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Sprinkler Irrigation Design Guide

This document provides an introduction and overview of sprinkler irrigation systems. It discusses the network design including the pipe network layout and components. It notes key considerations for pipe sizing and layout such as maintaining adequate water velocity and positioning lateral lines perpendicular to wind direction. Equations for calculating friction loss in pipe networks are also presented. The document is authored by Eng. Peter Hany Milad and is intended as a reference on sprinkler irrigation system design.

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86 views13 pages

Sprinkler Irrigation Design Guide

This document provides an introduction and overview of sprinkler irrigation systems. It discusses the network design including the pipe network layout and components. It notes key considerations for pipe sizing and layout such as maintaining adequate water velocity and positioning lateral lines perpendicular to wind direction. Equations for calculating friction loss in pipe networks are also presented. The document is authored by Eng. Peter Hany Milad and is intended as a reference on sprinkler irrigation system design.

Uploaded by

mohamed amer
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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Faculty of Engineering

Menoufia University Civil Engineering Department

Sprinkler Irrigation System


‫ﻧﻈﺎﻡ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ‬

V1.0 - 2022

Eng. Peter Hany Milad


Civil.PeterHany@gmail.com
‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﻣﻘﺪﻣﺔ ‪Introduction‬‬

‫ﺍﻟﻤﺴﺘﻤﺪﺓ ﻓﻜﺮﺗﻬﺎ ﻣﻦ ﺍﻟﺮﻱ ﺍﻟﻄﺒﻴﻌﻲ ﺑﻮﺍﺳﻄﺔ ﺍﻷﻣﻄﺎﺭ‪.‬‬‫‪ -‬ﻧﻈﺎﻡ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﻫﻮ ﺃﺣﺪ ﺃﻧﻈﻤﺔ ﺍﻟﺮﻱ ﺍﻟﺤﺪﻳﺜﺔ ُ‬
‫‪ -‬ﺗﻌﺘﻤﺪ ﻓﻜﺮﺗﻪ ﺍﻷﺳﺎﺳﻴﺔ ﻋﻠﻰ ﺧﺮﻭﺝ ﺍﻟﻤﻴﺎﻩ ﻣﻦ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻰ ﺷﻜﻞ ﺭﺫﺍﺫ ﺑﻤﻌﺪﻝ ﻣﻌﻴﻦ ﻻ ﻳﺰﻳﺪ ﻋﻦ ﻣﻌﺪﻝ‬
‫ﺇﻣﺘﺼﺎﺹ ﺍﻟﺘﺮﺑﺔ ﻟﻠﻤﻴﺎﻩ ﻟﺘﺤﻘﻴﻖ ﺍﻹﺳﺘﻔﺎﺩﺓ ﺍﻟﻘﺼﻮﻯ ﻣﻦ ﺍﻟﻤﻴﺎﻩ‪.‬‬

‫ﺗﺼﻤﻴﻢ ﺍﻟﺸﺒﻜﺔ ‪Network Design‬‬

‫‪ -‬ﺍﻟﻤﻘﺼﻮﺩ ﺑﺘﺼﻤﻴﻢ ﺷﺒﻜﺔ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﻫﻮ ﺗﺤﺪﻳﺪ ﺃﻗﻄﺎﺭ ﺍﻟﻤﻮﺍﺳﻴﺮ ﻭﻃﺮﻳﻘﺔ ﺗﺨﻄﻴﻄﻬﺎ ﻭﺳﺮﻋﺔ ﺍﻟﻤﻴﺎﻩ‬
‫ﺑﺪﺍﺧﻠﻬﺎ ﻭﻛﺬﻟﻚ ﻗﺪﺭﺓ ﺍﻟﻤﻀﺨﺎﺕ‪.‬‬

‫ﺷﺒﻜﺔ ﺍﻟﻤﻮﺍﺳﻴﺮ ‪Pipe Network‬‬ ‫‪1‬‬

‫‪ -‬ﺗﺘﻜﻮﻥ ﻣﻦ‬
‫‪ -١‬ﻣﻮﺍﺳﻴﺮ ﺭﺋﻴﺴﻴﺔ )ﺗﺄﺧﺬ ﺍﻟﻤﻴﺎﻩ ﻣﻦ ﺍﻟﻤﻀﺨﺔ(‪.‬‬
‫‪ -٢‬ﻣﻮﺍﺳﻴﺮ ﻓﺮﻋﻴﺔ )ﺗﺄﺧﺬ ﺍﻟﻤﻴﺎﻩ ﻣﻦ ﺍﻟﻤﻮﺍﺳﻴﺮ ﺍﻟﺮﺋﻴﺴﻴﺔ(‪.‬‬
‫‪ -٣‬ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﺗﺄﺧﺬ ﺍﻟﻤﻴﺎﻩ ﻣﻦ ﺍﻟﻤﻮﺍﺳﻴﺮ ﺍﻟﻔﺮﻋﻴﺔ ﻭﻳﺘﻢ ﺗﺮﻛﻴﺐ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻴﻬﺎ(‪.‬‬

‫ﻣﻼﺣﻈﺎﺕ ﻋﺎﻣﺔ ﻋﻨﺪ ﺗﺼﻤﻴﻢ ﺷﺒﻜﺔ ﺍﻟﻤﻮﺍﺳﻴﺮ‬

‫‪ -‬ﻳﺘﻢ ﻓﺮﺽ ﺍﻟﺴﺮﻋﺔ ﺍﻟﻤﺘﻮﺳﻄﺔ ﺩﺍﺧﻞ ﺍﻟﻤﺎﺳﻮﺭﺓ ﻓﻲ ﺣﺪﻭﺩ )‪ (٢ ~١‬ﻡ‪/‬ﺙ ﻭﺫﻟﻚ ﺣﺘﻰ ﻧﺘﺠﻨﺐ‬
‫ﺍﻧﺴﺪﺍﺩ ﺍﻟﻤﺎﺳﻮﺭﺓ ﻓﻲ ﺣﺎﻟﺔ ﻧﻘﺺ ﺍﻟﺴﺮﻋﺔ ﻋﻦ ‪١‬ﻡ‪/‬ﺙ ﻭﻛﺬﻟﻚ ﻟﺘﻘﻠﻴﻞ ﺍﻟﻔﺎﻗﺪ ﺑﺎﻹﺣﺘﻜﺎﻙ ﻓﻲ‬
‫ﺣﺎﻟﺔ ﺯﻳﺎﺩﺓ ﺍﻟﺴﺮﻋﺔ ﻋﻦ ‪٢‬ﻡ‪/‬ﺙ‪.‬‬

