Buch, Englisch, 1146 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 1886 g
Reihe: Innovative Renewable Energy
Selected Papers from the World Renewable Energy Congress Med Green Forum 2024
Buch, Englisch, 1146 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 1886 g
Reihe: Innovative Renewable Energy
ISBN: 978-3-031-82322-0
Verlag: Springer Nature Switzerland
This book contains selected papers from the World Renewable Energy Congress and Network Forum's seventh edition of the biannual Med Green Forum (MGF2024) that highlight opportunities for energy transition based on the principles of efficiency, urban/building integration, and ecology. Contributions explore possible carbon-neutral solutions, technologies, strategies, processes, and policies for Mediterranean cities. The book addresses the transformation in the unique socio-climatic and cultural context of the Mediterranean basin, cities, and architecture, a transversal topic deeply related to social dynamics and new energy landscapes.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Energietechnik | Elektrotechnik Alternative und erneuerbare Energien
- Geowissenschaften Geographie | Raumplanung Regional- & Raumplanung Stadtplanung, Kommunale Planung
- Geisteswissenschaften Architektur Ökologische Aspekte in der Architektur
- Geowissenschaften Umweltwissenschaften Nachhaltigkeit
- Geowissenschaften Umweltwissenschaften Umweltwissenschaften
- Naturwissenschaften Biowissenschaften Biowissenschaften Ökologie
Weitere Infos & Material
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 CUBÂTI 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 CUBÂTI 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.
