Turning Climate Complexity into Business Clarity

Asset-level climate intelligence for organizations that need to plan, invest, and make decisions for their assets.

We transform global climate science into clean, practical insights—tailored to your exact locations.

Global Coverage 180° Longitude
Resolution ~900 meters
45
Years of Historical Data
1980–2024
2100
Future Projections
2030-2100
100+
Climate Indicators
Covering Intensity & Frequency
900m
Meters - Spatial Resolution
Hyper-local data

Why Climate Risk Project?

Climate data has traditionally been complex, coarse, and hard to apply. We built Climate Risk Project to make it useful, defensible, and simple to integrate into real business decisions.

Actionable Climate Data

Most climate tools give you blurry 10 to 25 km grids. We give you asset-level clarity.

Built for Decisions. Not Dashboards and Heatmaps.

Every dataset is tailored for financial impact analysis, compliance reporting, and operational risk. No more vague risk heatmaps.

100× More Detailed

Downscaling system engineered for precision — understanding microclimates, local climate hazards, and site-specific weather extremes invisible in traditional climate models.

Data Backed Risk Ratings

Every rating is backed by climate statistics and data. Makes it easy why, how and when the risk arises for your assets.

Executive & Regulator-Friendly Outputs

Insights designed for internal strategy, board communication, and regulatory filings like TCFD, IFRS S2, and CSRD.

Strong Scientific Foundation

Powered by precise historical satelite data and ensemble of multiple models from CMIP6 run - bringing you the best of modern climate science.

Your Climate Data, Structured the Way Businesses Use It

We separate our analysis into two essential datasets—what has happened, and what could happen next.

1. Historical Climate (1980–2025)

45 years of harmonised climate history, reconstructed at a preicse downscaled resolution of ~900m.

Includes 100+ indicators across:

  • Heat & temperature extremes
  • Rainfall, drought cycles, and wet/dry spells
  • Extreme weather events - Floods and Cyclones etc.
  • Humidity, wet-bulb temperature, and heat stress
  • Runoff, soil moisture, hydrology trends
  • Wind behaviour & storm-relevant metrics
  • Compound hazards and multi-year shifts

Use it for:

  • Baselining & risk trend identification
  • Supply chain screening
  • Operations planning
  • Adaptation investments
  • Regulatory reporting

Forward-Looking & Flexible:

  • Ensemble of Multiple CMIP6 models
  • Skill-weighted & downscaled
  • P5–P95 percentile ranges
  • Extreme event probabilities
  • Hazard trends over time
  • Scenario divergence analysis

2. Future Climate Scenarios (2030–2100)

Forward-looking projections built from muliple CMIP6 models, skill-weighted and downscaled to ~900m.

You select:

  • Data across three timeframes (2030–2100; annual or decadal)
  • Data for any three scenarios (any SSP pathways)
  • Clear interpretation for strategy and reporting

How We Build the Data (Explained Simply)

ClimateRisk blends the best of climate modelling, observational data, and modern computational techniques.

🌐

Global Climate Datasets

Historical Data is sourced from satelite data on hourly timescale. For scenarios we use latest CMIP6 models to form the scientific foundation of all our projections.

📍

Statistical Downscaling

We sharpen global outputs to local relevance at ~900m resolution.

🏔️

Topographic Corrections

Terrain and land-surface factors improve realism and accuracy.

🤖

Machine Learning

Advanced techniques of ML Algorithms enhance bias correction and sub-grid coherence.

📊

Observational Data

Long-term datasets anchor everything in observed weather statistics and validate outputs.

Continuous Validation

Numbers remain stable and defensible through rigorous testing. We regularly cross-validate our dataset for accuracy.

Scientific strength with practical clarity.
That's the design philosophy behind every dataset we deliver.

What We Need From You

A simple 3-step intake process. Once we have these details, we handle the entire modelling and analysis stack.

Asset Locations

Provide latitude & longitude for each site (at a point or for a polygon). We'll handle any format—coordinates, addresses, or maps.

Your Timeframes

Choose any three windows or specific years between 2030 and 2100 (e.g., 2030s, 2050s, 2080s). We'll project forward across your selected period.