‫‪ -‬ﻳﺘﻢ ﻭﺿﻊ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻤﻮﺩﻳﺔ ﻋﻠﻰ ﺇﺗﺠﺎﻩ ﺍﻟﺮﻳﺎﺡ ﺣﺘﻰ ﻧﺘﺠﻨﺐ ﺗﺄﺛﻴﺮﻫﺎ ﻋﻠﻰ ﺇﻧﺘﻈﺎﻡ‬
‫ﺗﻮﺯﻳﻊ ﺍﻟﺮﺫﺍﺫ‪.‬‬

‫‪ -‬ﻻ ﻳﺰﻳﺪ ﻃﻮﻝ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻦ ‪٢٥٠‬ﻡ ﺣﺘﻰ ﻧﺘﺠﻨﺐ ﺯﻳﺎﺩﺓ ﺍﻟﻔﺎﻗﺪ ﻓﻲ ﺍﻟﻀﻐﻂ ﻭﺣﺘﻰ‬
‫ﻳﻤﻜﻦ ﻧﻘﻠﻪ ﺑﺴﻬﻮﻟﺔ ﻓﻲ ﺣﺎﻟﺔ ﻧﻈﺎﻡ ﺷﺒﻜﺎﺕ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﺍﻟﻤﺘﻨﻘﻞ ﻭﺍﻟﻨﺼﻒ ﺛﺎﺑﺖ‪.‬‬

‫‪ -‬ﻻ ﻳﺰﻳﺪ ﻃﻮﻝ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ ﻋﻦ ‪١٢٠٠‬ﻡ ﻭﻳﻜﻮﻥ ﺛﺎﺑﺖ ﻭﻣﺪﻓﻮﻥ ﺗﺤﺖ ﺍﻷﺭﺽ ﻭﻳﺘﻢ ﺗﺮﻛﻴﺐ‬
‫ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻴﻪ ﻭﻧﻘﻠﻬﺎ ﻣﻦ ﻣﻜﺎﻥ ﻵﺧﺮ ﻋﻨﺪ ﺍﻟﺮﻱ‪.‬‬

‫‪ -‬ﻻ ﻳﺰﻳﺪ ﻃﻮﻝ ﺍﻟﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ ﻋﻦ ‪٣٠٠٠‬ﻡ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪1‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫‪ -‬ﻣﻌﺎﺩﻟﺔ ﺣﺴﺎﺏ ﺍﻟﻔﺎﻗﺪ ﺑﺎﻹﺣﺘﻜﺎﻙ ﻓﻲ ﺷﺒﻜﺔ ﺍﻟﻤﻮﺍﺳﻴﺮ‪:‬‬

‫‪L × V1.9‬‬
‫× ‪Hf = Ks‬‬
‫‪D1.1‬‬
‫ﺍﻟﺼﻠﺐ‪.‬‬
‫ﺣﻴﺚ ﺃﻥ ‪ Ks‬ﻫﻮ ﻣﻌﺎﻣﻞ ﺳﻜﻮﺑﻲ ﻭﺗﻜﻮﻥ ﻗﻴﻤﺘﻪ ‪ 0.00086‬ﻓﻲ ﺣﺎﻟﺔ ﺍﻟﻤﻮﺍﺳﻴﺮ ُ‬

‫‪Pumping Unit‬‬ ‫ﻭﺣﺪﺓ ﺍﻟﻀﺦ‬ ‫‪2‬‬

‫‪ -‬ﻧﺤﺘﺎﺝ ﻟﺘﺼﻤﻴﻢ ﺍﻟﻤﻀﺨﺔ ﺃﻭ ﺍﻟﻤﻀﺨﺎﺕ ﺍﻟﻼﺯﻣﺔ ﻟﺮﻱ ﻣﺴﺎﺣﺔ ﻣﻌﻴﻨﺔ ﻣﻦ ﺍﻷﺭﺽ ﺑﻨﻈﺎﻡ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﺇﻟﻰ‬
‫ﻣﻌﺮﻓﺔ ﺍﻟﻀﺎﻏﻂ ﻋﻨﺪ ﺍﻟﻤﻀﺨﺔ ﻭﺍﻟﻀﻐﻂ ﺍﻟﻤﻄﻠﻮﺏ ﻋﻨﺪ ﺃﺑﻌﺪ ُ‬
‫ﻧﻘﻄﺔ ﻓﻲ ﺍﻟﺸﺒﻜﺔ ﻭﻛﺬﻟﻚ ﺍﻟﺘﺼﺮﻑ ﺍﻟﺨﺎﺭﺝ‬
‫ﻣﻦ ﺍﻟﻤﻀﺨﺔ ﻭﻛﻔﺎﺀﺗﻬﺎ‪.‬‬

