CONSIDERATION OF HUMIDITY CONDITION OF THE TERRİTORY AT THE ASSESSMENT OF WATER RESOURCES AND WATER BALANCE ELEMENTS

Authors

  • R.M. Mamedov Academician G.A. Aliyev Institute of Geography of the National Academy of Sciences of Azerbaijan

Keywords:

water resources, water balance, humidification coefficient, GIS technology, rational method, gross humidification, permeability, Geokchay river, satellite image, satellite imagery

Abstract

The article is dedicated to the study of the role of territory humidity condition on the changes of water resources and the water balance elements. When assessing the humidity condition of the territory we are preferred to 3 main parameters – maximum retention, initial abstraction and humidity coefficient.We proposed a new modified methodology that allows more operative and accurate assessment the water resources of any territory for any period of time. Scientific results are obtained when processing complex runoff-forming factors using GIS computational-comparative and fuzzy-optimization programmingand are highly accurate. Another advantage is the satellite multispectral images of the territory and data on atmospheric precipitation are sufficient to fulfill the study

References

Абдуев М.А., Теймуров М.А. Оценки водных ресурсов и элементов водного баланса с помощью состояния влажности территории. // Кадастровое и эколого-ландшафтное обеспечение землеустройства в современных условиях. Матер. междунар. конф. – Воронеж. Россия, 2018. – C. 8-12.

Абдуев М.А., Теймуров М.А. Определение элементов водного баланса и объема водных ресурсов р. Гирдыманчай с использованием рационального метода. // Матер. междунар. конф. – Улан-Удэ, Россия, 2018. – С. 191-194.

Кашкай Р.М., Теймуров М.А. Применение рационального метода при определении доли подземной составляющей водного баланса. //Известия Наук о Земле НАНА – 2016 – № 3-4. – С. 83-89.

Львович М.И. Водный баланс СССР и его преобразование. –Издательство: Наука, 1969. – 337 с.

Рустамов С.Г., Кашкай Р.М. Водный баланс Азербайджанской ССР. –Баку: «Элм», 1978. – 110 с.

Camille Thomason, P.E. Hydraulic Design Manual. Rational Method. Runoff Coefficients. Table 4-10: Runoff Coefficients for Urban Watershed. Table 4-11: Runoff Coefficients for Rural Watersheds. – 2019.

Mohamed Abu-Hashim, et al. Identification of potential soil water retention using hydric numerical model at arid regions by land-use changes. International Soil and Water Conservation Research. – 2015. – Рp. 305-315.

Ponce V.M. & Shetty A.V. A conceptual model of catchment water balance. Formulation and calibration. Hydrology, 1995. – Pp. 27-40.

Sadri, S. & Graham. E. Development of an antecedent moisture condition model for prediction of Rainfall-Derived Inflow/Infiltration (RDII). American Geophysical Union, Fall Meeting, 2011, #H53J-1547.

Teymurov M.A., Abduyev M.A. Impact of urbanization on Absheron Peninsula lake ecosystem (on Hojahasan Lake example). Danish Scientific Journal (Denmark, Copenhagen). – Volume 1, №10. – 2018. – Pp.18-28.

Thompson. David B. The Rational Method. Civil Engineering Department Texas Tech University Draft. – 20 September, 2006.

United States Department of Agriculture. Part 630. Hydrology National Engineering Handbook. Chapter 7. Hydrologic Soil Groups. – Issued January, 2009.

Published

2023-02-16

How to Cite

Mamedov Р. (2023). CONSIDERATION OF HUMIDITY CONDITION OF THE TERRİTORY AT THE ASSESSMENT OF WATER RESOURCES AND WATER BALANCE ELEMENTS. Hydrometeorology and Ecology, (1), 80–92. Retrieved from https://journal.kazhydromet.kz/index.php/kazgidro/article/view/90

Issue

Section

HYDROLOGY

Most read articles by the same author(s)