Your Scenarios

Select three SSP pathways of interest and business relevance. Common choices: SSP1-2.6 (low emission), SSP2-4.5 (BAU), SSP5-8.5 (high emission).

What You Will Receive

Comprehensive climate insight tailored to your business needs.

1

Historical Data Package (1990–2024)

100+ climate indicators categorrized under 10 risks reconstructed at ~900m precision, including:

  • Trends and patterns
  • Anomalies and deviations
  • Baseline hazard metrics
  • Multi-year shifts
2

Scenario Analysis Pack

For each chosen future window and pathway, you get:

  • Multi-model ensemble outputs
  • P5/P50/P95 projections
  • Hazard shift analysis
  • Extreme event profiles
  • Scenario divergence interpretations
3

Site-Specific Climate Risk Report

Detailed interpretation document including:

  • Heat, rainfall, wind & drought ratings
  • Compound hazard analysis
  • Hotspot identification
  • Trend narratives
  • Tail-risk visibility
  • Board-level & regulatory insights

Formats: Excel, CSV, PDF, PPT, JSON

How Your Insights Come to Life

Real climate risk insights at asset-level precision. Here's a sample of the granular data we deliver for every location.

Metric Present 2050L 2050M 2050H 2085L 2085M 2085H
Average yearly temperature 10.1 °C +1.3 °C +1.5 °C +2.1 °C +1.2 °C +2.1 °C +4.4 °C
Average summer temperature 19.1 °C +1.4 °C +1.7 °C +2.2 °C +1.2 °C +2.3 °C +5.0 °C
Average winter temperature 1.4 °C +1.5 °C +1.5 °C +2.4 °C +1.5 °C +2.1 °C +4.8 °C
No. of days max. temperature > 25°C 35 days +15 days +17 days +24 days +11 days +24 days +55 days
No. of days max. temperature > 30°C 6 days +6 days +9 days +12 days +6 days +11 days +32 days
Heating degree days 2790 °C days -360 °C days -389 °C days -539 °C days -339 °C days -533 °C days -1024 °C days
Cooling degree days 202 °C days +113 °C days +140 °C days +205 °C days +93 °C days +205 °C days +516 °C days

Temperature projections across low (L), medium (M), and high (H) emission pathways through 2085. Shows both baseline and future scenarios with multi-model ensemble uncertainty.

Metric Present 2050L 2050M 2050H 2085L 2085M 2085H
Average yearly total precipitation 683 mm +30 mm +9 mm +26 mm +54 mm +31 mm +42 mm
Average spring total precipitation 159 mm +21 mm +15 mm +23 mm +33 mm +29 mm +40 mm
Average summer total precipitation 214 mm +7 mm -10 mm -11 mm +10 mm +1 mm -28 mm
Average autumn total precipitation 156 mm +2 mm -1 mm +3 mm +3 mm -11 mm +6 mm
Average winter total precipitation 154 mm +0 mm +5 mm +11 mm +8 mm +12 mm +23 mm
Days exceeding 10mm over the year 12 days +2 days +1 days +2 days +1 days +2 days +3 days
Daily max precipitation 29 mm +1 mm +2 mm +2 mm +4 mm +2 mm +7 mm
Number of dry days (<1mm) 226 days -1 days +3 days +1 days -5 days +2 days +5 days

Precipitation patterns with seasonal breakdowns and extremes. Captures shifts in rainfall intensity and frequency across future scenarios and emission pathways.

Hazard Event Present 2030L 2030M 2030H 2040L 2040M 2040H
10-year riverflood event 1.6 m 1/9 yr 1/10 yr 1/9 yr 1/9 yr 1/9 yr 1/9 yr
50-year riverflood event 1.9 m 1/47 yr 1/48 yr 1/47 yr 1/46 yr 1/45 yr 1/43 yr
100-year riverflood event 2.0 m 1/95 yr 1/95 yr 1/94 yr 1/93 yr 1/93 yr 1/90 yr
500-year riverflood event 2.2 m 1/475 yr 1/478 yr 1/470 yr 1/465 yr 1/464 yr 1/452 yr

Physical hazard quantification: return periods and water heights for flood events. Shows how extreme weather recurrence changes across future scenarios—critical for infrastructure planning.