‫‪ -‬ﻣﻌﺎﺩﻟﺔ ﺣﺴﺎﺏ ﻗﺪﺭﺓ ﺍﻟﻤﻀﺨﺔ‪:‬‬

‫‪ϫw × H × Q‬‬
‫=‪P‬‬
‫‪75 × ɳ‬‬

‫ﻣﻼﺣﻈﺎﺕ ﻋﺎﻣﺔ ﻋﻨﺪ ﺗﺼﻤﻴﻢ ﻭﺣﺪﺓ ﺍﻟﻀﺦ‬

‫‪ -‬ﻳﺘﻢ ﺍﻟﺘﻌﻮﻳﺾ ﻋﻦ ﺟﻤﻴﻊ ﺍﻟﻘﻴﻢ ﻓﻲ ﺍﻟﻘﺎﻧﻮﻥ ﺑﻮﺣﺪﺍﺕ )‪.(Kg, m & sec.‬‬


‫‪ -‬ﻳﺘﻢ ﺇﻋﺘﺒﺎﺭ ﻛﻔﺎﺀﺓ ﺍﻟﻤﻀﺨﺔ ‪.٪٦٢‬‬
‫‪ -‬ﻳﺘﻢ ﺍﻟﺘﻌﻮﻳﺾ ﻋﻦ ﺍﻟﻮﺯﻥ ﺍﻟﻨﻮﻋﻲ ﻟﻠﻤﺎﺀ ﺑـ ‪١٠٠٠‬ﻛﺠﻢ‪/‬ﻡ‪.٣‬‬
‫‪ -‬ﻳﺘﻢ ﺣﺴﺎﺏ ﺍﻟﻀﺎﻏﻂ ﺍﻟﻜﻠﻲ ﺍﻟﻤﻄﻠﻮﺏ ﻟﻠﻤﻀﺨﺔ ﻛﺎﻟﺘﺎﻟﻲ ‪:‬‬
‫ﺍﻟﻀﻐﻂ ﺍﻟﻤﻄﻠﻮﺏ ﻋﻨﺪ ﺑﺪﺍﻳﺔ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ ‪ +‬ﺍﻟﻔﻮﺍﻗﺪ ﺍﻟﻜﻠﻴﺔ ﺧﻼﻝ ﺍﻟﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ‬
‫ﻭﺫﻟﻚ ﻣﻊ ﺍﻷﺧﺬ ﻓﻲ ﺍﻻﻋﺘﺒﺎﺭ ﻭﺟﻮﺩ ﻣﻴﻮﻝ ﻓﻲ ﺍﻷﺭﺽ ﺃﻭ ﻭﺟﻮﺩ ﻓﻮﺍﻗﺪ ﻓﻲ ﻣﺎﺳﻮﺭﺓ ﺍﻟﺴﺤﺐ‪.‬‬
‫‪ -‬ﻳﺘﻢ ﻭﺿﻊ ﺍﻟﻤﻀﺨﺔ ﻓﻲ ﻣﻨﺘﺼﻒ ﻗﻄﻌﺔ ﺍﻷﺭﺽ ﻟﺘﻘﻠﻴﻞ ﺍﻟﻔﻮﺍﻗﺪ ﻭﺍﻟﻌﻤﻞ ﻋﻠﻰ ﺇﻧﺘﻈﺎﻡ‬
‫ﺍﻟﻀﻐﻂ ﻓﻲ ﺍﻟﺸﺒﻜﺔ‪ ,‬ﻛﻤﺎ ﻳﺘﻢ ﻭﺿﻊ ﺍﻟﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ ﻓﻲ ﺃﻋﻠﻰ ﺟﺰﺀ ﻣﻦ ﺍﻷﺭﺽ‪.‬‬
‫‪ -‬ﻳﺘﻢ ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺍﻟﻤﻀﺨﺔ ﻋﻦ ﻃﺮﻳﻖ ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺍﻟﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ ﻭﻣﻌﺮﻓﺔ ﻣﻨﺎﻭﺑﺔ‬
‫ﺍﻟﺮﻱ ﺍﻟﻤﺴﺘﺨﺪﻣﺔ‪.‬‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪2‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫‪Design Steps‬‬ ‫ﺧﻄﻮﺍﺕ ﺍﻟﺘﺼﻤﻴﻢ‬

‫‪ -‬ﻟﺘﺼﻤﻴﻢ ﺷﺒﻜﺔ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﻳﺘﻢ ﺇﺗﺒﺎﻉ ﺍﻟﺨﻄﻮﺍﺕ ﺍﻟﺘﺎﻟﻴﺔ ﺑﺎﻟﺘﺮﺗﻴﺐ‪:‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ‬ ‫‪1‬‬

‫‪ -‬ﻟﺤﺴﺎﺏ ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ ﻳﺠﺐ ﻣﻌﺮﻓﺔ ﺍﻟﻤﻌﻠﻮﻣﺎﺕ ﺍﻟﺘﺎﻟﻴﺔ‪:‬‬


‫‪ -١‬ﺗﺼﺮﻑ ﺍﻟﺮﺷﺎﺵ )ﻳﻜﻮﻥ ﺑﻮﺣﺪﺓ ﻡ‪/٣‬ﺱ(‪.‬‬
‫‪ -٢‬ﻗﻄﺮ ﺩﺍﺋﺮﺓ ﺧﺪﻣﺔ ﺍﻟﺮﺷﺎﺵ )ﺗﻜﻮﻥ ﺑﺎﻟﻤﺘﺮ ﻭﻳﺘﻢ ﺗﺤﺪﻳﺪﻫﺎ ﺑﻨﺎﺀ ﻋﻠﻰ ﻧﻮﻉ ﺍﻟﺮﺷﺎﺵ(‪.‬‬
‫‪ -٣‬ﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ ﺑﻴﻦ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻰ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﺍﻟﻮﺍﺣﺪ )ﺗﻜﻮﻥ ﻛﻨﺴﺒﺔ ﻣﺌﻮﻳﺔ(‪.‬‬
‫‪ -٤‬ﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ ﺑﻴﻦ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﺗﻜﻮﻥ ﻛﻨﺴﺒﺔ ﻣﺌﻮﻳﺔ(‪.‬‬
‫‪ -٥‬ﻓﺘﺮﺓ ﺗﺸﻐﻴﻞ ﺍﻟﺮﺷﺎﺵ )‪ ٤‬ﺃﻭ ‪ ٦‬ﺃﻭ ‪ ٨‬ﺳﺎﻋﺎﺕ(‪.‬‬
‫‪ -٦‬ﻣﻌﺪﻝ ﺇﺳﺘﻬﻼﻙ ﺍﻟﻨﺒﺎﺕ ﻟﻠﻤﺎﺀ )ﺗﻜﻮﻥ ﺑﻮﺣﺪﺓ ﻣﻢ‪/‬ﻳﻮﻡ(‪.‬‬
‫‪ -٧‬ﻛﻔﺎﺀﺓ ﺍﻟﺮﻱ )ﺗﻜﻮﻥ ﻛﻨﺴﺒﺔ ﻣﺌﻮﻳﺔ(‪.‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻤﺴﺎﻓﺔ ﺑﻴﻦ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻰ ﺍﻟﺨﻂ ﺍﻟﻮﺍﺣﺪ )‪-:(X1‬‬

