Self Paced

Biochar Technology for Carbon Sequestration Course

Innovating Carbon Sequestration Through Biochar

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Early access to the e-LMS platform is included

  • Mode: Online/ e-LMS
  • Type: Self Paced
  • Level: Advanced
  • Duration: 3 Weeks

About This Course

This course provides a comprehensive introduction to biochar technology and its role in carbon sequestration. It covers biochar production, properties, characterization, and practical applications in environmental sustainability, soil health, and climate change mitigation.

Aim

To provide participants with a clear understanding of biochar technology and its role in carbon sequestration, including biomass conversion processes, biochar properties, environmental benefits, and its applications for sustainable climate change mitigation.

Program Objectives

  • Understand Biochar Fundamentals: Learn what biochar is and why it can store carbon for long periods.
  • Production Knowledge: Understand pyrolysis concepts, process parameters, and yield trade-offs.
  • Soil & Environmental Impacts: Learn how biochar affects soil health, nutrients, water retention, and microbes.
  • Quality & Characterization: Understand key properties (surface area, pH, ash, carbon content) and testing basics.
  • Application & Field Use: Learn how to apply biochar safely and effectively in real settings.
  • Carbon Accounting Basics: Learn permanence, additionality, leakage concepts (high-level) for climate claims.
  • Hands-on Outcome: Create a biochar production + deployment blueprint with monitoring plan.

Program Structure

Module 1: Biochar and Carbon Sequestration — The Big Picture

  • Biochar vs charcoal vs compost: what makes biochar “climate-relevant.”
  • Carbon sequestration logic: stability, residence time, and soil storage.
  • Co-benefits: soil fertility, water retention, waste management (overview).
  • Risks and misconceptions: when biochar is not a good idea.

Module 2: Feedstocks and Biomass Selection

  • Feedstock options: crop residues, forestry waste, manure, organic wastes (overview).
  • Moisture, ash, and contaminants: why feedstock quality matters.
  • Supply chain thinking: collection, preprocessing, transport, storage.
  • Safety and sourcing: avoiding treated wood and contaminated inputs.

Module 3: Pyrolysis Technology (How Biochar is Made)

  • Pyrolysis concept: heating biomass with limited oxygen.
  • Key parameters: temperature, residence time, heating rate (and why they matter).
  • Slow vs fast pyrolysis overview: char yield vs bio-oil/gas trade-offs.
  • System types: kilns to continuous reactors (overview) and operational basics.

Module 4: Biochar Properties and Characterization

  • Key properties: carbon content, volatile matter, ash, pH, surface area, porosity.
  • Stability indicators: what suggests long-term carbon storage potential.
  • Simple testing mindset: sampling, consistency, and reporting.
  • Quality variation: why two biochars are not the same product.

Module 5: Soil, Water, and Microbial Interactions

  • Soil structure benefits: aggregation, aeration, and moisture retention.
  • Nutrient interactions: cation exchange, retention, and fertilizer efficiency (overview).
  • Microbial habitat effects: rhizosphere and soil biology interactions (overview).
  • Water quality applications: adsorption potential and limitations (overview).

Module 6: Application Methods and Field Implementation

  • Application approaches: soil incorporation, top dressing, compost blending (overview).
  • Charging/activation concept: mixing with nutrients/compost to improve performance.
  • Dosage planning: why “more” is not always better; context-driven rates.
  • Health & safety: dust control, handling, and community acceptance.

Module 7: Environmental Risks, Trade-offs, and Best Practices

  • Potential risks: PAHs, heavy metals (from feedstock), pH imbalance (overview).
  • Monitoring and mitigation: sourcing controls and product testing discipline.
  • Trade-offs: land use, biomass competition, and transport emissions.
  • Best-practice checklist for responsible deployment.

Module 8: Carbon Accounting, MRV and Climate Claims (High-Level)

  • Carbon removal vs avoidance: what biochar claims typically cover.
  • MRV basics: measurement, reporting, verification concepts.
  • Permanence and additionality: why they matter for crediting.
  • Lifecycle thinking: feedstock emissions, energy recovery, transport impacts.

Module 9: Biochar in Circular Economy and Industrial Use Cases (Overview)

  • Circular bioeconomy: waste-to-value pathways using residues.
  • Industrial applications overview: filtration, additives, construction materials (high-level).
  • Co-products: syngas and heat use for energy integration.
  • Scale-up realities: economics, maintenance, and operational consistency.

Final Project

  • Create a Biochar Carbon Sequestration Implementation Blueprint.
  • Include: feedstock plan, pyrolysis approach, quality testing checklist, application plan, risk controls, and MRV outline.
  • Example projects: biochar deployment for a farm, biochar from municipal green waste, biochar for drought-prone soil improvement, biochar + compost program for campus sustainability.

Who Should Enrol?

  • Students and professionals in Environmental Science, Agriculture, Chemical Engineering, Sustainability, or related fields
  • Farmers, agripreneurs, and practitioners exploring climate-smart practices
  • Researchers working in soil science, biomass conversion, or carbon removal
  • Industry professionals in waste management and circular economy projects
  • No prior pyrolysis experience required (fundamentals covered clearly)

Program Outcomes

  • Technology Understanding: Know how biochar is produced and what controls performance and stability.
  • Field Readiness: Ability to plan safe application methods and avoid common deployment mistakes.
  • Quality Mindset: Understand essential characterization and consistency requirements.
  • Carbon Claim Discipline: Understand MRV and lifecycle thinking for credible sequestration claims.
  • Portfolio Deliverable: A complete biochar implementation blueprint you can showcase.

Fee Structure

Standard: ₹48,998 | $498

Discounted: ₹24499 | $249

We accept 20+ global currencies. View list →

What You’ll Gain

  • Full access to e-LMS
  • Real-world dry lab projects
  • One-on-one project guidance
  • Publication opportunity
  • Self-assessment & final exam
  • e-Certificate & e-Marksheet

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