38th PARIS International Congress on Chemical, Biological & Environmental Engineering Research: CBEER-26

Call for Papers: CBEER-26

All Abstracts, Reviews, short articles, Full articles, Posters are welcomed related with any of the following research fields:

1. Core Engineering Foundations (Interrelated)

These topics serve as the "common language" for all three disciplines.

• Transport Phenomena: The study of momentum (fluid mechanics), energy (heat transfer), and mass transfer.

• Thermodynamics: Energy balances, phase equilibria, and chemical reaction energetics.

• Reaction Engineering: Design and optimization of reactors for chemical or biological processes.

• Process Control & Dynamics: Using sensors and mathematical models to maintain stability in a system.

• Material and Energy Balances: The fundamental accounting of inputs, outputs, and accumulations.

2. Chemical Engineering (ChE)

Focuses primarily on the large-scale production of chemicals, fuels, and materials.

• Separation Processes: Distillation, absorption, extraction, and membrane filtration.

• Petrochemical Engineering: Refining crude oil and natural gas processing.

• Polymer & Materials Science: Synthesis of plastics, composites, and advanced nanomaterials.

• Process Intensification: Making chemical plants smaller, safer, and more efficient.

• Catalysis: Developing substances to speed up chemical reactions without being consumed.

3. Biological Engineering (BioE)

Applies engineering principles to living systems and biological materials.

• Bioprocess Engineering: Large-scale cultivation of bacteria, yeast, or mammalian cells (e.g., for vaccines).

• Metabolic Engineering: Modifying genetic pathways to produce specific chemicals or biofuels.

• Biomedical Engineering:

  • Tissue Engineering: Growing replacement organs or scaffolds.

  • Pharmacokinetics: Modeling how drugs move through the human body.

• Bioinformatics: Using computational tools to analyze biological data (genomics/proteomics).

• Food Engineering: Processing, preservation, and packaging of food products.

4. Environmental Engineering (EnvE)

Focuses on protecting human health and the environment through technical solutions.

• Water & Wastewater Treatment: Design of systems to purify drinking water and treat industrial/municipal waste.

• Air Quality Engineering: Monitoring and controlling industrial emissions and particulate matter.

• Solid & Hazardous Waste Management: Remediation of contaminated soil and landfill engineering.

• Sustainability & Life Cycle Assessment (LCA): Quantifying the environmental "footprint" of a product from "cradle to grave."

• Hydrology & Water Resource Management: Managing the distribution and quality of groundwater and surface water.

5. Major Intersections (Interrelated Topics)

This is where the three disciplines overlap to solve complex global challenges.