انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Scour of Cohesive Material Downstream of an Apron due to Submerged Horizontal Jets
آبشستگی رسوبهای چسبنده در پایین دست کف بند بر اثر جت افقی مستغرق
1
12
85452
10.30482/jhyd.2011.85452
FA
حسین
حمیدی فر
محمد حسین
امید
گروه آبیاری و آبادانی دانشگاه تهران، کرج، ایران
Journal Article
2010
03
22
In this paper, the effect of clay content on the local scouring downstream of a rigid apron due to a<br />submerged horizontal jet has been studied experimentally. Seven different mixtures of cohesive<br />sediments with clay content equal to 0, 10, 15, 20, 25, 30 and 40 % were used. Results showed that the<br />clay content has an important effect in the scouring process. It shows that with clay content equal to<br />40%, the maximum depth of scour may be reduced up to 80% of the non-cohesive materials. Using<br />dimensional analysis, a new non-dimensional parameter is introduced which includes the effect of<br />both the grain densimetric Froude number and clay content. It was also found that there is a critical<br />value for the mentioned dimensionless parameter, where no erosion occurs below that value. Also,<br />dimensionless equations and graphs are presented to determine the characteristic lengths of the scour<br />hole including the maximum scour depth, the maximum longitudinal extension of the hole and the<br />sand wave height.
https://jhyd.iha.ir/article_85452_b633449ef3a16a806f20b8750c4d0a6c.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Flood Control by Optimization of Spillway Gate Operation using Fuzzy Logic
بهینه سازی عملکرد دریچه های سرریز سد برای مهار سیل با استفاده از منطق فازی
13
29
85453
10.30482/jhyd.2011.85453
FA
نینا
اسدی پور
حسین
محمدولی سامانی
Journal Article
2010
03
22
At present appropriate utilization of water resources is vital. Development and establishment of<br />communities along rivers have made the safety against floods very significant. Therefore, dam<br />operation management becomes vital and maneuvering of gates is the most important issue in this<br />regard.<br />Spillway gate operation policies to reduce flood losses and preservation of storage and safety of the<br />dam are studied in this paper. In this regard, multi-stage operation methods are studied and analyzed.<br />The fuzzy logic principles are used to optimize gate operation and overcome weak points of multistage<br />operation method. Karun III dam is considered as a case study and the five stage flood routing<br />policy followed by the fuzzy logic based operation of spillway gates of the reservoir during floods has<br />been applied. The fuzzy logic results in smooth routed hydrographs rather than stepped ones.<br />Eventually, verification of the proposed method has been done by a comparison with the results<br />obtained by using the genetic algorithm to optimize gate operation assuming known inflow<br />hydrographs. Results indicate that the proposed method is quite satisfactory.
https://jhyd.iha.ir/article_85453_0d5f0340179e5f46f09d0d14c977aa51.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Flood Propagation Forecasting Based on Non-linear Diffusive Wave Equation
پیش بینی نحوه انتشار سیلاب با استفاده از موج پخشیدگی غیرخطی
31
47
85454
10.30482/jhyd.2011.85454
FA
محمد
دانیالی
احمدرضا
غواصیه
دانشکده صنعت آب و برق عباسپور
جلال
عطاری
Journal Article
2010
03
22
Existence of a quick and accurate flood routing model is of great importance for river training as well<br />as flood forecasting and warning systems in order to prevent or mitigate flood casualties and damages.<br />Diffusive wave is one of the channel routing methods in which acceleration terms have been neglected<br />in momentum equation. Among different types of diffusive wave models, Cappelaere equation,<br />considering its unique features, was applied in present research. This model is an advection-diffusion<br />equation, including non-linear parameters, with main advantage of no need for topographic and<br />hydraulic characteristics of the river. In this paper, Leapfrog-Dufort Frankel finite difference<br />numerical scheme was used for discretization and numerical solution of the Cappelaere equation<br />which increases computational speed of flood routing. Furthermore, a novel method of estimating<br />celerity(C) and diffusivity (D) parameters was proposed which is superior to previous methods. In this<br />method, C and D parameters can be calibrated just by observed hydrographs in a reach and are<br />applicable for future flood forecasting in the same reach. By this method, absolute independency of<br />parameter estimation in diffusive wave routing method from river geometry, manning roughness and<br />bed slope is obtained. To validate the model and the proposed method of parameter estimation, the<br />routed hydrographs were compared with the dynamic Saint-Venant equations in a synthetic prismatic<br />channel. Furthermore, the model was calibrated in a 80 km reach, Yasavol-Gharegooni, of Ghezel-<br />Ozan river and results were tested against the observed hydrographs. Using the model, duration of<br />routing in the channel and river were found to be 15.7 and 59 seconds respectively. Maximum error in<br />peak discharge in the channel and river does not exceed 0.04% and 0.24% respectively. Concerning<br />time to peak, the maximum error in the channel and river were 0.87% and 1.57% respectively. Results<br />in the channel and the river showed that the proposed model is not only accurate in predicting peak<br />discharge and time of peak, but also is successful in Conserving mass of flood.
