Discharge Coefficient for V-Notch Broad Crested Side Weir Side Weir

In this paper the hydraulic characteristics of V-notch broad crested side weir have been experimentally studied. Sixteen V-notch broad crest weirs were constructed with six apex angles (θ=30o, 45o, 60o, 90o, 120o,and 150o)and the apex height change three times (p=5,10,15cm) for the first forth angles and change two times for the last two angles (p=10,15cm), each model can be tested by changing flow in the main channel several times and from the analysis of experimental results it was found that the coefficient of discharge(Cd) for the V-notch broad crested weir is depend on the hydraulic and geometric characteristics of channel and weir, and from the hydraulic characteristics of the main channel it was found that the coefficient of discharge (Cd) directly proportional to the main channel Froude number before side channel , and a maximum value of (Cd) can be reached for a larger acute V-notch angle , but a maximum value of (Cd) can be reached for the smaller obtuse V-notch angle. Also from the hydraulic and geometric effect for both channel and weir it is found that (Cd) inversely proportional with (y1/p) and directly proportional with (y1/h &p/h) and a maximum (Cd ) can be reached maximum for both acute and obtuse V-notch angle. Suitable equations for discharge coefficient are obtained for different apex angle, then the predicated discharge coefficient from the equations were plotted against the calculated value with coefficient of determination (R=0.9) and it was found to be good. ةثلثم ةحتفب ةضیرعلا ةفاحلا تاذ ةیبناجلا تارادھلل فیرصتلا لماعم ىیحی ىنغلا دبع لما ةیئاملا دراوملا ةسدنھ مسق ةسدنھلا ةیلك ةعماج لصوملا صخلملا ةا نق ذخأم ي ف عضو ة ثلثم ةحتفب ة فاحلا ضیر ع يبنا ج راد ھل ةیكیلوردیھلا صئاصخلا ةسارد مت ثحبلا اذھ يف ةیبناج , ةثلثملا ةحتفلل ةفلتخم ایاوزب جذومن رشع ةتس ءاشنإ مت ثیح ) (θ=30o, 45o,60o,90o,120o, and 150 o متو ثلا ث ة ثلثملا ة حتفلا عا فترا ر یغت ى لولأا ة عبرلأا ا یاوزلل تار م ) p=5,10,15cm ( نیتر یخلأا نیتیواز لل نیتر مو p=10,15cm) .( فیراصت ةدع رارمإب جذومن لك صحف متو . فیر صتلا ل ماعم نأ دجو ة یربتخملا جئاتنلا لیلحت نمو ) Cd ( راد ھلاو ةا نقلا ن م ل كل ة یرتیمویجلاو ة یكیلوردیھلا صاو خلا ى لع د متعی , یثأ ت ن م د جو ث یح صاو خلا ر فیرصتلا لماعم نأ ةانقلل ةیكیلوردیھلا ) (Cd ى لعأ نأو عر فتلا ل بق ة سیئرلا ةانقلا يف دورف مقر عم ایدرط بسانتی فیرصتلل لماعم (Cd) ةجرفنملا ةثلثملا ةحتفلل ةیواز رغصأو ةداحلا ةثلثملا ةحتفلل ةیواز ربكلأ ھیلع لوصحلا نكمی , یكیلوردیھلا صاوخلا ریثأت نم و عم ای سكع بسانتی فیر صتلا ل ماعم نأ دجو رادھلاو ةانقلل ةیرتیمویجلاو ة ) y1/p ( ع م ا یدرطو (y1/h, p/h) فیر صتلل ل ماعم ى لعأو ) Cd ( كلذ كو ةدا حلا ة حتفلل ة یواز ر بكلأ ھ یلع لو صحلا ن كمی ةجرفنملا . بلا اذھ يف اھتسارد مت يتلا ةثلثملا ةحتفلا ایاوز نم ةیواز لكل ةقلاع تدجو دقو فیرصتلا لماعم باسحل ثح (Cd) تاریغتملا ىلع دامتعلااب (F1, p/h, y1/h, and y1/p ) . ةسیقملا فیرصتلا لماعم میق نیب ةقلاعلا تمسر دقو دیدحتلا لماعم غلب ثیح قفاوتلا طخ عم دیج براقت ظحولو ةبوسحملاو R=0.9) .( Received: 12 – 5 2010 Accepted: 19 – 9 2010 Yahya: Discharge Coefficient for V-Notch Broad-Crested Side Weir 105 Introduction: A broad crested weir is an over flow structure with a horizontal crest above which the stream lines are practically straight and parallel. Broad crested weirs can have a variety of cross sections in control sections, depending on the requirements. The simplest type is a square edged weir with a rectangular cross section [7]. A side broad crested weir is a fixed structure installed at the side of the main channel and used as a standard discharge device to control the flow depth and discharge . Estimation of discharge over the side weir is still an important issue and an on-going problem in the area of water measurement. The normal side weirs may be of different shape (i.e., rectangular, triangular, trapezoidal etc.). Further side weirs may be made sharp or broad crested [6]. Most pervious research works for side weir carried out in channel with rectangular cross section , the sharp and broad crested rectangular side weir have been studied extensively by many investigators [2,4,5,6,7,8] . It is obvious that almost all investigators have studied hydraulic characteristics of rectangular and triangular sharp crested side weir and less attention has been given to the behavior of flow over V-notch broad crested side weirs [6] . In this paper, experiments were carried on a Vnotch broad crested side weir with apex angles of (θ=30o, 45o, 60o, 90o, 120o,and 150o) with different height of the apex for each angle. The experimental results were presented to validate a general expression for the estimation of discharge coefficient in terms of both hydraulic and geometrical parameters. Experimental set up: The experimental work was conducted at the Hydraulics Laboratory of Water Resource Engineering at the University of Mosul , Mosul, Iraq, using a long horizontal tilting main channel of (10)m long and a cross-section of (0.3)m width and (0.45)m height. The side channel was constructed perpendicular to the main channel at a distance (4.6)m upstream the main channel , the length of side channel is (2)m with cross section of (0.15)m width and (0.3)m height and zero slope. The main channel consisted of toughened glass walls, and the side channel consisted of plastic walls and both of a stainless steel floor. Three movable carriages with point gauges were mounted on brass rails at the top of the channel sides as shown in figure (1). Sixteen V-notch broad crested weirs models were made from wood of (0.3)m length and (0.2)m height . In these models, a V-notch of six different angles, with three different apex height, details of the models are shown in figure (2), and table (1). The V-notch broad crested weir was installed at the upstream end of the side channel. For discharge measurement, a full width thin plate sharp crested rectangular weir (10)cm height fixed at the tail end of the main channel section manufactured according to British standard 1965 [3] ,the head over the weir was measured two times, first by locking the inlet of the side channel and the second time by the opening the inlet of the side channel to determine the discharge in the main channel before and after side channel Q1&Q2 respectively, the head over the weir was measured with a precision point gauge whose least count was (0.1)mm. Evaluation of discharge : The basic equation of V-notch broad crested weir used to evaluate the discharge over the side weir is: Qthe= Cd ( 8/15 g 2 tan (θ /2) h ) (1) In which: Qthe= theoretical discharge over side weir m/sec, Cd=coefficient of discharge, h=head of water upstream broad crested weir m, g=acceleration due to gravity m/sec, θ=apex V-notch angle in degree. Al-Rafidain Engineering Vol.19 No.3 June 2011 106 The actual discharge over the side weir computed by the following equations: Fig. (2) Definition Sketch y1 y2 p h Q1 Q2 Broad crested side weir