Transmission and Distribution Losses: Difference between revisions
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*Base load losses? Power plant idles when nobody is using electricity - meaning 100% is wasted unless there is load matching. | *Base load losses? Power plant idles when nobody is using electricity - meaning 100% is wasted unless there is load matching. | ||
*Logic - transmission lines will be designed to be as long as possible until energy loss at the end is really high, but better usage closer by makes it econ feasible. | *Logic - transmission lines will be designed to be as long as possible until energy loss at the end is really high, but better usage closer by makes it econ feasible. | ||
=Internal Links= | |||
*[[Line Loss]] | |||
*[[HVDC]] | |||
Latest revision as of 19:42, 18 April 2023
Fact or Fiction?
Varying range:
- 67%? Huge! Of this, 50% is distribution losses. [1]
- 5% [2]
- 7% of energy used is lost in transmission - [3]. Transmission line losses appear to be amazingly low.
Who is lying?
Complexity
- There are technical and commercial losses [[4]. Technical is physics. Commercial is the load matching, idle running, startup-shutdown, etc.
- Base load losses? Power plant idles when nobody is using electricity - meaning 100% is wasted unless there is load matching.
- Logic - transmission lines will be designed to be as long as possible until energy loss at the end is really high, but better usage closer by makes it econ feasible.