International Conference on Chemical, Bioscience, Biotechnology & Environmental Engineering CB2E2 on March 11-13, 2027 in Istanbul, Turkey - Conference Index

International Conference on Chemical, Bioscience, Biotechnology & Environmental Engineering CB2E2 on March 11-13, 2027 in Istanbul, Turkey

International Conference on Chemical, Bioscience, Biotechnology & Environmental Engineering (CB2E2) March 11, 2027 - Istanbul, Turkey

ISTANBUL 12th International Conference on “Chemical, Bioscience, Biotechnology & Environmental Engineering” (CB2E2-27) scheduled on March 11-13, 2027 Istanbul (Türkiye) is for the engineers, practitioners, scientists, researchers, scholars, and students from all around the world and it also includes the industry people to present ongoing research activities, and hence to foster research relations between Academia and industry. The conference is sponsored by Eminent Association of Pioneers (EAP). This conference provides opportunities for the delegates to share new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration. All the submitted conference papers will be peer reviewed by the program/technical committees of the Conference.

Topics

Topics of interest for submission include any topics related to:

1. Core Chemical Engineering

These topics form the classical bedrock of chemical engineering, focusing on transforming raw materials into valuable products on a large scale.

Transport Phenomena

Fluid Mechanics (Newtonian and non-Newtonian flow)

Heat Transfer (Conduction, convection, radiation, and heat exchangers)

Mass Transfer (Diffusion, interfacial mass transfer)

Thermodynamics

Phase Equilibria (Vapor-Liquid, Liquid-Liquid equilibria)

Chemical Reaction Equilibria

Equations of State

Chemical Reaction Engineering (CRE)

Kinetics of homogeneous and heterogeneous reactions

Reactor Design (Batch, CSTR, Plug Flow, Packed Bed)

Catalysis and catalyst deactivation

Separation Processes

Distillation (Fractional, azeotropic, extractive)

Absorption and Stripping

Liquid-Liquid Extraction and Leaching

Adsorption and Ion Exchange

Process Dynamics, Control & Safety

Feedback and feedforward control loops

Process instrumentation

HAZOP (Hazard and Operability) analysis and inherently safer design

2. Bioscience & Biochemistry

This area provides the fundamental biological understanding required to scale up biological systems. It transitions from pure science into engineering applications.

Molecular Biology & Genetics

DNA replication, transcription, and translation

Gene regulation and expression

Recombinant DNA technology

Biochemistry & Enzyme Catalysis

Structure and function of biomolecules (proteins, lipids, carbohydrates, nucleic acids)

Enzyme kinetics (Michaelis-Menten kinetics, inhibition)

Metabolic pathways (Glycolysis, Krebs cycle, oxidative phosphorylation)

Microbiology & Cell Biology

Microbial growth kinetics and nutrition

Structure of prokaryotic and eukaryotic cells

Virology and immunology fundamentals

3. Biotechnology Engineering

This field directly marries Chemical Engineering principles (like reactor design and separation) with Bioscience.

Bioprocess Engineering & Bioreactor Design

Design of fermenters and bioreactors (stirred tank, airlift, photobioreactors)

Sterilization kinetics (air and media)

Scale-up criteria for biological reactors

Aeration and agitation in biosystems (oxygen transfer rate, $K_L a$)

Downstream Processing (Bioseparations)

Cell disruption techniques (mechanical and chemical)

Solid-liquid separation (centrifugation, filtration, flocculation)

Advanced purification (chromatography, ultrafiltration, electrophoresis)

Lyophilization (freeze-drying) and crystallization

Genetic & Metabolic Engineering

CRISPR and gene editing tools

Synthetic biology and metabolic flux analysis

Expression vectors and host strain development (E. coli, yeast, mammalian cells)

Biomedical & Tissue Engineering

Biomaterials compatibility

Stem cell engineering and organ-on-a-chip

Drug delivery systems (nanoparticles, liposomes)

4. Environmental Engineering

Environmental engineering applies chemical and biological processes to clean up waste, protect public health, and ensure sustainable industrial practices.

Water and Wastewater Treatment

Physical/Chemical treatment (coagulation, sedimentation, filtration, chlorination)

Biological wastewater treatment (Activated sludge process, trickling filters, anaerobic digesters)

Advanced oxidation processes (AOPs) and membrane bioreactors (MBRs)

Air Pollution Control

Particulate emission control (cyclones, electrostatic precipitators, fabric filters)

Gaseous emission control (scrubbers, absorption towers, catalytic converters for NOx/SOx)

Greenhouse gas capture and sequestration (carbon capture)

Solid and Hazardous Waste Management

Landfill engineering and leachate management

Incineration and waste-to-energy technologies

Nuclear and toxic waste stabilization

Sustainability & Environmental Impact Assessment (EIA)

Life Cycle Assessment (LCA) methodologies

Circular economy and industrial ecology

Environmental auditing and regulations

5. Major Interrelated Subtopics

These specific subtopics do not belong to just one discipline; they exist precisely at the intersection of all four.

Bioremediation & Phytoremediation (Bioscience + Environmental + Biotech)

Using genetically engineered microbes or plants to degrade environmental contaminants (e.g., oil spills, heavy metals).

Biofuels & Bioenergy (Chemical + Biotech + Environmental)

Production of ethanol, biodiesel, biogas, and bio-hydrogen from biomass.

Thermochemical conversion (pyrolysis, gasification) vs. biochemical conversion (anaerobic digestion, fermentation).

Green Chemistry & Sustainable Chemical Processes (Chemical + Environmental)

Designing atom-economical, non-toxic chemical routes.

Replacing organic solvents with supercritical fluids (CO2) or ionic liquids.

Bioplastics & Biomaterials (Chemical + Biotech)

Synthesis of biodegradable polymers (like PLA or PHAs) using microbial fermentation and chemical polymerization.

Biosensors & Bioenvironmental Monitoring (Bioscience + Biotech + Environmental)

Developing biological analytical devices (using enzymes or antibodies) to detect trace pollutants, pathogens, or toxins in real time.

Name: EARBM
Website: http://earbm.org

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