‫‪ = X1‬ﻗﻄﺮ ﺩﺍﺋﺮﺓ ﺧﺪﻣﺔ ﺍﻟﺮﺷﺎﺵ × )‪ - 1‬ﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ ﺑﻴﻦ ﺍﻟﺮﺷﺎﺷﺎﺕ(‬

‫‪X1‬‬

‫ﺭﺷﺎﺵ‬ ‫ﺩﺍﺋﺮﺓ ﺧﺪﻣﺔ‬ ‫ﺧﻂ ﺭﺷﺎﺷﺎﺕ‬


‫ﺍﻟﺮﺷﺎﺵ‬

‫ﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ‬ ‫ﻗﻄﺮ ﺩﺍﺋﺮﺓ ﺍﻟﺨﺪﻣﺔ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪3‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻤﺴﺎﻓﺔ ﺑﻴﻦ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ)‪-:(X2‬‬

‫‪ = X2‬ﻗﻄﺮ ﺩﺍﺋﺮﺓ ﺧﺪﻣﺔ ﺍﻟﺮﺷﺎﺵ × )‪ - 1‬ﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ ﺑﻴﻦ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ(‬


‫‪X2‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺍﻟﺮﺷﺎﺵ ﺍﻟﻮﺍﺣﺪ‪-:‬‬

‫ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﺎﻟﺮﺷﺎﺵ ﺍﻟﻮﺍﺣﺪ = ‪X2 × X1‬‬

‫ﻛﻌﻤﻖ ﻣﻜﺎﻓﺊ )‪-:(Qs‬‬


‫ﻣﻌﺪﻝ ﺇﻋﻄﺎﺀ ﺍﻟﺮﺫﺍﺫ ﻟﻠﻨﺒﺎﺕ ﻟﻠﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﺎﻟﺮﺷﺎﺵ ﺍﻟﻮﺍﺣﺪ ُ‬

‫‪ = Qs‬ﺗﺼﺮﻑ ﺍﻟﺮﺷﺎﺵ ‪ /‬ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺍﻟﺮﺷﺎﺵ‬

‫ﻛﻤﻴﺔ ﺍﻟﻤﻴﺎﻩ ﺍﻟﺘﻲ ُﺗﺨﺘﺰﻥ ﺩﺍﺧﻞ ﻣﻨﻄﻘﺔ ﺍﻟﺠﺬﻭﺭ ﺧﻼﻝ ﻓﺘﺮﺓ ﺍﻟﺘﺸﻐﻴﻞ )‪-:(V‬‬

‫‪ُ = V‬ﻣﻌﺪﻝ ﺇﻋﻄﺎﺀ ﺍﻟﺮﺫﺍﺫ ﻟﻠﻨﺒﺎﺕ × ﻓﺘﺮﺓ ﺍﻟﺘﺸﻐﻴﻞ × ﻛﻔﺎﺀﺓ ﺍﻟﺮﻱ‬

‫ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ‪-:‬‬

‫ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ = ﻛﻤﻴﺔ ﺍﻟﻤﻴﺎﻩ ﺍﻟﻤﺨﺘﺰﻧﺔ ﻓﻲ ﻣﻨﻄﻘﺔ ﺍﻟﺠﺬﻭﺭ ‪ /‬ﻣﻌﺪﻝ ﺇﺳﺘﻬﻼﻙ ﺍﻟﻨﺒﺎﺕ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪4‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‬ ‫‪2‬‬

‫‪ -‬ﻟﺤﺴﺎﺏ ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻳﺠﺐ ﻣﻌﺮﻓﺔ ﺍﻟﻤﻌﻠﻮﻣﺎﺕ ﺍﻟﺘﺎﻟﻴﺔ‪:‬‬


‫‪ -١‬ﻃﻮﻝ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﻣﻦ ﺗﺨﻄﻴﻂ ﻗﻄﻌﺔ ﺍﻷﺭﺽ ﻣﻊ ﻣﺮﺍﻋﺎﺓ ﺍﻟﺸﺮﻭﻁ ﺍﻟﻤﺬﻛﻮﺭﺓ ﺳﺎﺑﻘﺎً(‪.‬‬
‫‪-٢‬ﺍﻟﻤﺴﺎﻓﺔ ﺑﻴﻦ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﺗﻢ ﺣﺴﺎﺑﻬﺎ ﻓﻲ ﺍﻟﺨﻄﻮﺓ ﺍﻟﺴﺎﺑﻘﺔ(‪.‬‬
‫‪ -٣‬ﻋﺪﺩ ﻣﺮﺍﺕ ﺍﻟﺘﺸﻐﻴﻞ ﻓﻲ ﺍﻟﻴﻮﻡ )ﺗﻜﻮﻥ ُﻣﻌﻄﺎﺓ ﻓﻲ ﺍﻟﻤﺴﺌﻠﺔ(‪.‬‬

‫ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﻓﻲ ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ( =‬


