انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Armored Layer Bed Effect on Local Scouring Around Bridge Abutment
بررسی آب شستگی در اطراف تکیه گاه پل ها د رحضور لایه سپری
1
19
85415
10.30482/jhyd.2010.85415
FA
مهرنوش
ماهرانی
عبدالرضا
کبیری سامانی
دانشیار، دانشکده مهندسی عمران، دانشگاه صنعتی اصفهان
0000-0002-5984-3892
حسین
افضلی مهر
Journal Article
2010
03
22
In this study the effects of armored-bed layer on local scouring around semi-circular and semielliptical<br />abutments have been studied based on model experimentation. The main objective of this<br />research includes the effect of armor layer on mechanism of clear-water scouring around bridge<br />abutments. Experiments were performed under different conditions such as bed shear velocities, flow<br />depths, dimension and shape of abutments, as well as grain size of the bed and armor layer materials in<br />a glass-wall channel of 6.5 m length, 0.3 m width and 0.3 m height. Two types of abutments, semicircular<br />and semi-elliptical with b/l=3 and 2 respectively were used. Results show that by increasing<br />the bed material diameter for a constant armor layer, maximum scouring depth (dsa) increases and by<br />increasing the grain size of the armor layer for a constant bed layer, dsa decreases. For a given armor<br />layer thickness, by increasing the grain size of the bed layer, dsa increases. While small bed particles<br />are under the protective effect of armor layer, increasing the water velocity increases the secondary<br />armor layer depth provided that the armor layer itself is not influenced by the flow. The maximum<br />scour depth for semi-elliptical abutment is less than that of semi-circular abutment.
https://jhyd.iha.ir/article_85415_5f9334a06cc3a68cef69b1a750587033.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Experimental Assessment of Submerged Vanes Effect on Scour Reduction Located on the Upstream Face of Cylindrical Pier
بررسی آزمایشگاهی تاثیر قرارگیری سری پره های مستغرق در بالادست پایه استوانه ای در کاهش آب شستگی
21
35
85416
10.30482/jhyd.2010.85416
FA
سمیرا
رضاپوریان قهفرخی
0000-0003-1137-4684
بهزاد
قربانی
دانشیار گروه مهندسی آب، دانشگاه شهرکرد
Journal Article
2010
03
22
Scouring is one of the destructive factors in the hydraulic structures such as bridges. It occurs mainly<br />during flood events. To find the most effective countermeasure to protect water structures against<br />scouring phenomena, extensive investigations have been performed. One of such methods is to use<br />submerged series of vanes which is not fully investigated yet. In this study, two series of submerged<br />vanes were used either separately or attached to the upstream face of bridge pier and arranged<br />symmetrically on different positions and angles of attack to control scour at cylindrical pier under<br />clear water condition. The results showed that the highest reduction in scour depth occurs as the vanes<br />series stands closer to the pier. Under the best condition, scour depth was reduced by 80.9 percent.
https://jhyd.iha.ir/article_85416_497e4916fe8709547f76ee8a0db1c5dd.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Effect of Bed Protection Length on Local Scour Downstream of Horizontal Jets
تاثیر طول پوشش بستر بر آب شستگی موضعی پایین دست در جت های افقی
37
49
85417
10.30482/jhyd.2010.85417
FA
علی
مهبودی
0000-0002-5117-5033
جلال
عطاری
مجتبی
صانعی
0000-0002-8282-0832
محمدرضا
مجدزاده طباطبایی
0000-0002-6205-7868
Journal Article
2010
03
22
Local scour occurs due to interactions between water current, erodible bed and hydraulic structures<br />which can endanger performance and stability of these structures. To control this phenomenon<br />downstream of structures such as control gates, various engineering measures such as aprons and riprap<br />protections have been applied so far. However, investigation on the effect of lengths of these<br />measures requires further studies which are dealt with in the current experimental research. For this<br />purpose, scour profile due to a horizontal jet issued from a sluice gate was initially measured the<br />(without protection) under different hydraulic conditions. The same tests were then repeated separately<br />for the cases of application of aprons and rip-rap protections to achieve an insight about their effects<br />on the maximum scour depth. Results showed that increasing relative length of aprons (L=a > 1) and<br />rip-rap protections (L=R > 2), decreased the maximum scour depth considerably so that for L=a > 27 and<br />L=R > 7, it decreases up to 100 percent. On this basis, a properly designed and constructed rip-rap<br />protection (L=R > 2), is more effective on decreasing maximum local scour depth than the apron<br />measure. In this paper, suitable empirical relationships (in non-dimensional form) for estimation of<br />maximum scour depths (considering lengths of the apron and rip-rap protections) are proposed. A<br />comparison of the results of the proposed relationships with those of the previous researches shows<br />that most of the data are within acceptable (±20%) error interval.
