. Building BIM Competence: Learning in the DIGITAL DECATHLON.- Chapter 77. Environmental Comfort and Well-being: Unlocking Complexities of Human Behaviour towards Climate Change Mitigation - Assessment of an Apartment in a Selected Hot Urban Area in the Mediterranean Region.- Chapter 78. Housing adaptability for aging in place. Sustainable approaches to improve environmental comfort.- Chapter 79. The Moroccan Medina: Between Preservation and Sustainability in Light of the HUL recommendation.- Chapter 80. Modelling sustainable climate shelters: analysis of energy dynamics and comfort index at a public transport stop.- Chapter 81. Proposal of a Framework to Evaluate the Building Performance of Local Healthcare Facilities.- Chapter 82. Which Living Lab processes for the Renewable Energy Communities? A pilot experimentation in NRRP-T4Y Research.- Chapter 83. MED_MESS Diversity, creative entropy and Mediterranean informality practices. Interdisciplinary and interscalar analysis of urban open spaces as a knowledge-sharing tool for the cities' climate resilience.- Chapter 84. Agile Approach to Sustainable-Decarbonized Strategic Transition Mediterranean Facility Management Industries: Novel Case Study in Egypt.Chapter 45. Investigating the Effect of Geometry to Approach Positive Buildings.- Chapter 46. Architectural treatments for the integration of solar energy systems on the roofs of residential buildings as an alternative solution to the energy crisis in Syria.- Chapter 47. Comfort at work: Analysis, evaluation and design proposal for an industrial building in northern Italy.- Chapter 48. Architectural regeneration between innovative technologies and cultural heritage: adaptive reuse of school buildings.- Chapter 49. Assessing climate change adaptation of buildings: a review of performance indicators in Green Building Rating Systems.- Chapter 50. Open-source tools to support local circular co-design.- Chapter 51. Nature positive buildings: systemic approaches and technological design experimentation.- Chapter 52. Holistic redevelopment of a coastal heritage area in Palermo (IT).- Chapter 53. Mediterranean synergies for the energy renovation of university buildings: three pilot projects in Palestine, Tunisia, and Italy.- Chapter 54. The Digitalization of Participatory Approaches.- Chapter 55. GREEN ARCHITECTURE, NZEB AND CLIMATE NEUTRALITY. AN INTERVENTION DESIGN MODEL FOR DEEP RENOVATION OF PUBLIC HOUSING.- Chapter 56. Environment, Technology, Architecture. Application of green technologies for the rehabilitation and energy renovation of the modern built heritage.- Chapter 57. Adopting circular economy strategies in building regeneration through a holistic approach.- Part III. ECO-TECHNOLOGIES AND MATERIALS.- Chapter 58. European Drive to use Photovoltaic Application in New Buildings in 2025.- Chapter 59. Material synergies and industrial symbiosis to valorise granite scraps from quarries in Sardinia.- Chapter 60. Biobased materials for the improvement of human quality life a Km 0.- Chapter 61. Bio-based materials to foster efficient retrofitting of the existing building stock Cork and hemp to support environmental transition preserving socio-cultural values.- Chapter 62. Reusing olive pomace waste for energy saving applications in construction: development of a panel prototype.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 64. Experimental development and proof of concept for natural-based cool pavements.- Chapter 65. Green Responsive System (GRS): A Paradigm Shift in Urban Decarbonization in the Mediterranean Context.- Chapter 66. A zero-waste strategy toward carbon neutrality. Circular technology experimentations for life extension of non-recyclable plastic packaging.- Chapter 67. Eco-Design for Transition Architecture: Comparative Analysis for an a-scalar methodology using PNACC-defined green actions and pre-design according to Life Cycle Thinking.- Chapter 68. An Integrated Approach towards Smart Building Strategies to Mitigate Climate Change and attain the SDGs in Architectural Education and Knowledge to Reach Net Zero .- Chapter 69. When architectural design unveils the ethical and aesthetic value of BIPV: the Santa Verdiana demo case.- Chapter 70. Circular building production in the South Mediterranean area: the experience of CUBATI Project.- Chapter 71. From waste to resource using recycled stone in 3D Printed building elements.- Chapter 72. Low carbon bio-based building materials from organic waste: a closed-loop production model within circular neighborhoods.