Forest fire danger prediction using deterministic-probabilistic approach
Advances in environmental engineering and green technologies (AEEGT) book series./ Nikolay Viktorovich Baranovskiy.

Baranovskiy  Nikolay Viktorovich

Home
→
EBSCO eBook (только для КФУ)
→
Полнотекстовая коллекция книг EBSCO eBook
→
View Item

dc.contributor.author	Baranovskiy Nikolay Viktorovich
dc.date.accessioned	2024-01-29T23:33:08Z
dc.date.available	2024-01-29T23:33:08Z
dc.date.issued	2021
dc.identifier.citation	Baranovskiy. Forest fire danger prediction using deterministic-probabilistic approach Advances in environmental engineering and green technologies (AEEGT) book series. - 1 online resource (xxi, 297 pages) : - URL: https://libweb.kpfu.ru/ebsco/pdf/2932068.pdf
dc.identifier.isbn	1799872521
dc.identifier.isbn	9781799872528
dc.identifier.uri	https://dspace.kpfu.ru/xmlui/handle/net/182440
dc.description	"Premier Reference Source" -- Cover.
dc.description	Includes bibliographical references and index.
dc.description.abstract	"This book is devoted to the predicting of forest fire danger using a deterministic-probabilistic approach"--
dc.description.tableofcontents	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.
dc.language	English
dc.language.iso	en
dc.relation.ispartofseries	Advances in environmental engineering and green technologies (AEEGT) book series
dc.relation.ispartofseries	Advances in environmental engineering and green technologies (AEEGT) book series.
dc.subject.other	Forest fire forecasting.
dc.subject.other	Forest fire forecasting -- Simulation methods.
dc.subject.other	Forest fires -- Prevention and control.
dc.subject.other	Forêts -- Incendies -- Prévision.
dc.subject.other	Forêts -- Incendies -- Prévision -- Méthodes de simulation.
dc.subject.other	Forêts -- Incendies -- Prévention et maîtrise.
dc.subject.other	Forest fire forecasting
dc.subject.other	Forest fires -- Prevention and control
dc.subject.other	Electronic books.
dc.title	Forest fire danger prediction using deterministic-probabilistic approach Advances in environmental engineering and green technologies (AEEGT) book series./ Nikolay Viktorovich Baranovskiy.
dc.type	Book
dc.description.pages	1 online resource (xxi, 297 pages) :
dc.collection	Электронно-библиотечные системы
dc.source.id	EN05CEBSCO05C46030030