‫ﻃﻮﻝ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ × ﺍﻟﻤﺴﺎﻓﺔ ﺑﻴﻦ ﺧﻄﻮﻁ ﺍﻟﺮﺷﺎﺷﺎﺕ × ﻋﺪﺩ ﻣﺮﺍﺕ ﺍﻟﺘﺸﻐﻴﻞ ﻓﻲ ﺍﻟﻴﻮﻡ ×‬
‫ﻋﺪﺩ ﺍﻷﻳﺎﻡ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ‬

‫ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‬ ‫‪3‬‬

‫‪ -‬ﻟﺤﺴﺎﺏ ﺗﺼﺮﻑ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻳﺠﺐ ﻣﻌﺮﻓﺔ ﺍﻟﻤﻌﻠﻮﻣﺎﺕ ﺍﻟﺘﺎﻟﻴﺔ‪:‬‬


‫‪ -١‬ﺗﺼﺮﻑ ﺍﻟﺮﺷﺎﺵ ﺍﻟﻮﺍﺣﺪ‪.‬‬
‫‪ -٢‬ﻋﺪﺩ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻰ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ )ﻳﻤﻜﻦ ﺣﺴﺎﺑﻪ ﺑﻘﺴﻤﺔ ﻃﻮﻝ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻋﻠﻰ ﺍﻟﻤﺴﺎﻓﺔ‬
‫ﺑﻴﻦ ﺍﻟﺮﺷﺎﺷﺎﺕ(‪.‬‬

‫ﺗﺼﺮﻑ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ = ﺗﺼﺮﻑ ﺍﻟﺮﺷﺎﺵ ﺍﻟﻮﺍﺣﺪ × ﻋﺪﺩ ﺍﻟﺮﺷﺎﺷﺎﺕ‬

‫ﺗﺼﻤﻴﻢ ﺃﻗﻄﺎﺭ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ‬ ‫‪4‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﻋﻨﺪ ﺑﺪﺍﻳﺔ ﺍﻟﺨﻄﻮﻁ ﺍﻟﻔﺮﻋﻴﺔ‬ ‫‪5‬‬

‫ﺗﺼﻤﻴﻢ ﺃﻗﻄﺎﺭ ﺍﻟﻤﻮﺍﺳﻴﺮ ﻟﻠﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ‬ ‫‪6‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﺍﻟﻼﺯﻡ ﻋﻨﺪ ﺍﻟﻤﻀﺨﺔ‬ ‫‪7‬‬

‫ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺍﻟﻤﻀﺨﺔ‬ ‫‪8‬‬

‫ﺣﺴﺎﺏ ﻗﺪﺭﺓ ﺍﻟﻤﻀﺨﺔ‬ ‫‪9‬‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪5‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﻣﺜﺎﻝ ‪Example‬‬ ‫?‬


‫ﻗﻄﻌﺔ ﺃﺭﺽ ﻣﺴﺎﺣﺘﻬﺎ ﺣﻮﺍﻟﻲ ‪ ٦٧٠‬ﻓﺪﺍﻥ ﻳﺘﻢ ﺭﻳﻬﺎ ﺑﻨﻈﺎﻡ ﺍﻟﺮﻱ ﺑﺎﻟﺮﺵ ﻛﻤﺎ ﻳﻠﻲ‪ :‬ﻳﺘﻢ ﺗﺸﻐﻴﻞ ﺧﻂ‬
‫ﺍﻟﺮﺷﺎﺷﺎﺕ ﻟﻤﺪﺓ ‪ ٦‬ﺳﺎﻋﺎﺕ ﻓﻲ ﻛﻞ ﺭﻳﺔ ﻭﻛﻔﺎﺀﺓ ﺍﻟﺮﻱ ‪ ٪٨٥‬ﻭﻣﻌﺪﻝ ﺍﺳﺘﻬﻼﻙ ﺍﻟﻨﺒﺎﺕ ﻟﻠﻤﺎﺀ ﻫﻮ ‪٤,٦‬‬
‫ﻣﻢ‪/‬ﻳﻮﻡ ﻭﺍﻟﺮﺷﺎﺷﺎﺕ ﺍﻟﻤﺴﺘﺨﺪﻣﺔ ﺗﺼﺮﻓﻬﺎ ‪٢‬ﻡ‪/٣‬ﺳﺎﻋﺔ ﻭﺗﺨﺪﻡ ﺩﺍﺋﺮﺓ ﻗﻄﺮﻫﺎ ‪٣٥‬ﻣﺘﺮ ﻭﻧﺴﺒﺔ ﺍﻟﺘﺪﺍﺧﻞ ﺑﻴﻦ‬
‫ﺍﻟﺮﺷﺎﺷﺎﺕ ﻭﺑﻌﻀﻬﺎ ﻭﺍﻟﺨﻄﻮﻁ ﻭﺑﻌﻀﻬﺎ ﻫﻲ ‪ ٪٤٠‬ﻭﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻳﻌﻤﻞ ﻣﺮﺗﻴﻦ ﻳﻮﻣﻴ ًﺎ ﻭﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ‬
‫ﻳﺨﺪﻡ ﺃﺭﺑﻌﺔ ﻗﻄﻊ ﻭﻃﺎﻗﺔ ﺍﻟﻀﻐﻂ ﺍﻟﻤﻄﻠﻮﺑﺔ ﻋﻨﺪ ﺑﺪﺍﻳﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ ﻫﻲ ‪٣٠‬ﻣﺘﺮﺍً ﻭﻣﻌﺎﻣﻞ ﺳﻜﻮﺑﻲ‬
‫ﻟﻤﻮﺍﺳﻴﺮ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ ﻫﻮ ‪٠,٠٠٠٨٦‬‬