- Part IV. PEOPLE AND COMMUNITIES.- Chapter 73. Empowering Circular Economy Transition in the Building Sector: A Stakeholder-Centric Approach in the Design Phase for Climate Change Mitigation.- Chapter 74. ESG Measurement Tool: An approach to measure the sustainability introduced in real estate requalification projects.- Chapter 75. A systemic design-led participatory process to address meaningful impact pathways for NetZero cities.- Chapter 76. Building BIM Competence: Learning in the DIGITAL DECATHLON.- Chapter 77. Environmental Comfort and Well-being: Unlocking Complexities of Human Behaviour towards Climate Change Mitigation - Assessment of an Apartment in a Selected Hot Urban Area in the Mediterranean Region.- Chapter 78. Housing adaptability for aging in place. Sustainable approaches to improve environmental comfort.- Chapter 79. The Moroccan Medina: Between Preservation and Sustainability in Light of the HUL recommendation.- Chapter 80. Modelling sustainable climate shelters: analysis of energy dynamics and comfort index at a public transport stop.- Chapter 81. Proposal of a Framework to Evaluate the Building Performance of Local Healthcare Facilities.- Chapter 82. Which Living Lab processes for the Renewable Energy Communities? A pilot experimentation in NRRP-T4Y Research.- Chapter 83. MED_MESS Diversity, creative entropy and Mediterranean informality practices. Interdisciplinary and interscalar analysis of urban open spaces as a knowledge-sharing tool for the cities' climate resilience.- Chapter 84. Agile Approach to Sustainable-Decarbonized Strategic Transition Mediterranean Facility Management Industries: Novel Case Study in Egypt.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Carbon-Neutral Cities;Eco and Recycled Materials;;Energy and Society;Energy Efficiency;Energy Transition;Green Architecture ;Green Technology;Life Cycle Design;Mediterranean Cities ;Net Zero Emissions;Positive Energy Districts ;Renewable Energy;Sustainable Architecture ;Urban Resilience and Climate Change
Part I. LANDSCAPE AND CITIES IN TRANSITION.- Chapter 1. What needs to be demonstrated: The potential benefits of an NBS (Nature-Based Solutions) project in a post-disaster reconstruction context, the case of the reconstruction of the Al Haouz region in Morocco.- Chapter 2. Energy transition and environmental sustainability in large commercial systems. A research project example.- Chapter 3. A Solarpunk Vision of the City and its Infrastructure.- Chapter 4. Innovative approaches for Cultural Heritage renovation in the Mediterranean area.- Chapter 5. Exploring the intersection of History and Morphology: A comparative study of the spatial formation in the early development of the Medina of Fez.- Chapter 6. A physics-based urban digital twin for designing and renovating sustainable cities.- Chapter 7. Analysing the Resilience of Microgrids as they Transition from Standalone to Grid-connected systems.- Chapter 8. Integrating transitions in climate-adaptive design. A Nature-based approach towards next resilient amphibious urban environments along Med coasts.- Chapter 9. Towards Sustainable and Regenerative Cities: Vertical Farming as a Solution for Achieving Zero-Carbon Cities and Climate Neutrality - A Case Study of a Mediterranean City.- Chapter 10. ECOLOGICAL AND BIOREGIONAL TRANSITION FOR MANHATTAN .- Chapter 11. Living labs to design the transition towards Carbon neutrality of Mediterranean Islands.- Chapter 12. Designing Nature Based Solutions for Climate Neutrality of school communities.- Chapter 13. Tailored solutions for the sustainable transition of the built environment: the specific context as information source.- Chapter 14. Seaweed House 2.0 Methods and Techniques to Harmonize and Improve the Living and Urban of Future Cities, Imitating Nature.- Chapter 15. SuDS-Sustainable Drainage Systems in city center. Open problems and technological solutions.- Chapter 16. Mapping urban local metabolism to support Building Integrated Agriculture.- Chapter 17. PV Cool: a hybrid solution for power and cooling generation.- Chapter 18. Recovering street life through urban climate control strategies: a design and assessment tool.- Chapter 19. Ventilation results and CFD model formulation for street canyons applied to climate control strategies.- Chapter 20. Integrated Methodology for Thermal Comfort Assessment in Urban Environments: Validation in the City of Seville, Spain.