Metric Present 2030L 2030M 2030H 2040L 2040M 2040H 2050L 2050M 2050H 2060L 2060M 2060H 2070L 2070M 2070H
Temp > 30°C probability 6.4% +3.5% +3.3% +4.4% +6.2% +7.3% +10.1% +8.4% +11.5% +17.4% +9.7% +15.7% +26.2% +10.3% +19.7% +36.8%
Temp > 32°C probability 1.6% +2.0% +1.9% +2.6% +3.7% +4.3% +6.2% +5.0% +7.0% +11.1% +5.9% +9.9% +17.8% +6.2% +12.8% +26.6%
Days >= 62kmh wind 7.5 days -1.4 days -0.9 days -0.8 days -1.7 days -1.1 days -0.9 days -1.9 days -1.5 days -1.0 days -2.3 days -2.3 days -1.3 days -2.4 days -2.5 days -1.6 days
Days >= 44kmh wind 57.8 days -8.6 days -7.0 days -5.8 days -12.5 days -8.5 days -6.9 days -13.6 days -10.6 days -7.7 days -16.2 days -13.4 days -9.4 days -16.4 days -15.2 days -11.3 days

Comprehensive summary view: Multiple hazards and timeframes in a single dataset. This is what decision-makers need: clear, actionable climate intelligence showing probabilities and trends across decades.

CMIP6 Precipitation Analysis for Delhi - showing monthly time series, annual totals, climatology, and distribution

Precipitation Analysis - CMIP6 models showing monthly precipitation patterns, annual totals, seasonal climatology, and distribution analysis with uncertainty bands

Seasonal Analysis & Patterns for Delhi - box plots, violin plots, heatmap, and cumulative precipitation

Seasonal Patterns - Comprehensive seasonal breakdown with box plots, violin distributions, precipitation heatmaps by month and year, and cumulative trends

Temperature Seasonal Pattern for Chindwara - monthly average temperatures with min-max ranges

Temperature Patterns - Monthly average maximum temperatures with standard deviation ranges and historical min-max bounds for long-term reference

Climate visualization showing additional analysis

Advanced Climate Analysis - Multi-dimensional climate metrics showing relationships between different environmental variables and their temporal evolution

Additional climate analysis visualization

Integrated Climate Assessment - Comprehensive view combining multiple climate indicators for holistic risk assessment and trend analysis

These visuals aren’t just charts,they’re clear stories about how your climate risks have changed and where they’re heading. We combine decades of historical satellite observations with validated CMIP6 climate model projections, layering in ensemble uncertainty so nothing is left to guesswork. Every graph is crafted to be presentation-ready, clean and intuitive to understand. These are designed for stakeholder conversations. Whether you're explaining past trends or future risks, the visuals make the science easy to follow and the decisions easier to defend. We handle the technical complexity so your team can focus on delivering clarity and confidence.

Simple, Transparent Pricing

You own the data forever. Pay only for the sites you need.

1-10 Sites

Starter
$199 per site ₹15,999
Most Popular

11-100 Sites

Popular
$100 per site ₹8,999

100+ Sites

Enterprise
Custom Pricing contact us

What's Included in Every Plan

Same comprehensive deliverables. Same data quality. Same insights. The only difference is the number of sites you analyze.

📊

Complete Climate Data

~900m resolution coverage with 45 years of historical data (1980-2024) and future projections to 2100

📈

100+ Climate Indicators

Temperature, precipitation, wind, flooding, and compound hazards across multiple emission scenarios

🎯

Multi-Model Ensemble

60+ CMIP6 models with uncertainty quantification. P5/P50/P95 projections across all pathways

📋

Compliance-Ready Reports

TCFD/IFRS S2 aligned documentation. Risk scores, hazard matrices, and executive summaries

Data Validation

Daily validation against 50+ years of observational data. Hindcast accuracy reports included

🔄

Multiple Formats

Excel, CSV, PDF, PPT, JSON. Choose your format. Own the data forever. No subscriptions.

What you own: All analysis is perpetual. One-time purchase. You own the data. Same quality deliverables across all plan sizes.

See Your Climate Future Clearly

If you have assets anywhere on Earth, we can show you how the climate around them is changing—historically and into the future.