Energy Storage
is our matter
Blue Brand design, simulate, test and produce the energy storage systems, from small local user to the national grid ballancing and frequancy buffer large systems.
We get the best from any Lithium Cells,
LiPO, NMC, LTO etc, and we made the pack
for heavy duty task but, for safety first.
- Twin cells serial 280Ah
- Charge / discharge 3 hrs (0.33C) max 2hrs (0.5C)
- temp probe per cell
- integral cooling per cells at <24 °C
POLYVALENT ASSEMBLY
We get the best from any Lithium Cells
Cooling by forced ventilation, gas/liquid, liquid/liquir, liquid/air, air/air
From 2.5KWh up to 4.5MWh, the Battery Blocks works under the stable temperature of <25°C
LiPO “BBBK” have a respectable energy density of 161Wh/l, all in, with integral cooling forced ventilation and BMS.
What that customer needs
The lithium batteries give the best of the chemistry at specific LAB conditions, that we made in the practice, in production, at the perfection, for safety first, then for life cycles.
Blue Brand Power Pack “BBPK” insure the power supply and energy storage in extreme conditions, beside the power backup and Block Buster is an integrated EV charging solution embedded 180kWh lithium-ion battery energy storage system (BESS).
This Block Buster removes the need for every charger installed to have a high-power grid connection, allowing for faster and more widespread charger deployment up to ultrafast charging point at 150kWh from electrical power grid of 34kW.
DESIGNED FOR STORAGE
The lithium batteries give the best of the chemistry at specific LAB conditions, that we made in the practice, in production, at the perfection, for safety first, then for life cycles.
- Charge / discharge 3 hrs (0.33C) max 2Hrs (0.5C)
- max charge 95%, max discharge 5%
- Integral cooling per cells at <24 °C
- temperature probe per cell
Frequently Asked Questions
Answer:
Combined with a BMS, Lithium Iron Phosphate (LifePO4 – LFP) is currently the most secure Lithium-Ion technology on the market.
Answer:
LiFePO4 batteries have a chemical and mechanical structure that does not overheat to unsafe levels, unlike batteries made with a cobalt-oxide cathode or manganese-oxide cathode.
This is because the charged and uncharged states of LiFePO4 are physically similar and highly robust, which lets the ions remain stable during the oxygen flux that happens alongside charge cycles or possible malfunctions. Overall, the iron phosphate-oxide bond is stronger than the cobalt-oxide bond, so when the battery is overcharged or subject to physical damage then the phosphate-oxide bond remains structurally stable; whereas in other lithium chemistries the bonds begin breaking down and releasing excessive heat, which eventually leads to thermal runaway.
Answer:
Super B lithium iron phosphate batteries live up to 5000 cycles at 80 percent depth of discharge, without decreasing in performance.
At continuously charge / discharge stable low temperature, the LiFepO4 lifespan increase semnificative over 60%.
Answer:
SCALABILITY
The “BBBK” are from 2.5KWh, 5KWh, 10.1KWh, 14.3KWh and containerized energy storage from 4.56 MWh power at 2x24ft marine containers
- Battery 2.5KKWh - 14.3KWh, 48-56V, 2800Ah
- Rack 214.5 KWh, 768V, 280Ah
- Container Marine Standard, 2 x 24ft HQ, 4.56MWh, 1040V