- Chapter 21. Microclimate analysis of urban comfort outdoors by studying anthropogenic heat in urban canyons.- Chapter 22. Wind farms and Diachronic Landscapes: The identity of sustainability.- Chapter 23. Energy and Environmental refurbishment of the residential complex of Torrevecchia in Rome: Retrofitting and Demand Response Activities.- Chapter 24. Shifting to a new sustainable paradigm: nature-based solutions and circular design for the urban regeneration.- Chapter 25. An Advanced Framework for Regenerative Design in Digital and Physical Prototyping. Crafting a Comprehensive Atlas for Predictive Modeling and Adaptive Technologies in Climate Change Scenario Analysis.- Chapter 26. Adaptive technologies in flooding scenarios through NBS/SUDS. The experimentation of an innovative protocol for the resilience and biodiversity protection on the coast of Reggio Calabria.- Chapter 27. New forms of interaction between infrastructure and the city The experience of the intensive forest in the Garbatella park in Rome.- Chapter 28. A Novel Collaborative Stakeholder Development Tool Using Energy System Optimisation and Visual Interface for Workshop Facilitation.- Chapter 29. Cities and decarbonisation: an assessment model for the technological reconfiguration of proximity open spaces .- Chapter 30. Smart Biophilic cities: green and innovative digital solutions for sustainable urban development.- Chapter 31. 'Getting to zero' the university buildings stock. Boosting the renovation strategy and the action plan of the University of Florence.- Chapter 32. The Technological Design of Renewable Energy Communities: architectural implication of an holistic approach.- Chapter 33. Climate Neutrality and Global Perspective for Net Zero Policies and Buildings.- Chapter 34. CONSTRUCTING AND CULTIVATING "THE URBAN NATURE".- Chapter 35. Comparative Analysis of the energetic performance of Buildings Integrated Semi-Transparent PV glazing systems in the climate of Hungary and Syria Title.- Part II. ARCHITECTURES FOR TOMORROW.- Chapter 36. Mediterranean Under Pressure: Architectures resistance to the Climate Emergency.- Chapter 37. Madonie Green Walls Revolution sustainable revitalization and enhancement of Sicilian inner rural areas.- Chapter 38. Explaining Positive Building definition: A Review and Revision.- Chapter 39. Energy retrofit of non-monumental, historic buildings: Limitations and opportunities of technological advances.- Chapter 40. A multi-criteria evaluation tool for the adaptive regeneration of the residential heritage.- Chapter 41. Technological and environmental strategies for the redevelopment of Outdoor Learning spaces and the establishment of Energy Hubs in school buildings.- Chapter 42. Bioclimatic Urban Renewal approach on an Historical Disused Military Area in Naples.- Chapter 43. CIS Roma Scuole Verdi: a Programme to Improve Energy Efficiency and Decarbonization by Retrofitting School Buildings .- Chapter 44. Adaptive Approaches to Attain Net Zero through Carbon Sequestration in Heritage Sites of Coastal Mediterranean Cities.- Chapter 45. Investigating the Effect of Geometry to Approach Positive Buildings.- Chapter 46. Architectural treatments for the integration of solar energy systems on the roofs of residential buildings as an alternative solution to the energy crisis in Syria.- Chapter 47. Comfort at work: Analysis, evaluation and design proposal for an industrial building in northern Italy.- Chapter 48. Architectural regeneration between innovative technologies and cultural heritage: adaptive reuse of school buildings.- Chapter 49. Assessing climate change adaptation of buildings: a review of performance indicators in Green Building Rating Systems.- Chapter 50. Open-source tools to support local circular co-design.- Chapter 51. Nature positive buildings: systemic approaches and technological design experimentation.- Chapter 52. Holistic redevelopment of a coastal heritage area in Palermo (IT).- Chapter 53. Mediterranean synergies for the energy renovation of university buildings: three pilot projects in Palestine, Tunisia, and Italy.- Chapter 54. The Digitalization of Participatory Approaches.- Chapter 55. GREEN ARCHITECTURE, NZEB AND CLIMATE NEUTRALITY. AN INTERVENTION DESIGN MODEL FOR DEEP RENOVATION OF PUBLIC HOUSING.- Chapter 56. Environment, Technology, Architecture. Application of green technologies for the rehabilitation and energy renovation of the modern built heritage.- Chapter 57. Adopting circular economy strategies in building regeneration through a holistic approach.