Two-Color Sentence
Second Life BESS Solutions
Bridging the gap towards of a circular economy
We maximize the potential of batteries so your business can be apart of the circular economy
See how we repurpose second life batteries
ECO STOR's second life solutions
ECO STOR prides itself on our development and optimization of repurposed EV batteries to give them a longer lifecycle as energy storage solutions to meet your needs.
- Our experienced Nordic team has dedicated several years to developing a sophisticated Energy Management System (EMS) that seamlessly integrates second life and repurposed EV batteries into our Battery Energy Storage Systems (BESS). By leveraging this expertise, we enhance the efficiency and sustainability of energy storage solutions, providing our clients with reliable and cost-effective energy management options. Trust ECO STOR to deliver innovative and environmentally friendly solutions that meet your energy needs.
Repurposing EV batteries
Instead of immediately recycling EV batteries when their lifetime in a vehicle is over, we utilize the precious resources and the energy that goes into making a battery, to its full potential.
Tailored systems
We test the used EV batteries and ensure their health and performance are optimal before we build them into tailored second life energy management systems, connecting them to our steering systems that make the batteries communicate with our applications.
Recycling at end of life
When the performance of a second life battery is no longer good enough, we remove the battery from the energy management solution and bring it to our recycling facility. Our partner, LiCycle, ensures that as much as 99% of the precious elements in the batteries are recycled and sold to be used for brand-new batteries.Want to talk? |
We know that battery energy systems may seem complex, and we´d love to
show you what the possibilities are.
Don´t hesitate to connect with me to discuss your needs!
Residential Energy Storage
System setup and control is provided by
a simple App that enables the user to
operate the system in several different
modes:
- GENERAL MODE - PV supplies load as a
priority, then charges the battery and
finally feeds surplus to the grid. If there
is insufficient PV, the batteries supply the
load. Battery and grid supply load
together if demand exceeds battery
power. - ENERGY STORAGE MODE - PV and
grid supply the load and charge battery
together. Battery SoC is maintained at
100%. If there is insufficient PV the grid
supplies the load and charges the
battery. - PEAK & VALLEY MODE Four sub modes can be configured based on Time of day. These can define the priority of the source that supplies the load. The stored battery energy or excess PV can be pushed to the grid when demand from the load is low.
- MICRO GRID - PV supplies load as a
priority, then charges the battery with
excess energy. When PV is no longer
available the battery supplies the load.
Details - Residential Energy Storage
System range | ||
---|---|---|
Storage capacity | 15kWh - 30 kWh | |
Rated AC Voltage | 230Vac/400Vac - 220Vac/380Vac | |
Rated Output Power | 10kW | |
Output Frequency | 50/60Hz | |
Solar PV MPPT Voltage Range | 200-880Vdc | |
Cycle Life | 7 - 10 Years (80% DoD) | |
System Temperature Range | 10 to 30oC | |
Battery Weight | ~300kg | |
Battery Dimensions | ~2000 x 1200 x 300mm (HxWxD) | |
Inverter Weight | ~40kg | |
Inverter Dimensions | 550 x 550 x 190mm (HxWxD) |
Industrial Energy Storage
Designed for ‘behind the meter’ use in
business and industrial premises our
industrial energy storage systems take a
modular approach to simplify system
development.
Based around two electric
vehicle batteries, the basic building block
has a minimum of 40kWh of storage and
can deliver up to 30kW of power. Modules
can be connected to build larger systems in
the range of 40kWh to 500kWh.
The system incorporates an Energy
Management System (EMS) that can be
configured to meet your specific application
requirements and integration with your
Building Management System (BUMS).
Suitable for a wide range of storage
applications including peak shaving, grid
support, frequency regulation, electric
vehicle charging and increased utilization of
solar.
Details - Industrial Energy Storage
Module | System range | |
---|---|---|
Storage capacity | 40kWh | 40 - 500kWh |
Rated AC Voltage | 380Vac/400Vac | 380Vac/400Vac |
Rated Output Power | 30kW | 30 - 500kW |
Output Frequency | 50/60Hz | 50/60Hz |
Cycle Life | 7 – 10 Years (80% DoD) | 7 – 10 Years (80% DoD) |
System Temperature Range | 10 to 30oC | 20 to 30oC |
Battery Weight | ~800kg | Subject to system design |
Battery Dimensions | ~2000 x 1300 x 800mm (HxWxD) | Subject to system design |
Grid Energy Storage
Intended for use in grid support application
our largest energy storage systems are
designed to be containerised.
Incorporating as many as 50 electric vehicle
batteries these systems can be configured
to provide a wide range of support services
to enable maximum return on investment.
The system incorporates advanced safety
and protection systems to ensure long term
reliability and is supplied with our Energy
Management System (EMS) that can be
configured to meet your specific application
and operational requirements.
Suitable for a wide range of grid
applications including energy trading, peak
shaving, voltage support, frequency
regulation, transmission & distribution
deferral in addition to energy arbitrage.
Details - Grid Energy Storage
40ft Container | System range | |
---|---|---|
Storage capacity | 750kWh | 300kWh – 1MWh |
Rated AC Voltage | 380Vac/400Vac | 380Vac/400Vac |
Rated Output Power | 1MW | 300kW – 1MW |
Output Frequency | 50/60Hz | 50/60Hz |
Cycle Life | 7 – 10 Years (80% DoD) | 7 – 10 Years (80% DoD) |
System Temperature Range | -20 to 30oC | -20 to 30oC |
Battery Weight | 25,000kg | Subject to system design |
Battery Dimensions | Standard ISO 40R Container | Subject to system design |