Call For Papers - The World's Largest Index/List of Call For Papers

The World's Largest Index of Call For Papers

4th BALI International Conference on “Green Technologies” (BICGT-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia)

BICGT-25

URL: https://caeer.org/conference/369
Event Date: 2025-12-25 ~ 2025-12-27
Submission Date: 2025-12-01
Organizer: CAEER
Location: Bali, Indonesia

Biochemistry Bioinformatics & Computational Biology Biomedical Technology Biotechnology Molecular Biology Biomedical Technology Cell Biology Molecular Biology Bioinformatics & Computational Biology Biotechnology

Topics/Call for Papers

So, Topics of Interest for Submission include, but are Not Limited to:

I. Renewable Energy Systems & Storage

Solar Energy:
- Next-generation Photovoltaics (perovskites, quantum dots, organic solar cells)
- Concentrated Solar Power (CSP) advancements
- Integrated PV (BIPV, VIPV) and urban solar solutions
- Solar thermal applications for heating, cooling, and industrial processes

Wind Energy:
- Advanced wind turbine design and aerodynamics (onshore, offshore, vertical axis)
- Floating offshore wind platforms and deep-water solutions
- Small-scale and distributed wind energy systems
- Wind energy forecasting, grid integration, and smart controls

Bioenergy & Biofuels:
- Sustainable biomass feedstock production and conversion technologies (pyrolysis, gasification, anaerobic digestion)
- Advanced biofuels (algae-based, cellulosic ethanol, sustainable aviation fuels - SAF)
- Bioenergy with Carbon Capture and Storage (BECCS)
- Biorefineries and bio-based products

Geothermal Energy:
- Enhanced Geothermal Systems (EGS) and advanced drilling techniques
- Direct-use geothermal applications and hybrid systems
- Geothermal heat pumps and urban integration

Hydropower & Marine Energy:
- Sustainable hydropower development and optimization (pumped hydro storage)
- Wave, tidal, and Ocean Thermal Energy Conversion (OTEC) technologies
- Environmental impact assessment and mitigation for marine energy

Hydrogen & Fuel Cell Technologies:
- Green hydrogen production (electrolysis from renewable sources, photocatalysis)
- Hydrogen storage (physical, material-based) and transportation infrastructure
- Fuel cell advancements for various applications (transport, stationary power)
- Power-to-X concepts (converting renewable energy into other energy carriers or chemicals)

Energy Storage Systems:
- Advanced battery technologies (solid-state, flow batteries, next-generation lithium-ion, sodium-ion)
- Thermal energy storage and mechanical energy storage (compressed air, flywheels)
- Grid-scale energy storage solutions and their role in grid stability
- Vehicle-to-grid (V2G) and smart charging technologies for EVs

II. Circular Economy & Sustainable Materials

Green Materials & Nanomaterials:
- Bio-based, biodegradable, and compostable polymers
- Recycled and upcycled materials in manufacturing
- Sustainable composites and construction materials (e.g., mass timber, low-carbon concrete)
- Novel materials for energy efficiency, catalysis, and environmental remediation

Sustainable Manufacturing & Industrial Processes:
- Green chemistry and engineering principles in industrial design and production
- Resource efficiency, waste minimization, and industrial symbiosis
- Life Cycle Assessment (LCA) and environmental footprinting of products and processes
- Additive manufacturing (3D printing) for material reduction and localized production

Circular Economy Models & Strategies:
- Design for circularity, durability, repairability, and end-of-life management
- Product-as-a-service models and extended producer responsibility
- Reverse logistics and closed-loop supply chains
- Policy, regulatory frameworks, and business models for accelerating circularity

III. Pollution Control & Environmental Remediation

Water & Wastewater Treatment:
- Advanced oxidation processes (AOPs) for recalcitrant pollutants
- Membrane technologies for water purification, desalination, and reuse
- Resource recovery from wastewater (nutrients, energy, valuable chemicals)
- Removal of emerging contaminants (microplastics, pharmaceuticals, PFAS)
- Decentralized and nature-based water treatment solutions (e.g., constructed wetlands)

Air Pollution Control & Management:
- Carbon Capture, Utilization, and Storage (CCUS) technologies (post-combustion, direct air capture)
- Advanced catalysts and filtration systems for industrial and mobile emissions
- Indoor air quality monitoring and purification technologies
- Technologies for reducing volatile organic compounds (VOCs) and particulate matter

