Sag and Tension:
Sag is an interesting topic to discuss.We generally see a lot of overhead lines on our way.Sag in general words can be said that distance between the highest point of electric poles or towers and the lowest point of a conductor connected between two poles or towers.You will know how to calculate sag and sag formula.
While erecting an overhead line, it is very important that conductors are under safe tension. If the conductors are too much stretched between supports in a bid to save conductor material, the stress in the conductor may reach unsafe value and in certain cases, the conductor may break due to excessive tension. In order to permit safe tension in the conductors, they are not fully stretched but are allowed to have a dip or sag.
The difference in level between points of supports and the lowest point on the conductor is called sag.
This textbook "Principles of Power System by V.K Mehta" is the best in industry. Grab it now for very less price.
Figure (i) below shows a conductor suspended between two equilevel supports A and B.The conductor is not fully stretched but is allowed to have a dip. The lowest point on the conductor is O and the sag is S.The following points may be noted :
(i) When the conductor is suspended between two supports at the same level, it takes the shape of a catenary.However, if the sag is very small compared with the span, then the sag span curve is like a parabola.
(ii) The tension at any point on the conductor acts tangentially. Thus tension TO at the lowest point O acts horizontally as shown in Figure (ii).
(iii) The horizontal component of tension is constant throughout the length of the wire.
(iv) The tension at supports is approximately equal to the horizontal tension acting at any point on the wire. Thus if T is the tension at the support B, then T = TO.
Conductor sag & tension:
This is an important consideration in the mechanical design of overhead lines. The conductor sag should be kept to a minimum in order to reduce the conductor material required and to avoid extra pole height for sufficient clearance above ground level. It is also desirable that tension in the conductor should be low to avoid the mechanical failure of the conductor and to permit the use of less strong supports. However, low conductor tension and minimum sag are not possible. It is because low sag means a tight wire and high tension, whereas a low tension means a loose wire and increased sag. Therefore, in actual practice, a compromise is made between the two.Calculation of Sag in Overhead transmission lines:
In an overhead line, the sag should be so adjusted that tension in the conductors is within safe limits.The tension is governed by conductor weight, effects of the wind, ice loading and temperature variations.It is a standard practice to keep conductor tension less than 50% of its ultimate tensile strength i.e., minimum factor of safety in respect of conductor tension should be 2.We shall now calculate sag and tension of a conductor when(i) supports are at equal levels
(ii) supports are at unequal levels
(i) When supports are at equal levels: Consider a conductor between two equilevel supports A and B with O as the lowest point as shown in the figure below. It can be proved that the lowest point will be at the mid-span. Let
l = Length of span
w = Weight per unit length of conductor
T = Tension in the conductor.
Consider a point P on the conductor.Taking the lowest point O as the origin, let the coordinates of point P be x and y.Assuming that the curvature is so small that curved length is equal to its horizontal projection (i.e., OP = x), the two forces acting on the portion OP of the conductor are :
(a) The weight wx of conductor acting at a distance x/2 from O.
(b) The tension T acting at O.
Equating the moments of above two forces about point O, we get,
The maximum dip (sag) is represented by the value of y at either of the supports A and B.At support A, x = l/2 and y = S.
Let l = Span length
h = Difference in levels between two supports
x1 = Distance of support at lower level (i.e., A) from O
x2 = Distance of support at higher level (i.e. B) from O
T = Tension in the conductor
If w is the weight per unit length of the conductor, then,
Also x1 + x2 = l
Having found x1 and x2 , values of S1 and S2 can be easily calculated.
This textbook "Principles of Power System by V.K Mehta" is the best in industry. Grab it now for very less price.
Effect of wind & ice loading on electrical transmission lines :
The above formula for sag is true only in still air and at normal temperature when the conductor is acted by its weight only. However, in actual practice, a conductor may have ice coating and simultaneously subjected to wind pressure. The weight of ice acts vertically downwards i.e., in the same direction as the weight of the conductor. The force due to the wind is assumed to act horizontally i.e., at the right angle to the projected surface of the conductor. Hence, the total force on the conductor is the vector sum of horizontal and vertical forces as shown in Figure(iii) below.
Total weight of conductor per unit length is
When the conductor has the wind and ice loading also, the following points may be noted :
(i) The conductor sets itself in a plane at an angle θ to the vertical where
(ii) The sag in the conductor is given by :
Hence S represents the slant sag in a direction making an angle θ to the vertical. If no specific mention is made in the problem, then slant slag is calculated by using the above formula.
(iii) The vertical sag = S cos θ
Conclusion:
You have learnt What is Sag & Tension in transmission lines & how to Calculate it and sag formula.
Comment below for any queries.