Training Course on Circular Bioeconomy Models in Agricultural Systems Verified listing

Training Course on Circular Bioeconomy Models in Agricultural Systems

Introduction

In the face of climate change, resource scarcity, and rising environmental concerns, circular bioeconomy models in agricultural systems are emerging as transformative solutions. These models leverage sustainable practices, biological resources, and circular economy principles to reduce waste, optimize resource use, and boost agricultural productivity. Training Course on Circular Bioeconomy Models in Agricultural Systems is tailored to empower professionals and stakeholders with innovative tools, systems thinking, and regenerative techniques that align agricultural practices with green growth and sustainable development goals (SDGs).

By integrating renewable biological resources into value chains, circular bioeconomy models enhance environmental resilience, rural development, and food security. This course provides a multi-disciplinary approach that combines circular design, regenerative agriculture, biotechnology, and digital innovations. Participants will gain practical knowledge on designing circular systems, implementing biowaste valorization techniques, and driving socio-economic growth through sustainable bio-based business models.

Course Objectives

Understand core principles of circular bioeconomy in agriculture.
Explore sustainable agricultural practices and regenerative farming.
Learn waste-to-resource strategies using bio-based technologies.
Analyze agri-food systems using systems thinking and life cycle analysis.
Promote zero-waste farming and composting methods.
Implement carbon farming and climate-smart agriculture techniques.
Design resilient supply chains through circular agri-business models.
Evaluate bioenergy production from agricultural residues.
Develop circular inputs for soil health and organic productivity.
Foster innovation through bio-based entrepreneurship and green startups.
Assess policy, finance, and governance frameworks for circular bioeconomy.
Leverage digital tools, IoT, and AI for circular agriculture.
Apply real-world case studies to design location-specific circular models.
Target Audience

Agribusiness professionals
Agricultural extension officers
Rural development experts
Environmental and sustainability consultants
Government policy makers in agriculture and environment
Agri-tech entrepreneurs and startups
NGOs and community-based organizations
University researchers and agricultural students
Course Duration: 10 days

Course Modules

Module 1: Introduction to Circular Bioeconomy

Definitions and concepts
Relevance to agri-food systems
Circular vs linear models
Global and regional frameworks
Benefits and barriers
Case Study: EU Bioeconomy Strategy Implementation
Module 2: Principles of Regenerative Agriculture

Soil restoration practices
Biodiversity and ecosystem services
Minimum tillage and cover cropping
Water conservation methods
Holistic grazing management
Case Study: Regenerative Practices in Kenya’s Drylands
Module 3: Waste-to-Resource Strategies

Agri-waste classification
Composting and bio-fertilizers
Anaerobic digestion for energy
Value-added processing
Circular nutrient loops
Case Study: Banana Waste Utilization in Uganda
Module 4: Bio-Based Innovations in Agriculture

Bioplastics from crop residues
Biochar production and use
Algae and microbial technologies
Biopesticides and biostimulants
Bio-lubricants and enzymes
Case Study: India's Bio-based Product Startups
Module 5: Circular Supply Chain Models

Localized sourcing and logistics
Circular procurement practices
Reverse logistics in agri-sector
Tracking and traceability
Life cycle costing (LCC)
Case Study: Circular Rice Value Chain in Vietnam
Module 6: Soil Health and Circular Inputs

Organic amendments
Mycorrhizal and microbial inoculants
Precision nutrient management
Soil carbon sequestration
Digital soil monitoring
Case Study: Sustainable Soil Management in Ethiopia
Module 7: Biowaste Valorization Technologies

Fermentation and extraction methods
Pyrolysis and gasification
Biogas and bioethanol production
Crop-residue-based packaging
Market opportunities and constraints
Case Study: Smallholder Biogas Units in Rwanda
Module 8: Circular Water Use in Agriculture

Water recycling and reuse
Drip irrigation systems
Constructed wetlands
Greywater harvesting
Water-energy-food nexus
Case Study: Israel’s Agricultural Water Reuse System
Module 9: Digital Tools and AI for Circular Agri-Systems

Smart sensors and automation
Data analytics for circular decision-making
AI-based resource efficiency models
Blockchain for supply transparency
GIS mapping for bioeconomy hubs
Case Study: IoT-Driven Circular Farms in The Netherlands
Module 10: Carbon Farming and Climate-Smart Techniques

Soil carbon offset markets
Integrated crop-livestock systems
Agroforestry and carbon sinks
Climate-resilient crop varieties
MRV (Measurement, Reporting, and Verification)
Case Study: Carbon Credit Programs in Malawi
Module 11: Business Models and Bio-Based Entrepreneurship

Circular business canvas
Incubators and accelerators
Market development and branding
Financing circular agri-enterprises
Social innovation in rural economies
Case Study: Bioeconomy Hubs in East Africa
Module 12: Policy and Regulatory Frameworks

National bioeconomy strategies
Land use and resource rights
Agro-environmental compliance
Green public procurement
Multi-stakeholder governance models
Case Study: Rwanda’s Green Agriculture Policy
Module 13: Circular Agri-Food System Design

Farm-to-fork integration
Closed-loop agri-food systems
Community-based circular models
Risk assessment and resilience
Multi-scalar integration approaches
Case Study: Urban Food Loops in Accra, Ghana
Module 14: Circular Bioenergy in Agricultural Systems

Biomass collection and densification
Bioenergy conversion pathways
Techno-economic analysis
Co-products and circular synergies
Regional bioenergy plans
Case Study: Sugarcane Bagasse in Brazilian Energy Systems
Module 15: Monitoring, Evaluation, and Scaling Circular Models

Indicators for circularity
Theory of Change (ToC) models
Participatory evaluation methods
Knowledge transfer and scaling
Stakeholder engagement
Case Study: Scaling Bioeconomy Models in Tanzania
Training Methodology

Interactive lectures and multimedia presentations
Hands-on group activities and simulations
Expert guest sessions and panel discussions
Field demonstrations and virtual tours
Case study reviews and role-playing exercises
Personalized action planning and assessments
Register as a group from 3 participants for a Discount

Send us an email: info@datastatresearch.org or call +254724527104

Certification

Upon successful completion of this training, participants will be issued with a globally- recognized certificate.

Tailor-Made Course

We also offer tailor-made courses based on your needs.

Key Notes

a. The participant must be conversant with English.

b. Upon completion of training the participant will be issued with an Authorized Training Certificate

c. Course duration is flexible and the contents can be modified to fit any number of days.

d. The course fee includes facilitation training materials, 2 coffee breaks, buffet lunch and A Certificate upon successful completion of Training.

e. One-year post-training support Consultation and Coaching provided after the course.

f. Payment should be done at least a week before commence of the training, to DATASTAT CONSULTANCY LTD account, as indicated in the invoice so as to enable us prepare better for you.