Single-wire earth return (SWER) systems

[ruxton.stanislaw]

Single-wire earth return (SWER) is a low-cost method for distributing single-phase electric power in remote areas. Here's how it works:

Basic Principle:

• Unlike conventional power lines that use two wires (live and neutral), SWER utilizes a single conductor to carry the current.
• The earth itself acts as the return path for the electricity to complete the circuit.

Components:

1. Isolation Transformer: An isolation transformer sits at the beginning of the SWER system. This transformer electrically isolates the SWER system from the main power grid. One side of the transformer's high voltage winding connects to the single live conductor of the SWER line, while the other side is grounded (connected to earth).
2. SWER Line: The single live conductor stretches from the isolation transformer to various distribution points across the remote area.
3. Distribution Transformers: At customer locations (homes, farms, etc.), distribution transformers are used. These transformers step down the high voltage from the SWER line to a lower, usable voltage. The transformer's neutral point is then connected to a grounding system (usually an earth stake driven into the ground).

Current Flow:

• Electricity travels from the power grid through the high voltage winding of the isolation transformer.
• Since the transformer's other side is grounded, the current flows through the single live conductor of the SWER line.
• At each customer location, the distribution transformer steps down the voltage.
• The current then flows from the live conductor of the distribution transformer, through the load (appliances, lights, etc.), and finally returns to the earth through the grounded neutral point of the transformer, completing the circuit.

Benefits of SWER:

• Low Cost: Requires only one wire, making it cheaper to install and maintain compared to traditional two-wire systems.
• Suitable for Remote Areas: Ideal for sparsely populated regions where setting up a full two-wire grid might be impractical.

Drawbacks of SWER:

• Voltage Drop: As current travels through the earth (which has some resistance), there can be a significant voltage drop, especially over long distances.
• Safety Concerns: A fault in the live conductor can potentially electrify the earth, posing a safety risk. Grounding systems need to be well-maintained.
• Limited Power Capacity: SWER systems are typically used for low-power applications due to voltage drop limitations.

Overall, SWER offers a cost-effective solution for supplying electricity in remote areas. However, its limitations in terms of voltage drop and safety considerations restrict its use in more populated areas or high-power applications.

 

[don_resqcapt19]

Where is the question?

 

[TwoBlocked]

Where is the question?

Considering the voltage drop on the return path, where is this actually ever used?

 

[LarryFine]

Where is the question?

There is none. He has been posting engineering lessons.

 

[jim dungar]

Considering the voltage drop on the return path, where is this actually ever used?

I don't think any major US utility has installed any in the past 60 years.

 

[drcampbell]

I don't think any major US utility has installed any in the past 60 years.

1964? I would be very surprised if any had been installed after 1940.

 

[jim dungar]

1964? I would be very surprised if any had been installed after 1940.

For sure.
I still have a hard time with the 60's being 60 years ago.

 

[TwoBlocked]

There is none. He has been posting engineering lessons.

Lessons, trivia, or fantasy?