https://jhyd.iha.ir/article_85417_f552068567835625349f966270fc326a.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Investigation of Wall Shear Stress Distribution in Open Channel Uniform Flow using an Accurate Instrument and Numerical Simulation
مطالعه توزیع تنش برشی جداره در جریان یکنواخت کانال با استفاده از ابزار دقیق و شبیه سازی عددی
51
70
85418
10.30482/jhyd.2010.85418
FA
اکبر
صفرزاده گندشمین
سیدعلی اکبر
صالحی نیشابوری
امیررضا
زراتی
مسعود
قدسیان
Journal Article
2010
03
22
With the aim of investigating the distribution of wall shear stress in an open channel with a rectangular<br />cross section and a smooth bed, an accurate needle type probe has been developed and after<br />verification, it has been used for shear stress measurement in various cases of open channel uniform<br />flows. In this instrument, capacitive type pressure transducers with 0.1 Pascal accuracy and 100Hz<br />sampling rate were used to measure pressure fluctuations. Measured bed shear stresses are compared<br />with the result of available analytical models and CFD simulations using FLUENT code for<br />instrument verification. Variations of the measured local bed shear stresses at channel centerline with<br />respect to channel aspect ratios, mean bed shear stresses and the lateral distribution of local bed shear<br />stresses compare favorably with the previous experimental and analytical results and with the results<br />of the present numerical simulations. Experimental measurements and numerical simulations show<br />that the secondary currents affect the distribution of side wall shear stress more than the bed shear<br />stress. Because of the presence of the alternate low-high velocity zones at the near bed region, the<br />lateral distribution of the bed shear stress exhibits an oscillatory pattern.
https://jhyd.iha.ir/article_85418_56ef860e14cf1fad8ac8fa66c0ee9f55.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Multi Criteria Calibration of Pipelines under Unsteady Flows
واسنجی چندمعیاره خطوط لوله برای جریان های گذرا
71
80
85419
10.30482/jhyd.2010.85419
FA
علی
حقیقی
استادیار گروه عمران، دانشکده مهندسی، دانشگاه شهید چمران اهواز
Journal Article
2010
03
22
Partial differential equations of continuity and momentum govern the transient flows in pressurized<br />pipes. These equations are numerically analyzed using the method of characteristics that consists of<br />some important uncertainties such as friction loss modeling and wave speed. This work introduces a<br />calibration methodology to estimate precisely the uncertain parameters and, consequently, the<br />numerical modeling results. For this purpose, a transient state is generated by closing the downstream<br />end valve. A numerical model for transient analysis in the pipe is also developed. In that model, four<br />correction coefficients are considered to be calibrated including; pipe roughness, local and convective<br />accelerations in the unsteady friction loss model and wave speed. Afterward, a non linear<br />programming is developed in which the correction coefficients are decision variables. The objective<br />function is defined as the summation of squares of differences of the observed and calculated<br />pressures at the valve location. The problem is then solved using a simple genetic algorithm, and the<br />uncertainties are finally calibrated to the best conditions. The capability of the method is investigated<br />by solving a well-known experimental pipeline. The approach is found easy to use and results are<br />satisfactory.
https://jhyd.iha.ir/article_85419_1c0e53aec43d900111a92e1f0bda5279.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Estimation of Brink Depth for Prismatic Channels in Sub- critical Approach Flow
برآورد عمق آب در لبه آبشار کانال های منشوری با جریان زیربحرانی در بالادست
81
89
85421
10.30482/jhyd.2010.85421
FA
سیدوحید
نبوی
محمد کریم
بیرامی
Journal Article
2010
03
22
To measure flow discharge and study erosion at the brink of free overfalls, computation of End Depth<br />Relationship (EDR) is required in civil engineering practice. Based on the energy equation, a method<br />is presented to estimate EDR in channels for different cross sections. Using available experimental and<br />theoretical results of other studies, the proposed relationships were examined. This method yields<br />good results for rectangular, triangular, parabolic, inverted semicircular and inverted triangular<br />channels but fairly agrees with the experimental results in the case of trapezoidal and circular cross<br />sections.
https://jhyd.iha.ir/article_85421_63c395ce1add4b147dd80968e8dd04b3.pdf
انجمن هیدرولیک ایران
نشریه هیدرولیک
2345-4237
5
1
2010
08
23
Experimental Investigation on the Effect of Curvature of Bend on Secondary Flow in 90 Degree Bend under Equilibrium Bed Condition
مطالعه آزمایشگاهی اثر شعاع انحنا بر جریان ثانویه در قوس 90 درجه در شرایط بستر تعادل یافته
91
99
85422
10.30482/jhyd.2010.85422
FA
محمد
واقفی
مسعود
قدسیان
Journal Article
2010
03
22
Flow pattern in the bend channels is different from that in the straight channels. Flow is affected by<br />both pressure gradient and centrifugal forces in the bend of rivers and their interaction leads to form<br />secondary flow. In the channel bend, radius of curvatures of the bend cause changes in the formation<br />of secondary flow and consequently the flow pattern in the bend. This paper presents variation of flow<br />through measurement of three dimensional velocities of the flow in the layers and different sections of<br />a 90 degree bend under equilibrium bed condition. Experiments were conducted in an experimental<br />channel with three different radius of curvature, i.e. mild, moderate and sharp. Vecterino, a threedimensional<br />velocity meter, is used to measure the three dimensional velocity of the flow. Formation<br />and changes of secondary flow pattern in the three bends with different radius of curvature is<br />discussed. The results indicate that power of secondary flow and vorticity in the second half of the<br />bend increase with decrease in the radius of curvature of the bend. Also, a flow called second<br />secondary flow forms near the outer bank and in the opposite direction of the main secondary flow.<br />This flow is evident in the middle sections of first half of bend up to the end of the bend.
https://jhyd.iha.ir/article_85422_d41db9b4710028abec534f384896c95c.pdf