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 Optimal
Capacitor Placement allows engineers to strategically
place capacitors for voltage support and power factor
correction while minimizing installation and long-term
operation costs. The advanced graphical interface gives
users the flexibility to control the capacitor placement
process and graphically view the results. The precise
calculation approach automatically determines the best
locations and bank sizes. In addition, it reports the
branch capacity release and the estimated savings during
the planning period due to var loss reduction. |
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- Optimal location & bank size
- Minimize installation & operation costs
- Individual source or average energy cost
- Voltage and/or power factor objectives
- Minimum, maximum, & average loading
- Branch capacity release & cost savings
- Review capacitor impact on the system
- Capacitor control method
- Flexible constraints
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- Find capacitor’s best location & bank size
- Minimize the total cost of installation & operation
- Find a global optimal solution
- Handle radial or meshed balanced networks
- Analyze capacitor control method & review capacitor impact on the system
- Use global average energy cost or individual source energy cost
- Focus on savings during the whole planning period
- Plot loss reduction savings, capacitor operation cost and annual savings during the planning period
- Report branch capacity release
- Determine available capacitor installation locations by users
- User selectable capacitor placement objectives: voltage support, power factor correction, or both
- User selectable capacitor types & bank sizes
- User-defined planning period & interest rate
- User-controlled speed & precision ratios
- Global or individual constraints
- Different loading categories
- Graphical display of new capacitor information
- Integrated load flow features
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- Capacitor properties
- Capacitor locations & sizes
- Cost and saving
- Branch capacity release
- Load flow results
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