BICGT-25 2025 - 44th BALI International Conference on “Green Technologies” (BICGT-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia)

Website https://caeer.org/conference/369 | Edit Freely

Category ENGINEERING, TECHNOLOGY, AI, Automobile, Bioinformatics, Biomedical, Chemical, Computer, Computing, Electrical, Energy, Image Processing, IT, Manufacturing, Mechanical, Metallurgical, Military, Mining, Nanotechnology, Aviation Architecture, Building Materials, Civil Engineering, Landscape, Pollution, Transportation.

Deadline: November 18, 2025 | Date: December 25, 2025-December 27, 2025

Venue/Country: Bali, Indonesia

Updated: 2025-07-03 20:50:46 (GMT+9)

Call For Papers - CFP

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.