POWERGRID SOLUTIONS
PEAK PULSES GRID PERFORMANCE
Global power grids are a hybrid of traditional and renewable sources. NanoPlex capacitor films are used to support hybrid power factoring to integrate these diverse energies to enable step-up power transmission. Once the power is transferred to a substation, we help in the step-down process to deliver predictable power during times of typical or spike demand throughout fluctuating demand. Leading power suppliers, capacitor designers, and mobile energy deployments can leverage NanoPlex-based capacitors to guarantee that delivered power meets the demands of homes, industries, and other consumers.
4 WAYS WE JUICE THE GRIDS
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Hybrid Energy Factor Correction
NanoPlex-based capacitors improve power factor correction across hybrid (wind, hydro, solar) and conventional energy creation sources to optimize step-up and step-down transmission. We enhance energy transfer efficiency by mitigating the phase difference between voltage and current.
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Energy Storage and Stabilization
NanoPlex-based capacitors assist in storing and discharging energy efficiently. In transmission and distribution, NanoPlex-based capacitors help manage energy fluctuations, stabilizing the voltage and ensuring a consistent power supply to the grid.
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Mobile Voltage Support
Mobile trucks equipped with NanoPlex-based capacitors can provide immediate voltage support to substations during maintenance, emergencies, and other temporary events. Capacitors can stabilize voltage, ensuring the substation receives a consistent and reliable power supply.
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Step-Up and Step-Down Optimization
NanoPlex-based capacitors can optimize step-up power transmission to compensate for inductive issues, reducing reactive power and enhancing voltage levels. In step-down environments, we can manage excess voltage, stabilize voltage levels, and ensure the electricity supplied meets the required parameters.
According to the US Energy Information Administration, electricity demand in the United States stood at roughly 4,000 terawatt hours in 2022. The market is projected to rise and reach 5,200 terawatt hours by 2050 - an increase of approximately 27 percent. *