Difference between revisions of "EMO:Use of line conductor information in SFT"

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(Created page with "The behaviour of SFT constraints is now derived from information about the thermal characteristics of the lines involved. The information required by EMO to do this derivatio...")
 
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The behaviour of SFT constraints is now derived from information about the thermal characteristics of the lines involved.  The information required by EMO to do this derivation is contained in two files, the Conductor Parameters file and the Circuit Configuration file
 
The behaviour of SFT constraints is now derived from information about the thermal characteristics of the lines involved.  The information required by EMO to do this derivation is contained in two files, the Conductor Parameters file and the Circuit Configuration file
  
==Conductor Parameters==
+
==Conductor Parameters File==
  
 
The Conductor Parameters file contains information on the properties of the different types of conductors used in transpower lines. This is a csv file with a heading line and the following columns
 
The Conductor Parameters file contains information on the properties of the different types of conductors used in transpower lines. This is a csv file with a heading line and the following columns

Revision as of 09:45, 21 December 2015

The behaviour of SFT constraints is now derived from information about the thermal characteristics of the lines involved. The information required by EMO to do this derivation is contained in two files, the Conductor Parameters file and the Circuit Configuration file

Conductor Parameters File

The Conductor Parameters file contains information on the properties of the different types of conductors used in transpower lines. This is a csv file with a heading line and the following columns

Column Meaning
Conductor Code
This is the code used to identify this type of cable
Conductor Description
a description, for reference only
Absorbivity
Average absorbance, the proportion of incoming radiative energy that is absorbed over naturally occurring frequencies
Coefficient of Resistance
The rate of change in resistance as temperature is increased
Resistance @20 C ohms/km
Electrical resistance
Mass per unit lemgth gm/cm
The mass or weight of the cable
Diameter mm
Diameter of the cable
Emissivity
Physical emissivity, which determines the rate at which heat is lost through radiation
Specific Heat Capacity Cal/g/C
Physical heat capacity, the amount of energy contained in a temperature rise in the cable material
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