# Category Archives: White Papers

## Modelling a stay

A distribution pole is in static equilibrium . The loads on the pole and any resistance to those loads are balancing each other out. Loads are due to conductor tension and wind load on the pole and conductors, and resistance is provided by the pole itself and stays. The resistance given by the stay is

## Should you model streetlights?

When calculating the loading on a power pole (tipload) should you consider the effect of a streetlight? I selected a Sylvania Suburban as a typical light used on a distribution pole, mounted at 6.5m. Using the dimensions and weight from the manufacturer’s data sheet and adding a small allowance for the outreach, I create a

## Tension from Field Data

When assessing an existing span you are able to measure dimensions such as attachment heights, and often you want to derive the stringing tension of the span, or the sag under alternative temperature conditions. Data required for these calculations are: distances – span length, attachment heights (see figure 1) conductor type/properties air and conductor temperatures

## Pole Deflection

When a flexible object like a power pole has a load on it, it bends. This is commonly called deflection. The issues for power poles include: a pole that is bending unduly may alarm the public the increased sag could cause a clearance problem Because a pole is a flexible object the bending itself is

## Wind Pressure reduced by cos²

In standards you will often see that wind pressure on a pole, conductor etc is reduced by cos² (or sin² depending on the orientation of angles) of the angle between wind direction and object direction but there is no explanation of why cos is squared. Here is the explanation. When moving air (wind) is stopped

## Loads on poles

Newton’s laws of motion In the 17th century Sir Isaac Newton developed three laws that explain why things move (or don’t move) in the way they do. They are commonly known as Newton’s laws of motion. These laws apply to all types of objects including planets and power poles (as long as their speed is

## Conductor Blowout

When wind acts on a conductor span the conductor blows to the side. This is an important consideration in checking clearances to objects like buildings or for creating an easement for the line. Blowout may also be relevant to ensuring conductors don’t arc due to being too close together. There are several variables that affect

## Timber Pole as Strut

In literature you will find statements like this describing how to analyse a timber distribution pole: Because directly embedded wood poles are generally very flexible, it has traditionally been assumed that all the transverse load is picked up by the guys, leaving no moment at the base of the pole. With this “column” analysis, the

## Conductor sizes

When looking for properties of a conductor, or trying to match a conductor with one in the Poles ‘n’ Wires database, you need to be able to interpret the description you have for the cable. An example is the conductor labelled 19/.128 AAC. If you can’t find the properties for a cable with .128 in

## Sag errors in high temperature lines

With the need for increased load capacity on existing lines, it is economically attractive to run a line at a higher temperature than originally designed. A higher operational temperature allows for a higher current. This approach avoids the need to buy new conductor or to strengthen or replace existing poles. However, running a line at

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