RCE3S-26 2026 - 37th ROME International Conference on Chemical Engineering, Energy & Environmental Sustainability (RCE3S-26) April 29-May 1, 2026 Istanbul (Türkiye)

Website https://urebe.urst.org/conference/176 | Edit Freely

Category Agriculture, Aquaculture, Biodiversity, Biology, Biotechnology, Botany, Chemistry, Cellular & Molecular Biology, Ecology, Environment, Food, GIS, Genetics, Microbiology, Oceanography, Physics, Soil, Waste Management, Water

Deadline: May 17, 2026 | Date: June 17, 2026-June 19, 2026

Venue/Country: Rome, Italy

Updated: 2026-01-09 16:31:57 (GMT+9)

Call For Papers - CFP

Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields:

1. Chemical Engineering

These are the fundamental principles applied to sustainability challenges.

Transport Phenomena: Fluid mechanics, heat transfer, and mass transfer.

Thermodynamics: Phase equilibria, chemical potential, and energy efficiency in cycles.

Reaction Engineering: Catalyst development, reactor design, and kinetics of green chemistry.

Process Synthesis & Design: Intensification (making processes smaller and more efficient) and "Cradle-to-Grave" design.

2. Renewable Energy & Energy Conversion

The shift from fossil fuels to sustainable power sources.

Solar Energy: Photovoltaic cell manufacturing and concentrated solar power (CSP).

Hydrogen Economy: * Water electrolysis (Green Hydrogen).

Hydrogen storage and transport.

Fuel cell technology (PEM, SOFC).

Bioenergy:

First to third-generation biofuels (ethanol, biodiesel, algae).

Biomass gasification and pyrolysis.

Energy Storage: Advanced battery chemistries (Lithium-ion, Solid-state, Redox flow) and thermal energy storage.

3. Environmental Sustainability & Remediation

Focused on cleaning up existing processes and protecting natural resources.

Carbon Capture, Utilization, and Storage (CCUS):

Post-combustion and pre-combustion capture.

Carbon mineralization and CO2-to-fuel conversion.

Water Technology:

Desalination (Reverse osmosis, multi-stage flash).

Wastewater treatment and nutrient recovery.

Advanced oxidation processes.

Air Quality Engineering: Particulate matter control and scrubbing of SOx and NOx emissions.

4. Circular Economy & Waste Management

Moving away from a "linear" take-make-dispose model.

Plastic Upcycling: Chemical recycling and biodegradable polymer development.

Waste-to-Energy: Anaerobic digestion and incineration with energy recovery.

Sustainable Materials: Bio-based plastics and green solvents.

Industrial Ecology: Synergies where one industry's waste becomes another's raw material.

5. Assessment Tools & Systems Engineering

The "math" behind proving a process is actually sustainable.

Life Cycle Assessment (LCA): Quantifying environmental impact from extraction to disposal.

Techno-Economic Analysis (TEA): Determining if a green technology is financially viable.

Process Integration: Pinch analysis for heat and water recovery.

Environmental Impact Assessment (EIA): Regulatory frameworks and compliance.