⚙️ Project Setup & Personnel
Configured
Biochar Production Project Configuration
Set up once by Project Owner / Manager
👥 Operations Team Members
🤝 Project Partners & Stakeholders
0 partners
Add project owners, co-developers, financiers, legal advisors, and other key stakeholders. One person can act as representative for a group or consortium.
🚛 Collection Vehicle Fleet
Multiple vehicle types supported — same type adds count & scales calculations
Add Vehicle to Fleet
🌾 Feedstock Source & Collection
● GPS Logged
Feedstock Characterisation
Type, origin, and biomass waste composition — Pure/Homogeneous or Mixed/Heterogeneous
Auto-filled from feedstock type — override if lab value known
📡
⚠️ Satellite Virtual Camera — Feedstock Methane Risk
Sentinel-2 change detection estimates pile age and open-air storage conditions.
~68 days
Estimated pile age
Low
CH₄ risk (<90 days)
Open-air
Storage condition
0.8 kg CO₂e
CH₄ correction factor
📍 Collection Logistics & GPS Tracking
📍 COLLECTION POINT GPS
✓ Logged: 6.5948°N, -1.6234°E — 09:14 GMT
🕒 COLLECTION TIMESTAMP
📦 TOTAL QUANTITY AT THIS POINT
🗺️ Road Routing API (optional)
Enter a free OpenRouteService API key for actual road distances. Leave blank for straight-line × 1.3 estimate.
🗺️ Supply Chain Flow — GPS Waypoint Tracker
4 of 6 Steps Complete
Live Chain Progress
Collector presses the designated button at each waypoint. Distance & emissions calculated automatically.
Step 1
Collection Point
Logged
6.5948°N, -1.6234°E
12 Nov 2025, 09:14
12.4 km
→
2.1 kg CO₂e
Step 2 — Optional
Feedstock Intermediary Storage
CH₄ Risk: Low
6.6102°N, -1.5876°E
12 Nov 2025, 10:02
⚠ Open storage: +0.4 kg CH₄ CO₂e
8.7 km
→
1.5 kg CO₂e
Step 3
Pyrolysis / Transformation Factory
Logged
6.6830°N, -1.5540°E
12 Nov 2025, 11:30
0 km
→
Production logged
Step 4 — Optional
Biochar Storage Site
Outside Factory
6.6900°N, -1.5510°E
14 Nov 2025, 08:00
18.6 km
→
3.2 kg CO₂e
Step 5 — ACTIVE
Application Site Boundary
In Progress
6.5800°N, -1.7500°E
Ongoing since 15 Nov 2025
7.6 km
→
1.3 kg CO₂e
Step 6
Monitoring Completion
Awaiting land stability
Target: Based on land use goal
🔬 Biochar Production Quality Log
Logged at Factory
Production Parameters & Quality Evidence
Logged at transformation/pyrolysis site
550°C
Pyrolysis Temp
8.2
pH
0.5–2mm
Particle Size Range
72%
Carbon Content (%)
4.8%
Ash Content
340 m²/g
Surface Area (BET)
0.42 g/cm³
Bulk Density
6.2%
Humidity at Factory (%)
Class A
EBC Quality Class
Logged at factory · affects carbon stability
Click or drag photos to upload — Ground / Satellite-based Virtual Camera Photos of Biochar
Texture, particle size, colour — JPG/PNG · Max 20MB each · Multiple files supported
🪨
Texture · Batch 1
🔍
Particle Size
🏭
Batch Overview
🧮 CO₂ Equivalent Calculator — Biochar Soil Application
Calculates sequestered CO₂e based on biochar yield, carbon content, stability factor and application rate. Uses EBC/IBI methodology.
2,340
tCO₂e GROSS SEQUESTERED
−0.014
tCO₂e TRANSPORT DEDUCTED
2,327
tCO₂e NET CREDITS
Formula: (Biochar tonnes × Carbon% × 3.664 × Stability factor) − Transport emissions − (Gross × Buffer%)
🛰️
Satellite Monitoring · Sentinel-2 via Google Earth Engine
Connect Live Satellite Monitoring to This Project
Verdini assigns Sentinel-2 virtual cameras to your project AOI automatically. Every 5–10 days, new multispectral imagery is captured at 10m resolution — NDVI, NDMI, SAVI indices calculated, timelapse generated, and NDVI delta fed directly into your carbon credit calculation.
Step 1 — Register AOI
Enter your GPS bounding box or project address below. Verdini uses this to define your Area of Interest (AOI) in Google Earth Engine.
Step 2 — Baseline Capture
Verdini captures and stores your NDVI baseline on registration date. This becomes the immutable reference point for all future comparisons.
Step 3 — Auto-monitoring
Every new satellite pass auto-updates your NDVI chart, carbon calculation, and Verdini Impact Score. No manual entry needed once AOI is set.
Step 4 — Export for MRV
GeoTIFF archive, NDVI time series CSV, and timelapse video available for download anytime — ready for VVB audits, registry submissions, and investor reports.