https://jhyd.iha.ir/article_85454_96cfa226962b5958974b083ebc2ca7e7.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Optimal Dimensions of Protective Spur Dike for Mitigation of Scour Depth around Main Spur Dikes within a Straight Reach for Incipient Motion for Bed Sediment Movement
تعیین ابعاد بهینه آبشکن محافظ با هدف کاهش عمق آبشستگی در اطراف آبشکن ها در بازه مستقیم در آستانه حرکت ذرات بستر
49
64
85455
10.30482/jhyd.2011.85455
FA
حجت
کرمی
عبداله
اردشیر
کوروش
بهزادیان
Journal Article
2010
03
22
Maximum scour depth around a series of spur dikes is one of the important problems in their design.<br />In this paper, the mitigation of scour depth around a series of consecutive spur dikes within a straight<br />reach was investigated by using a protective spur dike located upstream of the first main spur dike.<br />Effect of different parameters of protective spur dike is experimentally investigated including 4 ratios<br />of protective spur dike length to the first main spur dike length (Lp/Lf) equal to 0.2, 0.4, 0.6 and 0.8,<br />three angles of protective spur dike (B) of 45, 90 and 135 degree and 4 ratios of protective spur dike<br />distance to the first main spur dike length (X/Lf) equal to 1, 1.5, 2 and 2.5. The experiments were<br />conducted for the velocity of incipient motion for bed sediment movement and bed size diameter of<br />0.91 mm (D50) and standard deviation of 1.38. The effect of protective spur dike on the flow pattern<br />around the spur dikes was investigated in a rigid bed too. The experiments showed that the proper<br />design of protective spur dike can significantly mitigate maximum scour depth around the main spur<br />dikes. In particular, the protective spur dike with Lp/Lf =0.8, X/Lf=2, B=45° decreased an average of<br />76.6 percent of scour depth around the spur dikes. The maximum decrease of scour depth around the<br />first spur dike (74.7 percent) was obtained by applying the protective spur dike with Lp/Lf=0.8,<br />X/Lf=2.5, B=90°.
https://jhyd.iha.ir/article_85455_ae8f9698abac1641b35c2a32b8f30ceb.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Construction and Evaluation of PID Control System for Irrigation Canals in Laboratory Scale
ساخت و آزمون سامانه کنترل PID برای کانال های آبیاری در مقیاس آزمایشگاهی
65
75
85456
10.30482/jhyd.2011.85456
FA
کاظم
شاهوردی
محمد جواد
منعم
عضو هیئت علمی گروه سازه های آبی دانشگاه تربیت مدرس
0000-0001-7735-9976
Journal Article
2010
03
22
Automation is one of the main options for improving operations and increasing flexibility in<br />irrigation canals. Construction and testing of related technology is one of initial and main<br />attempts in reaching this goal.. In this research PID classical control system was constructed,<br />and tested at a laboratory flume. The hardware of the system includes the depth and gate<br />opening sensors, motor, slide gate, electronic boards and computer. The software part of the<br />system is the PID control system, which is developed and connected with equipments using<br />LABVIEW software. To study the performance of the constructed control system, different<br />scenarios of sudden changes of upstream and downstream flow were tested. Maximum Absolute<br />Error (MAE), Integral of Absolute magnitude of Error (IAE) and System Response Time (SRT)<br />indicators are used for evaluating the performance of the system. The results showed that the<br />performance of the developed upstream and downstream control system is appropriate,<br />However, downstream PID control system showed better performance when compared to the<br />upstream PID control system. The developed PID automatic control system and experiences<br />gained from constructed facilities could be implemented in irrigation canals.
