AI-Enabled Waste-to-Energy
Model Carbon-Negative Waste-to-Energy—Faster, Safer, and Audit-Ready with AI.
About This Course
This 3-day hands-on workshop teaches how to assess WtE routes (e.g., anaerobic digestion, gasification, pyrolysis) through an LCA lens and layer AI to accelerate inventory building, harmonize units, detect data gaps, and rapidly test “carbon-negative” conditions. Participants will integrate carbon removal options (biochar, CCS/BECCS, mineralization, digestate strategies), run sensitivity sweeps to identify key drivers, and produce stakeholder-ready dashboards and claim statements with transparent boundaries and uncertainty notes.
Aim
To train participants to design, evaluate, and report waste-to-energy pathways using AI-assisted LCA, carbon-removal integration, sensitivity/uncertainty screening, and MRV-style reporting for defensible carbon-negative claims.
Workshop Objectives
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Understand WtE pathways and the logic behind carbon-negative claims (biogenic carbon, avoided emissions, credits, permanence).
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Build LCA models with correct functional units, boundaries, allocation, and data-quality checks.
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Use AI to identify missing LCI data, standardize units, and generate scenario templates.
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Integrate carbon-removal options and apply system expansion/avoided burden correctly.
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Run AI-assisted sensitivity and uncertainty screening to identify net-negative conditions and main risk drivers.
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Create reporting-ready outputs: assumptions table, dashboard, claim guardrails, and MRV-style templates.
Workshop Structure
📅 Day 1 — WtE Pathways + AI-Ready LCA Framing (Carbon-Negative Claims)
- Waste-to-energy landscape: MSW, biomass residues, sludge, industrial organics
- Carbon-negative logic: biogenic carbon, avoided emissions, displacement credits, permanence
- LCA essentials for WtE: functional unit, system boundaries, allocation, data quality, uncertainty hotspots
- AI layer: LCI data gap detection, smart assumptions, automated unit harmonization, quick scenario templates
- Hands-on: Build a baseline LCA skeleton for one WtE route (e.g., anaerobic digestion) and compute kg CO₂e/kWh and/or kg CO₂e/ton waste + an AI-assisted checklist of missing inventory data
📅 Day 2 — AI-Assisted Carbon Removal Integration + System Expansion
- Carbon removal routes in WtE: biochar, CCS/BECCS, mineralization, digestate management
- Modeling avoided burden: grid displacement, landfill diversion, fertilizer substitution
- AI layer: sensitivity auto-generation, parameter prioritization (what drives net-negative), rapid uncertainty screening
- Key sensitivity drivers: methane leakage, energy efficiency, transport distances, credit assumptions, permanence risk
- Hands-on: Add one carbon removal option to the Day-1 model and run an AI-assisted sensitivity sweep to identify conditions for carbon-negative operation
📅 Day 3 — Decision Metrics + Digital MRV + Reporting-Ready Carbon-Negative Pathways
- Decision metrics: net GHG, energy yield, removal effectiveness, permanence risk, robustness score
- Scenario benchmarking: compare 2–3 pathways (AD vs gasification vs pyrolysis) under the same rules
- AI layer: auto-generated assumptions table, claim guardrails, anomaly flags, and stakeholder-ready narratives
- Reporting-ready outputs: results dashboard, boundaries disclosure, uncertainty notes, claim wording dos/don’ts
- Hands-on: Generate a scenario comparison dashboard + finalize a carbon-negative claim statement with transparent boundaries, sensitivity notes, and a simple MRV-style reporting template
Who Should Enrol?
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Students, researchers, consultants, and professionals in sustainability, energy, waste management, environmental engineering, circular economy, or climate analytics.
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Basic understanding of carbon accounting or LCA helps, but not required.
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Comfortable with spreadsheets; light Python familiarity is useful (templates provided).
Important Dates
Registration Ends
02/04/2026
IST 4 : 00 PM
Workshop Dates
02/04/2026 – 02/06/2026
IST 5 :30 PM
Workshop Outcomes
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Build a baseline LCA skeleton for a WtE route and compute kg CO₂e/kWh and/or kg CO₂e/ton waste.
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Add a carbon removal option and determine conditions for carbon-negative operation via sensitivity sweeps.
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Identify and rank key drivers (e.g., methane leakage, efficiency, transport, credits, permanence risk).
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Benchmark 2–3 pathways under consistent rules and generate a comparison dashboard.
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Draft a transparent carbon-negative claim statement with boundaries, assumptions, and uncertainty notes.
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Produce a simple MRV-style reporting template suitable for stakeholders and audits.
Fee Structure
Student
₹2499 | $65
Ph.D. Scholar / Researcher
₹3499 | $75
Academician / Faculty
₹4499 | $85
Industry Professional
₹6499 | $110
What You’ll Gain
- Live & recorded sessions
- e-Certificate upon completion
- Post-workshop query support
- Hands-on learning experience
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