A Simple Model to Estimate Actual Evaporation for Iraq Based on Satellite Data

المؤلفون

  • Aqeel G. Mutar
  • Nagam Abbas Mohammed

DOI:

https://doi.org/10.32792/jeps.v12i2.221

الكلمات المفتاحية:

hydrological cycle، evaporation، Precipitable Water Vapor، security healthcare

الملخص

The hydrological cycle plays a key role in life on our planet. It is closely related with exchanges of
energy between Earth's surface and the atmosphere, which ultimately determines the climate the purpose
of this study is to apply a statistical model in order to estimate and calculate Actual evaporation for Iraq
in 1984-2010 based on Precipitable Water Vapor Data from Satellites. We calculated the water cycle rate
for this purpose using satellite data, and we used data from the Planet Simulator model to determine the
precipitation/evaporation relationship during a 10-year period. The relative error in estimating the
evaporation rate using the model does not exceed 2.1%. Results showed that the actual evaporation in
1983-2009 for Iraq ranging between (0.5 - 2.4) mm/day as a monthly average and (0.79-1.43) mm/day as
yearly average. and the actual evaporation decrease in the last years.

المراجع

Miralles, D. G., Holmes, T. R. H., De Jeu, R. A. M., Gash, J. H., Meesters, A. G. C. A., &

Dolman, A. J. “Global land-surface evaporation estimated from satellite-based observations” Hydrology

and Earth System Sciences, 15(2), 453. 2011.

Hassan, M. “Evaporation estimation for Lake Nasser based on remote sensing technology” Ain

Shams Engineering Journal, 4(4), 593-604. 2013.

A.Gordon, "The Hybrid Cloud Security Professional," IEEE Cloud Computing , vol. 3, no. 1, pp. 82

- 86, Jan-Feb 2016. 3. Rathod, P., & Manekar, V. L. “Estimation of Pan Evaporation and Actual

Evapotranspiration Using GIS and Remote Sensing” Development of Water Resources in India Springer,

Cham. 2017. pp. 233-244.

Sini, F., Boni, G., Caparrini, F., & Entekhabi, D. Estimation of large‐scale evaporation fields

based on assimilation of remotely sensed land temperature. Water resources research, 44(6) .2008.

Fraedrich, K., Jansen, H., Kirk, E., Luksch, U., Lunkeit, F. “The planet simulator: Towards a

user friendly model” Meteorologische Zeitschrift 14 (3), p.p299–304. 2005.

Fraedrich, K., Jansen, H., Kirk, E., Lunkeit, F.b “The planet simulator: Green planet and

desert world” Meteorologische Zeitschrift 14 (3). P.P 305–314. 2005.

Al-Tameemi, M. A., & Chukin, V. V.. “Global water cycle and solar activity variations” Journal of

Atmospheric and Solar-Terrestrial Physics, 142, 55-59. 2016.

Abbas, S. A., Hassan, A. A., & Al-Rekabi, W. S. “Estimation of Mean Reference

Evapotranspiration in Basrah City, South of Iraq Using Fuzzy Logic” Journal of University of Babylon,

(1), 98-108.2017

Ali, H. Z., & Faraj, S. H. “Estimation of Daily Evaporation from Calculated Evapotranspiration in

Iraq” JURNAL OF MADENAT ALELEM COLLEGE, 9(2), 84-96. 2017

Mohsen, N. Z. “Estimation daily evaporation employing neural network for Abu-Garib station,

Baghdad, Iraq” International Journal of Scientific and Research Publications, 6(2), 322-325. 2016.

Gao, F., Feng, G., Ouyang, Y., Wang, H., Fisher, D., Adeli, A., & Jenkins, J.” Evaluation of

reference evapotranspiration methods in arid, semiarid, and humid regions” Journal of the American

Water Resources Association, 53(4), 791-808. 2017.

التنزيلات

منشور

2023-02-19