33rd BALI Global Congress on Sustainable Solutions in Civil & Architectural Engineering (SSCAE-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia)
Topics/Call for Papers
Topics of Interest for Submission include, but are Not Limited to:
I. Sustainable Materials & Technologies
Green Building Materials:
Low-carbon concrete (e.g., geopolymers, carbon-cured concrete).
Sustainable timber and mass timber construction.
Recycled and upcycled materials (e.g., recycled aggregates, plastic waste in asphalt).
Bio-based materials (e.g., hempcrete, straw bale, mycelium composites).
Smart materials (self-healing concrete, phase-change materials, responsive facades).
Advanced insulation materials (aerogels, vacuum insulation panels).
Novel Construction Methods:
Prefabrication and modular construction for reduced waste and improved efficiency.
3D printing/Additive manufacturing in construction (concrete, metal, polymers).
Robotics and automation for precision and waste reduction.
Digital fabrication and mass customization.
Sustainable Pavement & Road Materials:
Porous pavements and permeable surfaces for stormwater management.
Recycled asphalt and concrete in road construction.
Cool pavements to mitigate urban heat island effect.
II. Energy Efficiency & Renewable Energy in Buildings
Net-Zero Energy Buildings (NZEBs) & Net-Zero Carbon Buildings:
Design strategies for ultra-low energy consumption.
Integration of on-site renewable energy systems (solar PV, solar thermal, small wind).
Energy modeling and simulation for performance optimization.
Case studies and challenges in achieving NZEB.
Passive Design Strategies:
Optimizing building orientation, daylighting, and natural ventilation.
Thermal mass and insulation techniques.
Facade design for solar control and thermal performance.
Advanced HVAC Systems:
High-efficiency heating, ventilation, and air conditioning.
Geothermal heat pumps and district heating/cooling.
Smart controls and building management systems (BMS).
Building Envelope Performance:
Innovations in windows, glazing, and shading devices.
Air tightness and thermal bridging mitigation.
Dynamic facades and adaptive building skins.
Renewable Energy Integration:
Building-integrated photovoltaics (BIPV).
Micro-wind turbines and micro-hydropower for buildings.
Battery energy storage systems for building resilience and grid interaction.
III. Water Management & Urban Hydrology
Sustainable Urban Drainage Systems (SUDS) / Green Infrastructure:
Rainwater harvesting and reuse.
Green roofs, permeable pavements, and bioretention systems for stormwater management.
Wastewater reuse and greywater recycling at building and urban scales.
Nature-based solutions for flood mitigation.
Water Efficiency in Buildings:
Low-flow fixtures and water-efficient landscaping.
Smart water metering and leak detection.
Urban Water Cycle Management:
Integrated urban water management strategies.
Climate change impacts on urban water resources and adaptation strategies.
Pollutant removal from urban runoff.
IV. Resilient Infrastructure & Climate Change Adaptation
Climate-Resilient Design:
Designing infrastructure to withstand extreme weather events (floods, storms, heatwaves).
Coastal resilience and sea-level rise adaptation.
Seismic retrofitting and earthquake-resistant structures.
Disaster Risk Reduction (DRR) in the Built Environment:
Vulnerability assessment and risk mapping.
Early warning systems for civil infrastructure.
Post-disaster reconstruction with “Build Back Better” principles.
Infrastructure Asset Management for Sustainability:
Life cycle assessment and costing for long-term resilience.
Predictive maintenance and structural health monitoring.
Urban Heat Island Mitigation:
Cool roofs, cool pavements, and urban greening strategies.
Urban ventilation and microclimate optimization.
V. Circular Economy in Construction
Design for Disassembly & Adaptability:
Creating buildings and components that can be easily deconstructed and reused.
Flexible designs for future functional changes.
Construction & Demolition Waste Management:
Strategies for waste reduction, reuse, and recycling on construction sites.
Upcycling of construction and demolition waste into new products.
Material Passports & Digital Logbooks:
Tracking materials and components for future reuse and recycling.
Blockchain applications for transparent material supply chains.
Industrial Symbiosis in Construction:
Waste products from one industry becoming inputs for another in the construction sector.
Product-as-a-Service Models:
Exploring new business models for building components and systems.
VI. Digital Transformation for Sustainable Solutions
Building Information Modeling (BIM) for Sustainability:
Integrating sustainability metrics, energy performance, and LCA into BIM workflows.
BIM for waste reduction and material management.
Digital Twins & Smart Infrastructure:
Creating virtual replicas of buildings and infrastructure for real-time monitoring and optimization.
AI and machine learning for predictive performance and adaptive control.
Sensors & IoT in Smart Buildings/Cities:
Real-time monitoring of energy, water, air quality, and structural health.
Occupant behavior sensing and optimization.
Computational Design & Optimization:
Generative design for sustainable architectural forms and structural systems.
Parametric design for performance-driven optimization.
Geographic Information Systems (GIS) for Urban Sustainability:
Spatial analysis for site selection, environmental impact assessment, and urban planning.
Mapping urban resources and vulnerabilities.
VII. Policy, Economics & Social Aspects
Green Building Certifications & Standards:
LEED, BREEAM, WELL, Passivhaus, and other rating systems.
Development of new performance-based standards.
Sustainable Urban Planning & Policy:
Integration of sustainable principles into urban master plans and zoning regulations.
Incentives and regulatory frameworks for green building and infrastructure.
Life Cycle Assessment (LCA) & Life Cycle Costing (LCC):
Methodologies for evaluating environmental and economic impacts over the entire lifespan of a project.
Socio-Economic Impacts of Sustainable Construction:
Job creation, local economic benefits, and community engagement.
Affordable green housing and equitable access to sustainable infrastructure.
Education & Training for Sustainable Practices:
Curriculum development for civil and architectural engineers in sustainability.
Workforce development for green construction jobs.
Financing Green Projects:
Green bonds, sustainable investment, and public-private partnerships.
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