International Conference on Chemical, Biological, Agricultural & Environmental Engineering on January 18-20, 2027 in Ho Chi Minh City, Vietnam - Conference Index

International Conference on Chemical, Biological, Agricultural & Environmental Engineering on January 18-20, 2027 in Ho Chi Minh City, Vietnam

International Conference on Chemical, Biological, Agricultural & Environmental Engineering January 18, 2027 - Ho Chi Minh City, Vietnam

The idea of 43rd VIETNAM International Conference on “Chemical, Biological, Agricultural & Environmental Engineering” (VCBEE-27) on Jan. 18-20, 2027 Ho Chi Minh City (Vietnam) is for the researchers, scientists, scholars, engineers and parctitioners from all around the world to present and share ongoing research activities. 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

Call for papers/Topics

Topics of interest for submission include any topics related to:

1. Chemical Engineering

Chemical engineering provides the foundational principles of mass, energy, and momentum transfer that underpin the other three disciplines.

Thermodynamics & Kinetics (Independent Core)

Chemical equilibrium and phase behavior

Reaction kinetics and reactor design (batch, CSTR, plug flow)

Catalysis and surface science

Transport Phenomena (Interrelated Core)

Fluid dynamics (multiphase flow, rheology)

Heat transfer (conduction, convection, radiation)

Mass transfer (diffusion, interfacial mass transfer)

Separation Processes (Interrelated Core)

Distillation, extraction, and absorption

Membrane separation technology (reverse osmosis, ultrafiltration)

Adsorption and ion exchange

Process Systems Engineering (Independent Core)

Process design, synthesis, and intensification

Process control, automation, and optimization

Plant safety and hazard analysis (HAZOP)

2. Biological Engineering

Biological engineering applies chemical engineering principles to living entities, bridging the gap between molecular biology and large-scale production.

Bioprocess & Fermentation Technology (Interrelated with Chemical)

Bioreactor design and scale-up

Kinetics of microbial growth and enzyme catalysis

Downstream processing (isolation and purification of biomolecules)

Genetic & Metabolic Engineering (Independent Core)

Recombinant DNA technology

Metabolic pathway analysis and synthetic biology

CRISPR and gene editing tools

Biomedical & Tissue Engineering (Independent Core)

Biomaterials and biocompatibility

Cellular therapy and artificial organs

Drug delivery systems

Biosensors & Bioelectronics (Interrelated with Agricultural)

Analytical devices for pathogen detection

Bio-MEMS (Micro-Electro-Mechanical Systems)

3. Agricultural Engineering

Agricultural engineering integrates biological and mechanical concepts to optimize food, fiber, and fuel production while managing natural resources.

Precision Agriculture & Machinery (Independent Core)

Agricultural mechanization and robotics

Remote sensing, GIS, and GPS-guided farming

Smart sensors for soil and crop monitoring

Post-Harvest Technology & Food Engineering (Interrelated with Chemical & Biological)

Thermal processing (pasteurization, sterilization)

Food preservation, drying, and cold chain logistics

Biopolymer packaging and food safety

Soil & Water Engineering (Interrelated with Environmental)

Irrigation system design (drip, sprinkler) and drainage

Soil mechanics and tillage dynamics

Hydrology and watershed management

Controlled Environment Agriculture (Interrelated with Biological)

Greenhouse design and climate control

Hydroponics, aquaponics, and vertical farming

4. Environmental Engineering

Environmental engineering acts as the ultimate safeguard, treating the wastes generated by chemical, biological, and agricultural practices.

Water & Wastewater Treatment (Interrelated with Chemical & Biological)

Physicochemical treatment (coagulation, sedimentation, filtration)

Biological treatment (activated sludge, anaerobic digestion)

Advanced oxidation processes and desalination

Air Quality Engineering (Interrelated with Chemical)

Particulate and gaseous pollutant control (scrubbers, cyclones)

Atmospheric dispersion modeling

Greenhouse gas mitigation and carbon capture

Solid & Hazardous Waste Management (Interrelated with Agricultural)

Landfill engineering and leachate management

Composting and organic waste stabilization

Hazardous waste remediation and incineration

Sustainability & Ecological Engineering (Interrelated with All Fields)

Life Cycle Assessment (LCA) and circular economy

Bioremediation and phytoremediation of contaminated sites

Environmental impact assessment

5. Major Interrelated Nexus Zones

When these four disciplines collide, they create highly integrated, modern fields of study:

The Food-Energy-Water (FEW) Nexus

Optimizing water use in agriculture (Agricultural + Environmental)

Converting agricultural waste into bioenergy via anaerobic digestion (Agricultural + Biological + Chemical)

Developing eco-friendly fertilizers that minimize runoff (Chemical + Agricultural + Environmental)

Biorefineries & The Bioeconomy

Converting biomass feedstocks into bio-based chemicals and plastics (Agricultural + Chemical + Biological)

Designing green chemical processes that yield zero toxic waste (Chemical + Environmental)

Environmental Biotechnology

Using genetically engineered microbes to clean up oil spills or heavy metals (Biological + Environmental)

Developing microbial fuel cells to generate electricity during wastewater treatment (Biological + Environmental + Chemical)

Name: IICBE
Website: http://iicbe.org
Address: #243 Ever green towers, Desumajra

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