Do you know why power lines work even when they are installed at a significant height? Swaying in the wind as tall as a 15-floor apartment building.
Let’s find out what keeps them running.
In this blog we will talk about the Vibration Dampers used in Transmission Lines.
Why Discuss Vibration Dampers?
These dampers are the backbone of the transmission line system. They reduce vibrations and shaking caused by wind and other factors. Without dampers, power lines and their hardware can break because of too much movement. When conductors in the power lines vibrate, other hardware like insulators can fail. Power lines can also get weak from bending too much. All of this leads to expensive repairs, replacements, and even long blackouts.
In simple words, a vibration damper is an overhead line fitting that lowers the vibrations in the system.
How Do They Work?
As you know, weather changes bring wind, snow, and temperature fluctuations. Strong winds cause the power lines to sway and vibrate, while extreme temperatures make them expand or contract, leading to sagging or tension issues.
The vibration damper absorbs aeolian vibrations. This vibration is a high-frequency-low-amplitude oscillation caused by steady winds blowing across power lines. It is named after Aeolus, the Greek god of wind.
But how do these dampers absorb vibrations? They use a principle called inertial damping. The damper has weights attached to a cable or messenger wire on either side. As the power line vibrates, these weights move out of sync with the vibration, creating opposing forces that cancel out the motion. Vibration dampers also work by absorbing some of the oscillation energy, which is the kinetic energy of the vibrating power line. This reduces the vibration amplitude and stress on the conductors.
You will find vibration dampers installed along the length of transmission lines at regular intervals. Because vibrations can occur at any point, having dampers spaced out ensures protection for the entire length of the power line.
Apart from ensuring safety, they also help reduce the noise generated by the vibrating conductors in the wind. This noise reduction is crucial in urban areas where transmission lines are close to residential areas.
Types Of Vibration Dampers
1. Stockbridge Damper: They have a weight in the middle hanging from two or more steel wires. The weight fights against shaking while the end parts (called clamps) push back against the wind. They are used on lines in areas with consistent winds, such as open plains or coastal regions.
2. Twin Conductor Damper: They are used for power lines that run side by side. They have a heavy part in the middle hanging from two wires. These dampers are designed to fit between two close power lines. The heavy middle part stops the shaking in both lines at once.
3. Spacer Damper: They control shaking on high voltage power lines that use spacers. Installed directly into the spacer units, they have a bracket that pushes against the wind. These dampers are designed to keep power lines steady on big power systems.
Materials Used
A vibration damper has three main parts: weights, clamp, and messenger cable. Each part is made from different materials. Let’s look at them closely.
1. Cast Iron: This material is used for the weights in vibration dampers. It is easy to shape into different sizes and doesn’t rust quickly, so dampers last longer. Also, it is hard to dent, helping dampers survive hits from any flying objects. It’s also heavy for its size, leading to strong dampers that aren’t too big.
2. Aluminum Alloy: This material is used for the clamp in vibration dampers. It is light, so it doesn’t put extra weight on the main power line. Also, it does not hinder the current flow, helping electricity flow freely through the power line.
3. Galvanized or Stainless Steel: These materials are used for the messenger cable in vibration dampers. They are light, making them good for thin wires that don’t add much weight. Both types of steel resist rust, helping the cables last longer outdoors. They also repel water, which protects the damper during monsoon. Galvanized steel has a protective zinc coating, while stainless steel has other metals mixed in to make it strong and rust-resistant.