Waste Management & Valorization:
- Zero-waste strategies and technologies (e.g., pyrolysis, gasification for waste-to-energy)
- Anaerobic digestion for organic waste and biogas production
- Recycling and recovery of critical raw materials (e-waste, battery recycling)
- Sustainable landfill management and bioreactor landfills

Soil Remediation & Land Restoration:
- Bioremediation, phytoremediation, and chemical remediation of contaminated soils
- Restoration of degraded land and ecosystems
- Sustainable agricultural practices for soil health and carbon sequestration

IV. Smart & Sustainable Urban Systems

Green Buildings & Architecture:
- Energy-efficient building design and smart building management systems (BMS)
- Green roofs, vertical gardens, and passive cooling/heating strategies
- Sustainable construction materials and techniques (e.g., timber construction, prefabrication)
- Net-zero energy buildings and resilient urban design

Smart Grids & Energy Management:
- Integration of distributed renewable energy sources into the grid
- Demand-side management, energy efficiency, and load balancing
- Grid modernization, resilience, and cybersecurity
- Microgrids and virtual power plants

Sustainable Transportation:
- Electric Vehicles (EVs), charging infrastructure, and fleet electrification
- Public transportation innovations (e.g., high-speed rail, integrated multimodal systems)
- Sustainable aviation and shipping fuels/technologies
- Intelligent Transportation Systems (ITS) for reduced congestion and emissions

Urban Planning & Resilience:
- Sustainable urban development and master planning principles
- Climate adaptation and resilience in urban infrastructure
- Nature-based solutions for urban challenges (e.g., urban forests, permeable pavements)
- Urban food systems and vertical farming technologies

V. Digital & Enabling Technologies for Green Solutions

Artificial Intelligence (AI) & Machine Learning (ML):
- AI for optimizing energy consumption, grid management, and renewable energy forecasting.
- ML for environmental monitoring, pollution prediction, and climate modeling.
- AI in smart agriculture for resource efficiency and precision farming.
- AI for accelerated material discovery and design for sustainability.

Internet of Things (IoT) & Sensor Networks:
- Real-time environmental monitoring (air quality, water quality, soil health).
- Smart sensors for energy management in buildings and industries.
- IoT for waste collection optimization and smart recycling.
- Remote sensing for climate and environmental change detection.

Big Data Analytics & Cloud Computing:
- Processing and analyzing large environmental datasets for insights and decision-making.
- Environmental forecasting and modeling at scale.
- Cloud-based platforms for sustainability management.

Digital Twins for Sustainability:
- Creating virtual replicas of physical systems (factories, cities, ecosystems) to optimize resource use, reduce waste, and predict environmental impacts.

Blockchain for Sustainability:
- Supply chain transparency and traceability for sustainable products.
- Carbon credit tracking, renewable energy certificate management, and decentralized energy trading.
- Circular economy applications (e.g., material passports).

Geographic Information Systems (GIS) & Remote Sensing:
- Environmental mapping, monitoring, and spatial analysis.
- Assessing land use change, deforestation, and ecosystem health.
- Disaster risk reduction and climate change vulnerability assessment.

Green Computing & Sustainable IT:
- Energy-efficient hardware design, software optimization, and data center operations.
- Reducing the carbon footprint of IT infrastructure and digital services.

VI. Policy, Economics, Social Aspects & Education

Environmental Policy & Governance:
- National and international climate policies, agreements, and regulations.
- Regulatory frameworks and standards for green technologies.
- Market mechanisms, incentives, and carbon pricing for sustainable innovation.
- International cooperation and technology transfer for green solutions.

Green Finance & Investment:
- Funding models and financial instruments for green projects.
- Impact investing, sustainable finance, and ESG (Environmental, Social, Governance) criteria.
- Carbon markets, emissions trading, and green bonds.

Social Acceptance & Behavioral Change:
- Public engagement, awareness campaigns, and environmental education.
- Overcoming barriers to adoption of green technologies and sustainable practices.
- The role of consumer behavior in driving green markets.

Sustainable Development Goals (SDGs) & Green Technologies:
- The crucial role of green technologies in achieving the UN SDGs.
- Measuring, monitoring, and reporting on sustainability impacts.

Circular Economy Business Models:
- Emerging business models that prioritize resource efficiency, waste reduction, and value retention.
- Entrepreneurship and innovation in the green technology sector.

Education for Sustainability:
- Integrating green technologies and sustainable development principles into education at all levels.
- Developing skills for the green economy workforce.
- Citizen science and community involvement in environmental monitoring and action.

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