조류(Algae)를 활용한 저배출 바이오연료 생산

Harnessing Third-Generation Feedstocks for a Sustainable Energy Future

This study presents a comprehensive analysis of algae-based biofuel technologies as a key pathway toward achieving global low-carbon and circular energy goals. It explores the integration of biochemical and thermochemical conversion routes, including transesterification, fermentation, hydrothermal liquefaction, pyrolysis, gasification, and anaerobic digestion, to transform algal biomass into sustainable fuels such as biodiesel, biogas, bio-oil, and renewable hydrogen. It also explores recent advancements to increase product yield.

The study covers:

• A comparative assessment of major algal biofuel pathways based on energy efficiency, CO2 mitigation potential, process scalability, and downstream integration
• An examination of the innovation ecosystem, profiling key technology developers, biorefinery operators, and research collaborations driving process optimization and commercialization
• A review of emerging patents, funding programs, and policy frameworks supporting algae-to-fuel development and deployment The analysis highlights the strategic and transformative role of algal biomass as a third-generation feedstock in advancing next-generation, low-emission fuel systems aligned with global net-zero ambitions.

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?
• The Strategic Imperative 8
• The Impact of the Top 3 Strategic Imperatives on Leveraging Algae to Produce Low-Emission Biofuels
• Growth Opportunities Fuel the Growth Pipeline Engine

Research Methodology

Growth Opportunity Analysis

• Scope of Analysis
• Segmentation

Growth Generator

• Growth Drivers
• Growth Restraints

Harnessing Algae for Clean Energy-Technology Overview

• Overview of Algal Biomass-to-Biofuels Pathways
• Leveraging Algal Biomass to Sustainable Biofuels-Value Chain
• Transesterification Efficiently Converts Algal Lipids Into Quality Biodiesel
• Thermochemical Conversion Turns Entire Algal Biomass to Versatile Fuels
• HTL, Pyrolysis, and Gasification Are Key Thermochemical Routes for Algal Biofuels
• Biochemical Pathways Convert Biomass Into Sustainable Biofuels
• Fermentation and Anaerobic Digestion Convert Algal Biomass Into Renewable Biofuels
• Comparative Analysis and Strategic Takeaways of Algal-to-Biofuels Pathway Emissions, Yield, and Consumption
• Recent Advances Are Improving Biofuel Production from Algal Biomass

Innovations Ecosystem Building Algal Biofuels into Tangible Solution

• Advancing High-Yield Algae Fuels for Low-Carbon Transport
• Other Key Stakeholders in Algal Biomass-to-Biofuel Conversion

Key Funding Initiatives and Patent Landscape

• Funding Initiatives by Global Stakeholders
• The United States Dominates the Patent Landscape

Growth Opportunity Universe

• Growth Opportunity 1: Development of Integrated Algae Biorefineries
• Growth Opportunity 2: Creating Value Through High-Value Co-Products in Integrated Algal Biorefineries
• Growth Opportunity 3: Accelerating Algae-to-Biofuel Scale-Up through Digital Twins and AI-Driven Optimization

Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• Legal Disclaimer