47th BALI World Congress on “Chemical, Biological & Environmental Engineering” (WCBEE-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia)

1 day ago Posted By : User Ref No: WURUR216746 0
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  • TypeConference
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  • Location Bali, Indonesia
  • Price
  • Date 25-12-2025 - 27-12-2025
Conference Title
47th BALI World Congress on “Chemical, Biological & Environmental Engineering” (WCBEE-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia)
Event Type
Conference
Conference Date
25-12-2025 to 27-12-2025
Location
Bali, Indonesia
Organization Name / Organize By
CBMSR
Organizing/Related Departments
Chemical, Agriculture, Environment and Natural Sciences
Organization Type
Organization or Company
ConferenceCategory
Both (Technical & Non Technical)
ConferenceLevel
All (State/Province/Region, National & International)
Related Industries

Biotechnology

Chemical

Agriculture/Agribusiness

Medical/Healthcare/Hospital

Food Processing

Location
Bali, Indonesia

Topics/Call for Papers

So, Topics of Interest for Submission include, but are Not Limited to:

I. Chemical Engineering Fundamentals & Process Intensification

  • Reaction Engineering & Catalysis:
    • Advanced catalysts for sustainable chemical processes (e.g., heterogeneous, homogeneous, biocatalysis).
    • Novel reactor design and process intensification (e.g., microreactors, intensified separations).
    • Reaction kinetics and thermodynamics for complex systems.
    • Electrocatalysis and photocatalysis for chemical synthesis.
  • Separation Processes:
    • Advanced membrane technologies (e.g., nanofiltration, reverse osmosis, gas separation membranes).
    • Adsorption and chromatography for purification and separation.
    • Distillation and absorption enhancements.
    • Hybrid separation processes.
  • Process Design, Simulation & Control:
    • Process modeling and simulation (e.g., Aspen Plus, gPROMS, CFD).
    • Process optimization and control for efficiency and safety.
    • Process integration and pinch analysis for energy efficiency.
    • Digital Twins and Industry 4.0 in chemical processes.
  • Transport Phenomena:
    • Fluid dynamics, heat transfer, and mass transfer in complex systems.
    • Multiphase flows and granular materials.
    • Computational Fluid Dynamics (CFD) applications.
  • Thermodynamics & Phase Equilibria:
    • Advanced thermodynamic models for non-ideal systems.
    • Phase equilibria in diverse chemical and biological mixtures.

II. Biological Engineering & Biotechnology

  • Bioprocess Engineering:
    • Fermentation and bioreactor design and optimization.
    • Downstream processing and bioseparation.
    • Biomanufacturing for pharmaceuticals, biofuels, and bioproducts.
    • Cell-free bioprocessing.
  • Synthetic Biology & Metabolic Engineering:
    • Designing and engineering novel biological systems and pathways.
    • Metabolic pathway engineering for enhanced product yields.
    • CRISPR-based technologies for genetic engineering.
    • Biosensors and synthetic gene circuits.
  • Tissue Engineering & Regenerative Medicine:
    • Bioprinting of tissues and organs.
    • Biomaterials for tissue scaffolds and implants.
    • Stem cell engineering and applications.
    • Cellular therapies and gene delivery systems.
  • Biomaterials & Nanobiotechnology:
    • Design and synthesis of biocompatible materials.
    • Nanoparticles and nanomaterials for drug delivery and diagnostics.
    • Bio-inspired materials and biomimetics.
  • Environmental Biotechnology:
    • Bioremediation of contaminated sites (soil, water, air).
    • Bioenergy production from waste biomass.
    • Microbial fuel cells and bioelectrochemical systems.
    • Algae biotechnology for CO2 capture and bioproducts.
  • Bioinformatics & Computational Biology:
    • Modeling and simulation of biological systems.
    • Omics data analysis (genomics, proteomics, metabolomics).
    • Machine learning for biological data interpretation.

III. Environmental Engineering & Sustainability

  • Water & Wastewater Treatment:
    • Advanced oxidation processes (AOPs) for recalcitrant pollutants.
    • Membrane filtration for water purification and desalination.
    • Resource recovery from wastewater (nutrients, energy, water reuse).
    • Removal of emerging contaminants (e.g., PFAS, microplastics, pharmaceuticals).
    • Nature-based solutions for water management.
  • Air Pollution Control & Management:
    • Carbon Capture, Utilization, and Storage (CCUS) technologies.
    • Catalytic converters and advanced scrubbers for industrial emissions.
    • Indoor air quality technologies.
    • Monitoring and modeling of atmospheric pollutants.
  • Solid Waste Management & Resource Recovery:
    • Waste-to-energy technologies (incineration, pyrolysis, gasification).
    • Anaerobic digestion for organic waste.
    • Recycling and upcycling of materials.
    • Circular economy principles in waste management.
  • Contaminated Land & Soil Remediation:
    • Physical, chemical, and biological remediation techniques.
    • Risk assessment and management of contaminated sites.
    • Sustainable land use and rehabilitation.
  • Climate Change Mitigation & Adaptation:
    • Life Cycle Assessment (LCA) of products and processes.
    • Greenhouse gas emission reduction strategies.
    • Climate-resilient infrastructure.
    • Sustainable energy systems for decarbonization.
  • Environmental Monitoring & Sensing:
    • Development of advanced environmental sensors.
    • Remote sensing and GIS for environmental assessment.
    • IoT networks for real-time environmental monitoring.

IV. Cross-Cutting & Interdisciplinary Themes

  • Green Engineering & Sustainable Design:
    • Principles of green chemistry and engineering.
    • Design for sustainability and eco-efficiency.
    • Industrial symbiosis and eco-industrial parks.
  • Process Safety & Risk Management:
    • Hazard identification and risk assessment in chemical and biological processes.
    • Inherently safer design.
    • Environmental risk management.
  • Nanotechnology in Environmental & Biomedical Applications:
    • Nanomaterials for water treatment, sensing, and targeted drug delivery.
    • Environmental implications and toxicology of nanomaterials.
  • AI, Machine Learning & Data Analytics in C.B.E. Engineering:
    • AI for process optimization, fault detection, and predictive maintenance.
    • ML for modeling complex environmental systems (e.g., water quality prediction).
    • Data analytics for biological insights and drug discovery.
  • Ethics & Policy in C.B.E. Engineering:
    • Ethical considerations in genetic engineering and biotechnology.
    • Environmental regulations and policy development.
    • Public perception and engagement in controversial technologies.
  • Circular Bioeconomy:
    • Integrated biorefineries for sustainable production of chemicals, materials, and fuels from biomass.
    • Valorization of waste streams into high-value products.
  • Education in Chemical, Biological & Environmental Engineering:
    • Curriculum development for future engineers (e.g., sustainability, digital skills).
    • Innovative teaching methods and hands-on learning experiences.
    • Addressing the skills gap for emerging industries.
Registration Fees
Not Mention
Registration Ways
Email
Website
Address/Venue
Mercure Pattaya Ocean Resort  463/100 Moo 9, Pattaya 2nd Road, Nongprue Banglamung, Pattaya (Thailand) 20150 
Official Email ID
Contact