https://jhyd.iha.ir/article_85456_24edf47e1ae2c9c6748c918ffbc7e78d.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
The Efficacy of a Convex Corner at a Bend Inlet for the Control of Supercritical Oblique Waves
کارایی گوشه محدب در ورودی خم برای مهار امواج مورب فوق بحرانی
77
91
85457
10.30482/jhyd.2011.85457
FA
محمد رضا
جعفرزاده
عضو هیئت علمی دانشکده عمران دانشگاه فردوسی مشهد
0000-0003-2966-7223
علیرضا
شمخالچیان
محبوبه
جمعه زاده
Journal Article
2010
03
22
A novel method for the control of supercritical waves is introduced by the installation of a convex<br />corner at a bend inlet. In this method the negative waves emitted from the convex corner are<br />superimposed on the positive waves caused by the outer wall of the bend. Thereby, the heights of the<br />positive waves are decreased. In the first part of the article, the existing analytical relationships for the<br />supercritical flow in straight transitions and bends are reviewed and the interactions of waves in them<br />are examined. Then, using the Roe-TVD finite volume method, the supercritical flow in transitions<br />and bends is simulated numerically. The precision and accuracy of the numerical results in comparison<br />with analytical, numerical and experimental solutions of the other researchers are satisfactory. Next,<br />for the reduction of wave height at the outer wall of a curved channel, a small convex corner is located<br />at the inner wall of the bend inlet. The interaction of positive and negative waves transforms the<br />original single-hump wave at the outer wall to a smaller double-hump wave. The optimum expansion<br />angle of the convex corner ( ) is a function of the offset breadth to the bend width, d/b, radius of<br />curvature to the bend width, rc/b, and the inlet Froude number, Fr0. The numerical studies carried out<br />for dimensionless widths (d/b=4%, 8%, 12%), in the range of 2.5<Fr0< 4.5 for three bends with (rc/b=<br />10, 15, 20) indicated that using an optimum convex corner the wave height may be decreased between<br />10 to 45%.
https://jhyd.iha.ir/article_85457_49580d7b63131476e219d9029c7b4018.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
2
2011
01
21
Reservoir Routing in Successive Rockfill Detention Dams using Two-Dimensional Mathematical Model for through and Overtop Flow
مطالعه روندیابی سیل در مخازن سدهای پاره سنگی متوالی با توسعه مدل دوبعدی هیدرولیکی برای جریانهای عبوری درون گذر و روگذر
93
109
85458
10.30482/jhyd.2011.85458
FA
جمال
محمد ولی سامانی
استاد گروه سازههای آبی، دانشکده کشاورزی، دانشگاه تربیت مدرس
مهرخ
مکنتیان
مجید
حیدری
Journal Article
2010
03
22
Rockfill dams can be considered as effective and economical tools in flood control. As such,<br />employing successive dams is expected to cause an effective mitigation to flood hydrograph. Since<br />flow in coarse media of rockfill dam is turbulent, flow analysis must be based on non-Darcy equations.<br />Flow effects interaction of successive rockfill dams, overtopping flow condition, which maybe<br />experienced by the first dam, in addition to through seepage flow lead to high complexity of<br />hydraulics of such dams. In this paper, by introducing the inflow hydrograph to the first reservoir,<br />employing a two-dimensional model for through and overtop dam flow and also employing hydrologic<br />reservoir routing method, it is demonstrated that obtaining the final outflow hydrograph is possible.<br />The mathematical model accuracy was evaluated by comparing its results to experimental data. The<br />model results show good agreement with this experimental data. Finally, sensitivity analysis<br />demonstrated that the model results is much more sensitive to the average particle size of rockfill<br />media compared to other parameters such as dam's length and upstream and downstream angles.
https://jhyd.iha.ir/article_85458_fc4de203878b86689fa3dce50b8fd0b1.pdf