- Part III. ECO-TECHNOLOGIES AND MATERIALS.- Chapter 58. European Drive to use Photovoltaic Application in New Buildings in 2025.- Chapter 59. Material synergies and industrial symbiosis to valorise granite scraps from quarries in Sardinia.- Chapter 60. Biobased materials for the improvement of human quality life a Km 0.- Chapter 61. Bio-based materials to foster efficient retrofitting of the existing building stock Cork and hemp to support environmental transition preserving socio-cultural values.- Chapter 62. Reusing olive pomace waste for energy saving applications in construction: development of a panel prototype.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 64. Experimental development and proof of concept for natural-based cool pavements.- Chapter 65. Green Responsive System (GRS): A Paradigm Shift in Urban Decarbonization in the Mediterranean Context.- Chapter 66. A zero-waste strategy toward carbon neutrality. Circular technology experimentations for life extension of non-recyclable plastic packaging.- Chapter 67. Eco-Design for Transition Architecture: Comparative Analysis for an a-scalar methodology using PNACC-defined green actions and pre-design according to Life Cycle Thinking.- Chapter 68. An Integrated Approach towards Smart Building Strategies to Mitigate Climate Change and attain the SDGs in Architectural Education and Knowledge to Reach Net Zero .- Chapter 69. When architectural design unveils the ethical and aesthetic value of BIPV: the Santa Verdiana demo case.- Chapter 70. Circular building production in the South Mediterranean area: the experience of CUBATI Project.- Chapter 71. From waste to resource using recycled stone in 3D Printed building elements.- Chapter 72. Low carbon bio-based building materials from organic waste: a closed-loop production model within circular neighborhoods.- Part IV. PEOPLE AND COMMUNITIES.- Chapter 73. Empowering Circular Economy Transition in the Building Sector: A Stakeholder-Centric Approach in the Design Phase for Climate Change Mitigation.- Chapter 74. ESG Measurement Tool: An approach to measure the sustainability introduced in real estate requalification projects.- Chapter 75. A systemic design-led participatory process to address meaningful impact pathways for NetZero cities.- Chapter 76. Building BIM Competence: Learning in the DIGITAL DECATHLON.- Chapter 77. Environmental Comfort and Well-being: Unlocking Complexities of Human Behaviour towards Climate Change Mitigation - Assessment of an Apartment in a Selected Hot Urban Area in the Mediterranean Region.- Chapter 78. Housing adaptability for aging in place. Sustainable approaches to improve environmental comfort.- Chapter 79. The Moroccan Medina: Between Preservation and Sustainability in Light of the HUL recommendation.- Chapter 80. Modelling sustainable climate shelters: analysis of energy dynamics and comfort index at a public transport stop.- Chapter 81. Proposal of a Framework to Evaluate the Building Performance of Local Healthcare Facilities.- Chapter 82. Which Living Lab processes for the Renewable Energy Communities? A pilot experimentation in NRRP-T4Y Research.- Chapter 83. MED_MESS Diversity, creative entropy and Mediterranean informality practices. Interdisciplinary and interscalar analysis of urban open spaces as a knowledge-sharing tool for the cities' climate resilience.- Chapter 84. Agile Approach to Sustainable-Decarbonized Strategic Transition Mediterranean Facility Management Industries: Novel Case Study in Egypt.Chapter 45. Investigating the Effect of Geometry to Approach Positive Buildings.- Chapter 46. Architectural treatments for the integration of solar energy systems on the roofs of residential buildings as an alternative solution to the energy crisis in Syria.- Chapter 47. Comfort at work: Analysis, evaluation and design proposal for an industrial building in northern Italy.- Chapter 48. Architectural regeneration between innovative technologies and cultural heritage: adaptive reuse of school buildings.- Chapter 49. Assessing climate change adaptation of buildings: a review of performance indicators in Green Building Rating Systems.- Chapter 50. Open-source tools to support local circular co-design.- Chapter 51. Nature positive buildings: systemic approaches and technological design experimentation.- Chapter 52. Holistic redevelopment of a coastal heritage area in Palermo (IT).- Chapter 53. Mediterranean synergies for the energy renovation of university buildings: three pilot projects in Palestine, Tunisia, and Italy.