Feasibility Analysis of Soft Water Cellar in Dryland Area

Authors

  • Longchi Wu

DOI:

https://doi.org/10.54097/ajst.v3i3.2527

Keywords:

Dry tableland area, Cultivated land quality, Water saving irrigation, Soft water cellar.

Abstract

During the construction of high standard farmland, by introducing new software rainwater harvesting cellar technology, combining big data and intelligence, laying drip irrigation belts and other field facilities in the field, efficient water-saving irrigation was realized according to local conditions, and the problem of supplementary irrigation in key growth periods of agricultural production was solved.

References

John Gold, Erik Nissen-Petersen.Rainw ater Catchment Systems for Domestic Supply-Design, Construction and Implementation[M]. London, UK: International T echnology Publication, 1999:20-44,240-249.

Carman P C. Permeability of saturated sands, soils andclays[J. The Journal of Agricultural Science,1939,29(2):262-273.

Radu O. Water excess drainage during operations onagricultural land fitted with drainage-draining works inthe catchment area of Moldova River, Suceava County[J]. Research Journal of Agricultural Science,2013,45( 2):210-220.

Liu Yansui, Guo Yanjun, Li Yurui, et al. GIS-basedeffect assessment of soil erosion before and after gullyland consolidation: A case study of Wangjiagou projectregion, Loess Plateau[J]. Chinese Geographical Sci-ence, 2015, 25(2): 137-146.

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Published

13 November 2022

How to Cite

Wu, L. (2022). Feasibility Analysis of Soft Water Cellar in Dryland Area. Academic Journal of Science and Technology, 3(3), 15–17. https://doi.org/10.54097/ajst.v3i3.2527

Issue

Section

Articles