‫ﺍﻟﻤﻄﻠﻮﺏ ﺣﺴﺎﺏ ﺍﻟﺘﺎﻟﻲ ‪:‬‬


‫‪ -١‬ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ‪.‬‬
‫‪ -٢‬ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‪.‬‬
‫‪ -٣‬ﺗﺼﺮﻑ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‪.‬‬
‫‪ -٤‬ﺗﺼﻤﻴﻢ ﺍﻷﻗﻄﺎﺭ ﺍﻟﻤﻨﺎﺳﺒﺔ ﻟﻠﺨﻂ ﺍﻟﻔﺮﻋﻲ ﺍﻟﺬﻱ ﻳﺨﺪﻡ ‪ ٤‬ﻗﻄﻊ‪.‬‬
‫‪ -٥‬ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﺍﻟﻼﺯﻡ ﻋﻨﺪ ﺑﺪﺍﻳﺔ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ‪.‬‬
‫‪ -٦‬ﺗﺼﻤﻴﻢ ﺍﻷﻗﻄﺎﺭ ﺍﻟﻤﻨﺎﺳﺒﺔ ﻟﻠﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ‪.‬‬
‫‪ -٧‬ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﺍﻟﻼﺯﻡ ﻋﻨﺪ ﺍﻟﻤﻀﺨﺔ‪.‬‬
‫‪ -٨‬ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺍﻟﻤﻀﺨﺔ‪.‬‬
‫‪ -٩‬ﺣﺴﺎﺏ ﻗﺪﺭﺓ ﺍﻟﻤﻀﺨﺔ ﺑﺎﻟﺤﺼﺎﻥ‪.‬‬

‫ﺍﻟﺤﻞ ‪Solution‬‬

‫ﺗﺤﺪﻳﺪ ﺃﺑﻌﺎﺩ ﻗﻄﻌﺔ ﺍﻷﺭﺽ‬ ‫‪1‬‬

‫‪ -‬ﺑﻢ ﺃﻧﻪ ﻟﻢ ﻳﺬﻛﺮ ﺃﺑﻌﺎﺩ ﻗﻄﻌﺔ ﺍﻷﺭﺽ ﻭﺃﻋﻄﺎﻧﺎ ﻓﻘﻂ ﻣﺴﺎﺣﺘﻬﺎ ﻓﻴﺘﻢ ﺇﻋﺘﺒﺎﺭﻫﺎ ﻣﺮﺑﻌﺔ ﺍﻟﺸﻜﻞ‪.‬‬
‫‪ -‬ﺑﻢ ﺃﻥ ﻗﻄﻌﺔ ﺍﻷﺭﺽ ﻣﺮﺑﻌﺔ ﺍﻟﺸﻜﻞ ﻓﺎ ﻏﺎﻟﺒ ًﺎ ﻳﺘﻢ ﺗﻐﻄﻴﺘﻬﺎ ﺑﺈﺳﺘﺨﺪﺍﻡ ﻣﻀﺨﺘﻴﻦ‪ ,‬ﻭﺍﺣﺪﺓ ﻟﻜﻞ ﺇﺗﺠﺎﻩ‪.‬‬
‫‪ -‬ﻳﺘﻢ ﺗﻘﺴﻴﻢ ﻃﻮﻝ ﺿﻠﻊ ﺍﻷﺭﺽ ﻟﻌﺪﺩ ﻣﻦ ﺍﻷﻗﺴﺎﻡ ﻭﻟﻴﻜﻦ ‪ 4‬ﺃﻭ ‪ 8‬ﻭﻫﻜﺬﺍ ﺣﺘﻰ ﻳﻜﻮﻥ ﻃﻮﻝ ﺧﻂ‬
‫ﺍﻟﺮﺷﺎﺷﺎﺕ ﺩﺍﺧﻞ ﺍﻟﺤﺪﻭﺩ ﺍﻟﻤﺴﻤﻮﺣﺔ‪.‬‬

‫‪ ۱٦۷۷ = ٤۲۰۰ × ٦۷۰‬ﻣﺗر ≈ ‪ ۱٦۸۰‬ﻣﺗر‬ ‫أﺑﻌﺎد ﻗطﻌﺔ اﻷرض =‬

‫طول ﺧط اﻟرﺷﺎﺷﺎت = ‪ ۲۱۰ = ۸/۱٦۸۰‬ﻣﺗر > ‪ ۲٥۰‬ﻣﺗر )ﻣﻘﺑول(‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪6‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﺍﻟﺘﺨﻄﻴﻂ ﺍﻟﻌﺎﻡ ﻟﻘﻄﻌﺔ ﺍﻷﺭﺽ‬ ‫‪2‬‬

‫‪١٦٨٠‬ﻡ‬
‫‪١٦٨٠‬ﻡ‬

‫‪٢١٠‬ﻡ‬
‫‪٢١٠‬ﻡ‬

‫ﺣﺴﺎﺏ ﺍﻟﻔﺘﺮﺓ ﺑﻴﻦ ﺍﻟﺮﻳﺎﺕ‬ ‫‪3‬‬

‫‪ = X1‬ﻗُطر داﺋرة ﺧدﻣﺔ اﻟرﺷﺎش × )‪ -۱‬ﻧﺳﺑﺔ اﻟﺗداﺧل( = ‪ ۲۱ = (۰٫٤-۱) × ۳٥‬ﻣﺗر = ‪X2‬‬


