Graphene Super Capacitor (SC) Energy Storage Modules are superior to all other Technologies!

SC Modules can be paralleled into large Energy banks for residential or commercial energy storage towers to supply commercial power to the community, SC Energy Storage over 1MWh, the Cost reduces to under $500kWh.

By adding a Super Capacitor (SC) Module matched to your system voltage, will instantly extend the life of any existing energy storage, as Capacitors are a lot better at supplying large, instant, on demand high Amp energy, that common appliances draw for short periods, that is what saves & extends the life of other battery technologies that Must be connected to the Main +&- DCV Bus-Bars, or unbalanced voltage can occur!

Like batteries, SC modules have Cell Management System (CMS=BMS) to protection Cells &/OR circuit boards.

Energy drainage is a constant event, SC Energy Charging & Drainage does not effect the SC Cells, and can be drained to 100% DOD, as a daily event without damaging the charge capacity.

All SC energy Storage predicted life-cycle from 20'000+ cycles (55+ years), compared to any other energy storage technology, these Modules will possibility out live you!

Hybrid Graphene SC modules can deliver up to and over 600Ah if equipment requires, SC can be Charged in 10~75 minutes using high Amp Charge Rate, compared to hours for all Other energy storage technologies.

A SC module Correctly matched into your systems DC Voltage limitations, you definitely extend the life of your existing battery storage system. SC's are fare better at supplying large, instant, on demand high current, and therefore the electrical power drawn by appliances for short periods, either at start-up or peak power demand times.

If you want to learn more about this effect, then look up something called the S-N / Woehler Curve on Wikipedia.

Super Capacitor Legend;

Imax is the discharge current in amperes (A)
Vcap max is the initial voltage in volts (V)
Vcap min is the ending voltage in volts (V)
R is the equivalent resistive load in ohms(Ω) based on: R=Vcapmax/Imax
C is the capacitor value in farads 1F=1000 000μF=1000 000 000nF=1000 000 000 000pF
t is the time in seconds(s), to convert to Minutes ÷3600.

Important: Please note that all amounts and estimates shown above can be set to actual market rates, and are used for symbolic estimation purpose only. The actual figure depends on lots of issues including quality of materials, power conditions, operational temperature and others. These amounts and figures should be considered as example only, if used as an actual return to investment!