Bio refinery- From Biomass to Value Based Bio products
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Course Overview
The Bio-refinery: From Biomass to Value-Based Bioproducts program is a pioneering initiative designed to transform organic biomass into a diverse array of valuable bioproducts, including biofuels, bioplastics, and biochemicals. By leveraging advanced biotechnological and chemical processes, this program aims to extract maximum value from biomass resources, such as agricultural waste, forestry byproducts, and algae. The goal is to develop scalable, efficient, and sustainable methods for biomass conversion, thereby reducing waste, minimizing environmental impact, and creating new sources of revenue for industries.
This program serves as a nexus for collaboration among scientists, engineers, industry leaders, and policymakers, fostering innovation across disciplines to tackle technical challenges and drive the bioeconomy forward. It focuses on optimizing the entire supply chain—from sustainable biomass sourcing to final product marketing—to ensure economic and environmental sustainability. Educational and training components are also integral, aiming to equip a new generation of professionals with the skills necessary to advance this rapidly evolving field. Through its comprehensive approach, the program seeks to establish a robust framework for the bio-refinery sector, encouraging wider adoption and integration of bioproducts into everyday use.
Program Syllabus
Module 1
About
The Bio-refinery: From Biomass to Value-Based Bioproducts program is a pioneering initiative designed to transform organic biomass into a diverse array of valuable bioproducts, including biofuels, bioplastics, and biochemicals. By leveraging advanced biotechnological and chemical processes, this program aims to extract maximum value from biomass resources, such as agricultural waste, forestry byproducts, and algae. The goal is to develop scalable, efficient, and sustainable methods for biomass conversion, thereby reducing waste, minimizing environmental impact, and creating new sources of revenue for industries.
This program serves as a nexus for collaboration among scientists, engineers, industry leaders, and policymakers, fostering innovation across disciplines to tackle technical challenges and drive the bioeconomy forward. It focuses on optimizing the entire supply chain—from sustainable biomass sourcing to final product marketing—to ensure economic and environmental sustainability. Educational and training components are also integral, aiming to equip a new generation of professionals with the skills necessary to advance this rapidly evolving field. Through its comprehensive approach, the program seeks to establish a robust framework for the bio-refinery sector, encouraging wider adoption and integration of bioproducts into everyday use.
Module 2
Aim
The aim of the “Bio-refinery: From Biomass to Value-Based Bioproducts” program is to advance the technology and processes required to efficiently convert biomass into a range of high-value bioproducts, thereby promoting sustainability and reducing reliance on non-renewable resources. This program seeks to enhance the economic viability of bio-refineries by improving process efficiencies, developing new value-added products, and fostering market acceptance of bioproducts. Through collaboration with industry, academia, and government entities, the program strives to drive innovation, support circular economy principles, and contribute to a more sustainable future by transforming organic waste and plant materials into useful products such as biofuels, bioplastics, and biochemicals.
Lead Instructor
Dr. Sarah Chen
PhD in Computational Mechanics from MIT with 15+ years of experience in Industrial AI. Former Lead Data Scientist at Tesla and current advisor to Fortune 500 manufacturing firms.
Limited SeatsClosing Soon
Bio refinery- From Biomass to Value Based Bio products
Professional Certification Program
🎥
FormatLive + Recorded
📅
Duration8 Weeks
📜
CertificationVerified
Module 3
Program Objectives
- Understand the composition and properties of different types of biomass.
- Master various conversion processes used in bio refineries.
- Analyze the economic and environmental impacts of bio refineries.
- Develop skills in designing and optimizing bio refinery processes.
- Promote innovation in the development of sustainable bio products.
Module 4
Program Structure
Module 5
Week 1: Biomass Science and Feedstock Engineering
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Classification of biomass: lignocellulosic, algal, and agro-residues
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Pretreatment technologies: physical, chemical, and biological methods
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Deep science of feedstock characterization and compositional analysis
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Biotechnological optimization of raw materials for downstream valorization
Module 6
Week 2: Bioconversion Pathways and Biocatalysis
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Enzymatic hydrolysis and microbial digestion routes
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Metabolic engineering of microbial strains
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Role of advanced biocatalysts in high-yield conversion
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Process integration for efficient substrate-to-product transformation
Module 7
Week 3: Bio-Product Derivation and Value Chain Creation
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Deep tech routes to biofuels, bioplastics, biosurfactants, and biochemicals
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Bioprocessing systems and downstream purification workflows
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Techno-economic drivers of product portfolio selection
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Sustainability metrics and lifecycle-based product evaluation
Module 8
Week 4: Industrial Integration and Circular Bioeconomy
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Scale-up strategies and reactor design principles
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AI-enabled monitoring and digital twins in biorefineries
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Regulatory framework and global commercialization case studies
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Circular economy models for biomass valorization ecosystems
Module 9
Intended For
- Undergraduate students in Chemical Engineering, Environmental Science, Biochemistry, or related fields.
- Professionals in the energy, environmental, or chemical industries seeking to expand their knowledge in bio refinery technologies.
- Individuals with a basic understanding of chemistry and biology.
Module 10
Program Outcomes
- Resource Efficiency: Biomass, including agricultural residues, forestry waste, and organic municipal waste, is utilized efficiently, reducing the burden on landfills and minimizing environmental pollution.
- Green Energy Production: Biomass can be converted into biofuels such as biodiesel, bioethanol, and biogas, providing renewable alternatives to fossil fuels and reducing greenhouse gas emissions.
- Value-added Products: Through advanced processing techniques, biomass can be transformed into high-value bio-based products such as biochemicals, bioplastics, bio-based materials, and specialty chemicals, tapping into lucrative markets and reducing dependence on petrochemicals.
- Circular Economy: By utilizing biomass as feedstock, the bio refinery contributes to the concept of a circular economy, where waste materials are converted into valuable resources, fostering sustainability and reducing reliance on finite resources.
- Carbon Sequestration: Certain bio refinery processes, such as carbon capture and utilization (CCU), can help sequester carbon dioxide from the atmosphere, contributing to climate change mitigation efforts.
Module 11
Fee Structure
Standard Fee: INR 8,998 USD 198
Discounted Fee: INR 4499 USD 99
We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!
List of CurrenciesModule 12
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