‫‪۲‬‬
‫اﻟﻣﺳﺎﺣﺔ اﻟﻣﺧدوﻣﺔ ﺑواﺳطﺔ اﻟرﺷﺎش اﻟواﺣد = ‪ ٤٤۱ = ۲۱ ×۲۱ = X1 × X2‬ﻣﺗر‬
‫اﻟﻔﺗرة ﺑﯾن اﻟرﯾﺎت = )ﻛﻣﯾﺔ اﻟﻣﯾﺎه اﻟﻣﺧﺗزﻧﺔ داﺧل ﻣﻧطﻘﺔ اﻟﺟذور ﺧﻼل ﻓﺗرة اﻟﺗﺷﻐﯾل(‪ /‬ﻣﻌدل إﺳﺗﺧﻼك اﻟﻧﺑﺎت‬
‫ﻛﻣﯾﺔ اﻟﻣﯾﺎه اﻟﻣﺧﺗزﻧﺔ داﺧل ﻣﻧطﻘﺔ اﻟﺟذور ﺧﻼل ﻓﺗرة اﻟﺗﺷﻐﯾل = ﻣﻌدل إﻋطﺎء اﻟرذاذ × ﻓﺗرة اﻟﺗﺷﻐﯾل × ‪η‬‬
‫ﻣﻌدل إﻋطﺎء اﻟرذاذ = )ﺗﺻرف اﻟرﺷﺎش(‪ /‬اﻟﻣﺳﺎﺣﺔ اﻟﻣﺧدوﻣﺔ ﺑواﺳطﺔ اﻟرﺷﺎش = )‪۱۰۰۰ × (٤٤۱/۲‬‬
‫= ‪ ٤٫٥٤‬ﻣم‪/‬ﺳﺎﻋﺔ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪7‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﻛﻣﯾﺔ اﻟﻣﯾﺎه اﻟﻣﺧﺗزﻧﺔ داﺧل ﻣﻧطﻘﺔ اﻟﺟذور = ‪ ۲۳,۱٥٤ = ۰٫۸٥ × ٦ × ٤,٥٤‬ﻣم‪/‬رﯾﺔ‬


‫اﻟﻔﺗرة ﺑﯾن اﻟرﯾﺎت = ‪ ٥,۰۳ = ٤,٦/۲۳,۱٥٤‬ﯾوم ≈ ‪ ٥‬أﯾﺎم‬

‫ﺍﻟﻤﺴﺎﺣﺔ ﺍﻟﻤﺨﺪﻭﻣﺔ ﺑﻮﺍﺳﻄﺔ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‬ ‫‪4‬‬

‫اﻟﻣﺳﺎﺣﺔ اﻟﻣﺧدوﻣﺔ ﺑواﺳطﺔ ﺧط اﻟرﺷﺎﺷﺎت = طول اﻟﺧط × ‪ × X2‬ﻋدد ﻣرات اﻟﺗﺷﻐﯾل ﻓﻲ اﻟﯾوم × اﻟﻔﺗرة‬
‫ﺑﯾن اﻟرﯾﺎت‬
‫= ‪ ٤٤۱۰۰ = ٥ × ۲ × ۲۱ × ۲۱۰‬ﻣﺗر‪ = ۲‬ﻣﺳﺎﺣﺔ اﻟﻘطﻌﺔ اﻟواﺣدة )‪(۲۱۰ × ۲۱۰‬‬

‫ﺗﺼﺮﻑ ﺧﻂ ﺍﻟﺮﺷﺎﺷﺎﺕ‬ ‫‪5‬‬

‫ﻋدد اﻟرﺷﺎﺷﺎت ﻋﻠﻰ اﻟﺧط اﻟواﺣد = طول اﻟﺧط ‪ /‬اﻟﻣﺳﺎﻓﺔ ﺑﯾن اﻟرﺷﺎﺷﺎت‬
‫= ‪ ۱۰ = ۲۱/۲۱۰‬رﺷﺎﺷﺎت‬
‫ﺗﺻرف ﺧط اﻟرﺷﺎﺷﺎت = ﻋدد اﻟرﺷﺎﺷﺎت ﻋﻠﻰ اﻟﺧط اﻟواﺣد × ﺗﺻرف اﻟرﺷﺎش‬
‫= ‪ ۲۰ = ۲ × ۱۰‬ﻣﺗر‪ / ۳‬ﺳﺎﻋﺔ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪8‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


Sprinkler Irrigation System V1.0 - 2022

X2 ‫ﺗﺼﻤﻴﻢ ﺃﻗﻄﺎﺭ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ‬ 6

‫ﻡ‬٢١٠
C

D
A B

‫ﻡ‬٢١٠
b

Q
4×( ) D C B A
Dact = V

۱٦۸ ٤۲ ۱٦۸ ۲۱ (L) ‫طول اﻟﺧط‬
Let V = 1.6m/sec
D1act = 132.98mm ۱×۲۰ ۲×۲۰ ۳×۲۰ ٤×۲۰ ‫س‬/۳‫( ﻣﺗر‬Q) ‫اﻟﺗﺻرف‬
D2act = 115.16mm ۱-۷٥ ۱-۱۰۰ ۱-۱۲٥ ۱-۱۲٥ ‫( ﻣم‬Ds) ‫اﻟﻘطر اﻟﺗﺻﻣﯾﻣﻲ‬
D3act = 94.03mm
D4act = 66.49mm ... ... ... ... ۲
‫ﻣﺳﺎﺣﺔ اﻟﻣﻘطﻊ ﻣم‬
Q ۱.۲٦ ۱.٤٤ ۱.۳۸ ۱.۸٤ ‫ث‬/‫( م‬Vact) ‫اﻟﺳرﻋﺔ اﻟﻔﻌﻠﯾﺔ‬
Vact = � × Ds 2 Safe Safe Safe Safe
4 ۳.۹۳ ۰.۹۲ ۲.٦٥ ۰.٥۷ ‫( م‬Hf) ‫اﻟﻔﺎﻗد ﻓﻲ اﻟﺿﺎﻏط‬
L × Vact 1.9
Hf = Ks ×
Ds1.1

Eng. Peter Hany Milad 9 Civil.PeterHany@gmail.com


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﺍﻟﻼﺯﻡ ﻋﻨﺪ ﺑﺪﺍﻳﺔ ﺍﻟﺨﻂ ﺍﻟﻔﺮﻋﻲ‬ ‫‪7‬‬