- Chapter 54. The Digitalization of Participatory Approaches.- Chapter 55. GREEN ARCHITECTURE, NZEB AND CLIMATE NEUTRALITY. AN INTERVENTION DESIGN MODEL FOR DEEP RENOVATION OF PUBLIC HOUSING.- Chapter 56. Environment, Technology, Architecture. Application of green technologies for the rehabilitation and energy renovation of the modern built heritage.- Chapter 57. Adopting circular economy strategies in building regeneration through a holistic approach.- Part III. ECO-TECHNOLOGIES AND MATERIALS.- Chapter 58. European Drive to use Photovoltaic Application in New Buildings in 2025.- Chapter 59. Material synergies and industrial symbiosis to valorise granite scraps from quarries in Sardinia.- Chapter 60. Biobased materials for the improvement of human quality life a Km 0.- Chapter 61. Bio-based materials to foster efficient retrofitting of the existing building stock Cork and hemp to support environmental transition preserving socio-cultural values.- Chapter 62. Reusing olive pomace waste for energy saving applications in construction: development of a panel prototype.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 63. Mapping local resources in the South-East of France bio-region : climate as project material.- Chapter 64. Experimental development and proof of concept for natural-based cool pavements.- Chapter 65. Green Responsive System (GRS): A Paradigm Shift in Urban Decarbonization in the Mediterranean Context.- Chapter 66. A zero-waste strategy toward carbon neutrality. Circular technology experimentations for life extension of non-recyclable plastic packaging.- Chapter 67. Eco-Design for Transition Architecture: Comparative Analysis for an a-scalar methodology using PNACC-defined green actions and pre-design according to Life Cycle Thinking.- Chapter 68. An Integrated Approach towards Smart Building Strategies to Mitigate Climate Change and attain the SDGs in Architectural Education and Knowledge to Reach Net Zero .- Chapter 69. When architectural design unveils the ethical and aesthetic value of BIPV: the Santa Verdiana demo case.- Chapter 70. Circular building production in the South Mediterranean area: the experience of CUBATI Project.- Chapter 71. From waste to resource using recycled stone in 3D Printed building elements.- Chapter 72. Low carbon bio-based building materials from organic waste: a closed-loop production model within circular neighborhoods.- Part IV. PEOPLE AND COMMUNITIES.- Chapter 73. Empowering Circular Economy Transition in the Building Sector: A Stakeholder-Centric Approach in the Design Phase for Climate Change Mitigation.- Chapter 74. ESG Measurement Tool: An approach to measure the sustainability introduced in real estate requalification projects.- Chapter 75. A systemic design-led participatory process to address meaningful impact pathways for NetZero cities.- Chapter 76. Building BIM Competence: Learning in the DIGITAL DECATHLON.- Chapter 77. Environmental Comfort and Well-being: Unlocking Complexities of Human Behaviour towards Climate Change Mitigation - Assessment of an Apartment in a Selected Hot Urban Area in the Mediterranean Region.- Chapter 78. Housing adaptability for aging in place. Sustainable approaches to improve environmental comfort.- Chapter 79. The Moroccan Medina: Between Preservation and Sustainability in Light of the HUL recommendation.- Chapter 80. Modelling sustainable climate shelters: analysis of energy dynamics and comfort index at a public transport stop.- Chapter 81. Proposal of a Framework to Evaluate the Building Performance of Local Healthcare Facilities.- Chapter 82. Which Living Lab processes for the Renewable Energy Communities? A pilot experimentation in NRRP-T4Y Research.- Chapter 83. MED_MESS Diversity, creative entropy and Mediterranean informality practices. Interdisciplinary and interscalar analysis of urban open spaces as a knowledge-sharing tool for the cities' climate resilience.- Chapter 84. Agile Approach to Sustainable-Decarbonized Strategic Transition Mediterranean Facility Management Industries: Novel Case Study in Egypt.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Carbon-Neutral Cities;Eco and Recycled Materials;;Energy and Society;Energy Efficiency;Energy Transition;Green Architecture ;Green Technology;Life Cycle Design;Mediterranean Cities ;Net Zero Emissions;Positive Energy Districts ;Renewable Energy;Sustainable Architecture ;Urban Resilience and Climate Change
