🏭 Enterprise-Grade Combustion Platform

One Platform, 14 Specialized Modules

From rocket propulsion to fire safety, coal combustion to battery simulationβ€”the most comprehensive AI-powered combustion engineering platform ever built.

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Rocket Propulsion: Complete nozzle to thrust analysis
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Fire Safety AI: Real-time hazard assessment & evacuation
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Industrial Combustion: From coal to chemical equilibrium
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AI-Powered: Object detection, learning mode, ROM
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Cantera Integration: Advanced chemical kinetics
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Teaching Center: Complete educational framework
Explore All 14 Modules β†’ Request Enterprise Demo

Used by propulsion engineers, fire safety experts, and industrial researchers

Industry Applications
14 β†’ 1

Specialized Tools, Unified Platform

"Why use 5 different software packages when one platform covers combustion, safety, propulsion, and education with AI intelligence?"

Engineering Teams Save 70% On software licensing and training costs

The Most Comprehensive Combustion Engineering Platform

14 specialized modules covering every aspect of combustion science, safety, and propulsion

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Fire Safety & AI

Complete hazard assessment system
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    AI Measurements: Real-time object detection
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    Fire Load Assessment: Material hazard analysis
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    Evacuation Analysis: Optimal escape paths
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    Toxicity Estimation: Gas dispersion modeling
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    Ventilation Effects: Airflow impact on fires
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Rocket Propulsion

Complete propulsion system design
  • β€’
    Nozzle Design: Optimized expansion ratios
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    Thrust & Impulse: Performance calculations
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    Chamber Sizing: Optimal combustion volumes
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    Grain Design: Solid propellant geometry
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    Hybrid Rockets: Regression rate analysis
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Chemical Equilibrium

Cantera-powered kinetics
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    Equilibrium Combustion: Perfect reaction analysis
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    Incomplete Combustion: Real-world scenarios
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    Ignition Delay: Critical timing analysis
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    Fuel Blending: Multi-fuel optimization
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    Premixed Analysis: Regime classification
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Core Calculations

Fundamental combustion science
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    AFR vs Ξ¦ Plot: Stoichiometry visualization
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    Adiabatic Flame Temp: Maximum temperature
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    Flame Speed Analysis: Propagation rates
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    Fuel Comparison: Multi-fuel analysis
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    Emissions Prediction: Pollutant forecasting
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Coal Combustion

Solid fuel analysis
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    Pyrolysis Analysis: Decomposition modeling
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    Pyrolysis Gas: Volatile matter analysis
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    Stoichiometry: Complete reaction balancing
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    Industrial Scaling: Power plant applications
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AI & Learning

Intelligent assistance
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    Learning Mode: Step-by-step explanations
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    Reduced Order Models: Fast approximate solutions
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    AI Detection: Material identification
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    Teaching Center: Complete course materials

Who Needs This Much Power?

One platform serving multiple high-stakes industries

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Fire Safety Engineering

  • β€’ Building code compliance teams
  • β€’ Insurance risk assessors
  • β€’ Fire department planners
  • β€’ Industrial safety officers
  • β€’ Evacuation route designers
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Aerospace & Defense

  • β€’ Rocket propulsion designers
  • β€’ Solid fuel manufacturers
  • β€’ Nozzle optimization teams
  • β€’ Hybrid rocket researchers
  • β€’ Propellant formulation labs
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Industrial Energy

  • β€’ Power plant engineers
  • β€’ Coal combustion researchers
  • β€’ Emissions compliance teams
  • β€’ Fuel blending specialists
  • β€’ Chemical plant designers
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Academic & Research

Complete teaching & research platform

With built-in Teaching Center, Learning Mode, and step-by-step explanations, universities can teach combustion science from fundamentals to advanced topics.

PhD Research Undergraduate Labs Graduate Courses Research Validation
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Emerging Technologies

Beyond traditional combustion

Lithium battery thermal runaway simulation and advanced material properties analysis for next-generation energy storage and conversion technologies.

Battery Safety Thermal Management Material Properties Safety Testing

Why Fragmented Tools When You Can Have Unity?

The cost and complexity of managing multiple specialized software

The Old Way

  • βœ—
    5+ different software licenses
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    Data doesn't transfer between tools
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    Different interfaces to learn
  • βœ—
    No unified project management
  • βœ—
    Separate training for each tool
Annual Cost: $15,000+
Per engineer, with 40+ hours training

With Combustion Studio AI

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    One license, 14 modules
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    Shared data across all tools
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    Consistent interface & workflow
  • βœ“
    Unified project management
  • βœ“
    Integrated learning system
Annual Cost: $2,388
Per engineer, includes training
85%

Cost Reduction Potential

Plus 60% reduction in training time and 70% faster project completion

Enterprise-Grade Combustion Platform

Deploy across research teams, engineering departments, or entire organizations

Request Enterprise Quote

Volume licensing β€’ Custom modules β€’ Priority AI training

52
Specialized Tools
In 14 integrated modules
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AI-Powered
Learning, detection, validation
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Built-in Education
Teaching center & learning mode

The Future of Combustion Engineering is Unified

Stop switching between tools. Start solving real engineering problems.

Special Launch Offer

First 50 enterprise customers receive:

  • β€’ 60% discount on first year
  • β€’ Custom module development
  • β€’ Direct engineering support
  • β€’ AI model training for your domain
Apply for Launch Offer β†’