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MPTS™ Benefits ... many for each participants
ELECTRICAL
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Decreased maximum electrical (I) current
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Decreased V (voltage) surges i.e. stabilize
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Decreased CO₂ (Carbon Dioxide) emissions
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Decreased peak KW (KiloWatt) demand power
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Decreased electrical demand KVA (KiloVolts-Amps)
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Decreased KWh (KiloWatt-Hour) energy consumption
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Decreased KVAh (KiloVolts-Amps-Hour) energy consumption
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Decreased KVAr (KiloVolts-Amps reactive) power - dirty power
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Decreased KW overload conditions/hotspots in panels/equipment
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Decreased THD (Total Harmonics Distortion) damaging your network
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Increased PF (Power Factor) network-wide without any capacitor banks
END USER
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Release electrical capacity to client or utility
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Connect more loads to panels and transformers
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Extend the operational life of connected equipment
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Reduce operational service, repair, and maintenance costs
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Protect equipment from early failures and reduce down time
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Increase efficiency, safety and reliability of the electrical network
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Decreases total electrical power demand and consumption
UTILITY
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Mitigates sub-station failures
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Relieves peak demand power outages
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Decrease in total energy demand by users
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Reduction in total electrical energy supplied to users
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Decreases eddy-current heat generation/loss in transformers
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Reduces line current and power transmission losses (I²R losses)
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Reduces distribution, transmission, operations, maintenance cost
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Improves installed equipment/switchgear/cables maximum utilization
POWER GENERATION
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Cuts CO₂ carbon emissions
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Reduces voltage surges and sags
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Helps to maintain stable voltages
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Decreases peak load current demand
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Matches production to consumption KVA=KW)
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Improves generator efficiency and performance
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Reduces capital requirements for new expansions
ENVIRONMENT
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Cuts CO2 carbon emissions
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Reduces voltage surges and sags
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Helps to maintain stable voltage
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