📍 Project AOI — GPS Bounding Box
Audit chain:
No stamps yet — save a batch to generate hash
🌍 Application Site & Land Use Designation
In Progress
Land Restoration Purpose & Monitoring Target
Select the intended end-use — monitoring continues until land stability is confirmed for the stated purpose
SELECT PRIMARY LAND USE PURPOSE
Agricultural Production
Food crop / staple grain / vegetable production
↑ High land value post-restoration
Commercial Silviculture
Managed timber or pulpwood forestry plantation
↑ Carbon + timber asset
Ecological Forest Restoration
Native species reforestation for ecosystem services
↑ Biodiversity & carbon credits
Wildlife Conservation Reserve
Habitat restoration for protected fauna & flora
↑ Biodiversity offset value
Pastoral & Rangeland Restoration
Grassland recovery for livestock grazing systems
↑ Soil organic matter + food security
Natural Heritage & Protected Park
National park, biosphere reserve or UNESCO site
↑ Ecosystem services valuation
Public Infrastructure Development
Roads, public buildings, municipal infrastructure
↑ Remediated land asset
Residential / Private Development
Private housing estates or commercial property
↑ Certified remediated land premium
Riparian & Watershed Restoration
Riverbank, wetland and water catchment recovery
↑ Water security & carbon
Coastal & Mangrove Restoration
Blue carbon ecosystems, coastal erosion prevention
↑ Blue carbon credits premium
Contaminated Land Remediation / Degraded & Mined Lands
Heavy metal contamination, acid mine drainage, post-extraction land recovery
↑ Liability removal + land value
Agroforestry System
Integrated trees + crops for food & carbon co-benefits
↑ Stacked carbon + food value
🧪 Contaminant & Remediation Monitoring
Sensor-Ready
Soil Heavy Metal & Water Quality Monitoring
Real-time sensor feeds · Satellite-based Virtual Camera proxies · Lab upload
🪱 Soil Heavy Metals
💧 Water Treatment
📡 Sensor Network
Select target heavy metals for remediation monitoring. Thresholds are based on your selected regulatory standard. Readings update from connected sensors or manual lab uploads.
| Metal | Current Reading | Threshold (std) | Reduction since biochar | Level | Source | Status |
|---|---|---|---|---|---|---|
| Cadmium (Cd) | 1.2 mg/kg | 3.0 mg/kg | Sensor | |||
| Lead (Pb) | 38.4 mg/kg | 100 mg/kg | Sensor | |||
| Mercury (Hg) | 0.18 mg/kg | 0.5 mg/kg | Lab upload | |||
| Nickel (Ni) | 62.1 mg/kg | 50 mg/kg | Sensor | |||
| Arsenic (As) | 8.4 mg/kg | 20 mg/kg | Pending | |||
| Chromium (Cr) | — | 150 mg/kg | — | Not connected |
🌱 Soil Organic Carbon (SOC) Monitor
Tracks carbon content (%) in soil during and after biochar application. Critical for carbon credit permanence verification. Calculates tonnes of carbon stored per hectare over time.
+50%
SOC CHANGE
6.2 t/ha
CARBON STORED (t/ha)
22.7 tCO₂e
TOTAL CO₂e EQUIVALENT
🧪 Pesticide & Soil Additive Monitoring
Monitors pesticide residues and other soil additives alongside aging biochar. Biochar can absorb and slowly release certain pesticides — monitoring is required for food safety compliance and EBC certification.
⚠ Over limit
📡 Connect Custom / Third-Party Sensor
Add any sensor not listed above. Provide sensor details, data format, and connection method. Verdini supports CSV data upload, webhook API, LoRaWAN, and manual entry for any parameter you need to track.
🚛 Transport Emissions Calculator
Auto-calculated
CO₂e Emissions by Supply Chain Leg
IPCC / DEFRA emission factors · Diesel pickup · 2.5t load
12.4 kg
Transport CO₂e
Pickup Truck ×1
1.2 kg
CH₄ CO₂e
Feedstock + storage
13.6 kg
Total Project Emissions
CO₂e this batch
Collection → Feedstock Storage2.1 kg CO₂e
Storage → Pyrolysis Factory1.5 kg CO₂e
Factory → Biochar Storage0.4 kg CO₂e
Storage → Application Site3.2 kg CO₂e
Application Site Distribution1.3 kg CO₂e
CH₄ Correction (Feedstock Storage)0.8 kg CO₂e
CH₄ Correction (Biochar Storage)0.4 kg CO₂e
⚡ Factory Energy Use & Process Gas Emissions
EBC / Puro.earth Required
Pyrolysis Energy Source & Syngas / Flue Gas Accounting
Required for EBC, Puro.earth, Gold Standard and Verra methodology. All energy and gas data feeds directly into the net CO₂e calculation.
⚡ PRODUCTION ENERGY SOURCE
48.6 kg
CO₂e ENERGY EMISSIONS
0.152
kg CO₂e / kWh (FACTOR)
0%
RENEWABLE SHARE
🌫️ PROCESS GASES — SYNGAS & FLUE GAS ACCOUNTING
⚠️ Under EBC, Puro.earth, and Gold Standard: all syngas (CO, CH₄, H₂) and flue gases must be accounted for. Uncontrolled releases count as project emissions. Scrubbing, reuse or capture reduces your emission factor and increases your net carbon credits.
