International Conference on Chemical Engineering, Energy & Environmental Sustainability RCE3S on June 17-19, 2026 in Rome, Italy - Conference Index

International Conference on Chemical Engineering, Energy & Environmental Sustainability RCE3S on June 17-19, 2026 in Rome, Italy

International Conference on Chemical Engineering, Energy & Environmental Sustainability (RCE3S) June 17, 2026 - Rome, Italy

37th ROME International Conference on Chemical Engineering, Energy & Environmental Sustainability (RCE3S-26) scheduled on June 17-19, 2026 Rome (Italy) is for the scientists, scholars, engineers and students from the Universities all around the world and the industry to present ongoing research activities, and hence to foster research relations between the Universities and the industry. This conference provides opportunities for the delegates to exchange new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration. The conference is sponsored by Universal Researchers in Science & Technology (URST). All the submitted conference papers will be peer reviewed by the program/technical committees of the Conference. 

Call for Papers: RCE3S-26

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.

Name: Kate
Website: http://urebe.urst.org/
Address: Lisbon

UREBE stands for Universal Researchers in Environmental & Biological Engineering that is primarily dedicated to the research in Environmental & Biological Engineering.
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