Effect of Channel Slope on Hydraulic Jump Characteristics
Physical Science International Journal • 2015
معلومات البحث
المؤلفون
Neveen B. Abdel-Mageed
الكلمات المفتاحية
Open channel; hydraulic jump; energy dissipation; sloping channel; sluice gate; water
structure
المجلة العلمية
Physical Science International Journal
الناشر
SCIENCEDOMAIN international
المجلد
7
العدد
4
الصفحات
223-233
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Hydraulic jump mainly serves as an energy dissipater to dissipate excess energy of flowing water
downstream of hydraulic structures, such as spillway, sluice gates etc., This research paper
investigates the effect of channel slope on the characteristics of free hydraulic jump and the energy
dissipation downstream the gate. Generally, this research investigates the main characteristics and
parameters of the free hydraulic jump such as; the sequent depth, the relative hydraulic jump
length and the relative distance to the jump. In the present research paper, these characteristics
were tested in rectangular channel downstream (DS) the vertical gate. The experimental program
was conducted on a re-circulating flume with 2.5 m long, 9 cm wide and 30 cm deep; with
discharges range from 3 to 230 LPM. Statistical equation was developed to correlate the length,
sequent depth ratio and distance of jump with the other independent parameters. Finally, clear
matching of results from the length of jump was obtained.
downstream of hydraulic structures, such as spillway, sluice gates etc., This research paper
investigates the effect of channel slope on the characteristics of free hydraulic jump and the energy
dissipation downstream the gate. Generally, this research investigates the main characteristics and
parameters of the free hydraulic jump such as; the sequent depth, the relative hydraulic jump
length and the relative distance to the jump. In the present research paper, these characteristics
were tested in rectangular channel downstream (DS) the vertical gate. The experimental program
was conducted on a re-circulating flume with 2.5 m long, 9 cm wide and 30 cm deep; with
discharges range from 3 to 230 LPM. Statistical equation was developed to correlate the length,
sequent depth ratio and distance of jump with the other independent parameters. Finally, clear
matching of results from the length of jump was obtained.
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