🔥 Methane (CH₄)
GWP = 28× CO₂
💨 CH₄ released: 4.2 kg × 28 GWP = 117.6 kg CO₂e project emissions
☁️ Carbon Monoxide (CO)
Oxidises to CO₂ in atmosphere
CO released → converts to CO₂: 8.5 kg × (44/28) = 13.4 kg CO₂e
🌡️ Other Flue Gases (NOx, VOCs, Particulates)
📊 Total Factory Emission Summary (This Batch)
179.6 kg
TOTAL FACTORY CO₂e
+2,327 t
NET CO₂e AFTER ALL DEDUCTIONS
Factory emissions include: energy use + CH₄ releases + CO oxidation + other process gases. These are deducted from gross sequestered CO₂e to calculate final net carbon credits per EBC/Puro.earth methodology.
🏦 Project Economics & Bankability
🔒 Private — Owner Only
Financial Model — Confidential
CAPEX · OPEX · Revenue projections · NPV · IRR · Payback period · 10-year cash flow. Only included in exports you authorise. Never shared with third parties.
💼 CAPITAL EXPENDITURE (CAPEX)
📆 ANNUAL OPERATING COSTS (OPEX / yr)
💵 ANNUAL REVENUE STREAMS
Enter your negotiated or expected price per tCO₂e. Use the registry guide below to choose a realistic range for your project.
Your Price (USD/tCO₂e)
Quick-fill by Registry
🌳 Afforestation / Tree Carbon Component (optional stacked credits)
If trees are planted alongside biochar application, both the biochar-in-soil sequestration and the tree biomass growth can be certified together as stacked credits for the project lifetime.
Based on species × region factor (IPCC Tier 1 / FAO 2020). Override with lab/field data.
0 tCO₂e/yr
TREE CARBON / YR
0 tCO₂e total
LIFETIME TREE CARBON
$0
LIFETIME TREE REVENUE
📊 Key Financial Indicators (Auto-calculated)
$0
NET PRESENT VALUE (10yr)
—%
INTERNAL RATE OF RETURN (IRR)
— yrs
PAYBACK PERIOD
$0
PROJECTED 10-YR REVENUE
$0
ANNUAL CARBON REVENUE
0%
YEAR 1 ROI
$0
LOCAL SPEND (USD)
📅 10-Year Projected Cash Flow
| Year | Revenue | OPEX | Net Cash Flow | Cumulative | |
|---|---|---|---|---|---|
| Enter CAPEX and revenue figures above to generate cash flow table | |||||
📈 Visual Financial Overview — Auto-updates with inputs
🥧 Revenue Mix (Annual)
📊 Capital vs Operating vs Revenue
📉 10-Year Cumulative Cash Flow — Payback point highlighted
📊 Revenue Streams by Year (Stacked)
🎯 IRR Attractiveness
—
Hurdle rate (10%)—
Cost of equity (15%)—
Excellent (>20%)—
⚠️ PROJECT RISK ANALYSIS
Rate each risk below. Ratings feed into the Investor Report risk matrix and inform your mitigation strategy. Additional project-specific risks can be added.
| Risk Factor | Likelihood | Impact | Score | Mitigation Strategy |
|---|
🗺️ Risk Heat Map
📊 Risk Profile Summary
+ Add Project-Specific Risk
🌐 UN Sustainable Development Goals (SDG) Scorecard
Auto-scored + Manual
Social & Environmental Impact Evidence
Scores are calculated from verifiable project data. Manual fields are required for social indicators — enter real figures only. This scorecard appears in every export report.
Social Impact Indicators — Enter Project Data
SDG Alignment Scores (auto-calculated from project data)
Total SDG Impact Score
—
out of 50 · Good
Score updates automatically as you fill in project data. Included in all export reports.
📅 Annual Monitoring — Batch Manager & Activity Log
0 batches
Year-at-a-Glance · Batch Register
All production batches for the project year. Each batch captures feedstock → pyrolysis → application. Aggregated into Monthly / Quarterly / Annual reports.
📊 Annual CO₂e Progress
| Batch ID | Date | Feedstock (t) | Biochar (t) | Net CO₂e (t) | Quarter | Status | Actions |
|---|---|---|---|---|---|---|---|
| No batches yet. Click "+ New Batch" to register a production run. | |||||||
Q1 · Jan–Mar
0 t
0 batches
Q2 · Apr–Jun
0 t
0 batches
Q3 · Jul–Sep
0 t
0 batches
Q4 · Oct–Dec
0 t
0 batches
Daily Activity Log
Quick field entries for feedstock collection, production runs, and application events. Sensor readings auto-log here. Feeds into batch summaries.
0
Total Entries
0 t
Feedstock Logged
0 t
Biochar Produced
0 t
Applied to Land
| Date | Activity Type | Batch | Qty / Value | Notes | By | |
|---|---|---|---|---|---|---|
| No activities logged yet. | ||||||