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Advances in environmental engineering and green technologies (AEEGT) book series.
Forest fire danger prediction using deterministic-probabilistic approach / Nikolay Viktorovich Baranovskiy. — 1 online resource (xxi, 297 pages) : illustrations (some color. — (Advances in environmental engineering and green technologies (AEEGT) book series). — "Premier Reference Source" -- Cover. — <URL:http://elib.fa.ru/ebsco/2932068.pdf>.

Record create date: 9/17/2020

Subject: Forest fire forecasting.; Forest fire forecasting — Simulation methods.; Forest fires — Prevention and control.; Forêts — Incendies — Prévision.; Forêts — Incendies — Prévision — Méthodes de simulation.; Forêts — Incendies — Prévention et maîtrise.; Forest fire forecasting; Forest fires — Prevention and control

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"This book is devoted to the predicting of forest fire danger using a deterministic-probabilistic approach"--.

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Table of Contents

  • Cover
  • Title Page
  • Copyright Page
  • Book Series
  • Table of Contents
  • Detailed Table of Contents
  • Preface
  • Acknowledgment
  • Section 1: Mathematical Simulation of the Coniferous Tree Ignition by the Cloud-to-Ground Lightning Discharge
    • Chapter 1: One-Dimensional Mathematical Models to Simulate Coniferous Tree Ignition
    • Chapter 2: Two-Dimensional Mathematical Models to Simulate Coniferous Tree Ignition
    • Chapter 3: Three-Dimensional Mathematical Models to Simulate Coniferous Tree Ignition
    • Chapter 4: M-Components Mathematical Modeling for Coniferous Tree Ignition
  • Section 2: Mathematical Simulation of the Deciduous Tree Ignition by the Cloud-to-Ground Lightning Discharge
    • Chapter 5: One-Dimensional Mathematical Models to Simulate Deciduous Tree Ignition
    • Chapter 6: Two-Dimensional Mathematical Models to Simulate Deciduous Tree Ignition
    • Chapter 7: Three-Dimensional Mathematical Models to Simulate Deciduous Tree Ignition
    • Chapter 8: M-Components Mathematical Modeling for Deciduous Tree Ignition
  • Section 3: Forest Fuel Ignition Physical Modeling and Mathematical Simulation
    • Chapter 9: Physical Modeling of Forest Fuel Ignition by the Heated Up to High Temperatures Particle
    • Chapter 10: Physical Modeling of Forest Fuel Ignition by the Molten Metal Particles
    • Chapter 11: Physical Modeling of Forest Fuel Ignition by the Focused Sunlight
    • Chapter 12: Mathematical Modeling of Forest Fuel Ignition by the Heated Up to High Temperatures Particle
    • Chapter 13: Mathematical Modeling of Forest Fuel Ignition by the Focused Sunlight
  • Section 4: Deterministic-Probabilistic Criteria to Predict Forest Fire Danger
    • Chapter 14: Forest Fire Probability Prediction Taking Into Account Anthropogenic Load, Lightning Activity, and Weather Conditions
    • Chapter 15: Forest Fire Probability Prediction Taking Into Account Different Reasons of Anthropogenic Load
    • Chapter 16: Mathematical Simulation of Anthropogenic Load on Forested Territories
  • About the Author
  • Index

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