‫ﻣﺟﻣوع ﻓواﻗد اﻹﺣﺗﻛﺎك ﻓﻲ اﻟﺧط اﻟﻔرﻋﻲ = ‪ ۸٫۰۷ = ۳٫۹۳ + ۰٫۹۲ + ۲٫٦٥ + ۰٫٥۷‬م‬
‫ﻣﺟﻣوع اﻟﻔواﻗد اﻟﻛﻠﯾﺔ ﻓﻲ اﻟﺧط اﻟﻔرﻋﻲ = ‪ ۸٫۹۰ = ۱٫۱۰ × ۸٫۰۷‬م‬
‫طﺎﻗﺔ اﻟﺿﻐط ﻋﻧد ﺑداﯾﺔ اﻟﺧط اﻟﻔرﻋﻲ = اﻟﺿﻐط اﻟﻣطﻠوب ﻋﻧد ﺑداﯾﺔ ﺧط اﻟرﺷﺎﺷﺎت ‪ +‬اﻟﻔواﻗد‬
‫= ‪ ۳۸٫۹۰ = ۸٫۹۰ + ۳۰‬م‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪10‬‬ ‫‪Civil.PeterHany@gmail.com‬‬


Sprinkler Irrigation System V1.0 - 2022

X2 ‫ﺗﺼﻤﻴﻢ ﺃﻗﻄﺎﺭ ﺍﻟﺨﻂ ﺍﻟﺮﺋﻴﺴﻲ‬ 8

‫ﻡ‬٢١٠
C

D
A B

‫ﻡ‬٢١٠
b

Q
4×( ) b a
Dact = V

۲×۲۱۰ ۳×۲۱۰ (L) ‫طول اﻟﺧط‬
Let V = 1.6m/sec ۲۰×۸ ۲۰×۱٦ ‫س‬/۳‫( ﻣﺗر‬Q) ‫اﻟﺗﺻرف‬
D1act = ....mm
۱-۲۰۰ ۱-۲٥۰ ‫( ﻣم‬Ds) ‫اﻟﻘطر اﻟﺗﺻﻣﯾﻣﻲ‬
D2act = ....mm
Q
... ... ‫ﻣﺳﺎﺣﺔ اﻟﻣﻘطﻊ ﻣم‬
۲

Vact = � × Ds2 ۱.٤۲۹ ۱.۸۲٥ ‫ث‬/‫( م‬Vact) ‫اﻟﺳرﻋﺔ اﻟﻔﻌﻠﯾﺔ‬


4 Safe Safe

L × Vact1.9 ٤.۲۰ ۷.۸٤ ‫( م‬Hf) ‫اﻟﻔﺎﻗد ﻓﻲ اﻟﺿﺎﻏط‬


Hf = Ks ×
Ds1.1

Eng. Peter Hany Milad 11 Civil.PeterHany@gmail.com


‫‪Sprinkler Irrigation System‬‬ ‫‪V1.0 - 2022‬‬

‫ﺣﺴﺎﺏ ﺍﻟﻀﻐﻂ ﺍﻟﻼﺯﻡ ﻋﻨﺪ ﺍﻟﻤﻀﺨﺔ‬ ‫‪9‬‬

‫ﻣﺟﻣوع ﻓواﻗد اﻹﺣﺗﻛﺎك ﻟﻠﺧط اﻟرﺋﯾﺳﻲ = ‪ ۱۲٫۰٤ = ٤٫۲۰ + ۷٫۸٤‬م‬


‫ﻣﺟﻣوع اﻟﻔواﻗد اﻟﻛﻠﯾﺔ ﻟﻠﺧط اﻟرﺋﯾﺳﻲ = ‪ ۱۲٫٦٤۲ = ۱٫۰٥ × ۱۲٫۰٤‬م‬
‫اﻟﺿﻐط اﻟﻼزم ﻋﻧد اﻟﻣﺿﺧﺔ = اﻟﺿﻐط ﻋﻧد ﺑداﯾﺔ اﻟﺧط اﻟﻔرﻋﻲ ‪ +‬اﻟﻔواﻗد ﺧﻼل اﻟﺧط اﻟرﺋﯾﺳﻲ‬
‫= ‪ ٥۱٫٥٤۲ = ۱۲٫٦٤۲ + ۳۸٫۹۰‬م‬

‫‪ 10‬ﺣﺴﺎﺏ ﺗﺼﺮﻑ ﺍﻟﻤﻀﺨﺔ‬

‫ﺗﺻرف اﻟﻣﺿﺧﺔ = ﺗﺻرف اﻟﺧطوط اﻟرﺋﯾﺳﯾﺔ = ‪ ۳۲۰‬م‪/۳‬ﺳﺎﻋﺔ = ‪ ۰٫۰۸۸۹‬م‪/۳‬ث‬

‫‪ 11‬ﻗﺪﺭﺓ ﺍﻟﻤﻀﺨﺔ ﺑﺎﻟﺤﺼﺎﻥ‬

‫‪٥۱,٥٤۲ × ۰,۰۸۸۹ × ۱۰۰۰‬‬ ‫‪ϫw × H × Q‬‬


‫=‬ ‫ﻗدرة اﻟﻣﺿﺧﺔ ﺑﺎﻟﺣﺻﺎن =‬
‫‪۰,٦۲ × ۷٥‬‬ ‫‪75 × ɳ‬‬

‫= ‪ ۹۸,٥٤‬ﺣﺻﺎن ≈ ‪ ۱۰۰‬ﺣﺻﺎن‬

‫ﯾﺗم إﺳﺗﺧدام ﻣﺿﺧﺗﯾن‪ ,‬واﺣدة ﻟﻠﺟﮭﺔ اﻟﯾﻣﻧﻰ وواﺣدة ﻟﻠﺟﮭﺔ اﻟﯾُﺳرى ﻛل ﻣﻧﮭﻣﺎ ﺑﻘدرة ‪ ۱۰۰‬ﺣﺻﺎن‪.‬‬

‫ﺗﺤﻴﺎﺗﻲ ‪,,‬‬
‫ﻡ‪ .‬ﺑﻴﺘﺮ ﻫﺎﻧﻲ ﻣﻴﻼﺩ‬

‫‪Eng. Peter Hany Milad‬‬ ‫‪12‬‬ ‫‪Civil.PeterHany@gmail.com‬‬

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