About Extantpower Lithium storage batterie
Lithium Storage Batteries
Looking for a reliable, long-lasting storage solution for your home solar energy system? Look no further than our residential lithium storage batteries. Using the latest lithium-ion phosphate battery technology, our batteries are designed to deliver superior performance and Cycle life compared with other lithium batteries.
Additionally, our batteries have no memory effect, meaning you can always use the full capacity of stored power. Our batteries are also easy to charge, so you can keep your solar energy system running even when the sun isn’t shining.
A lithium-ion solar battery is a type of battery that uses lithium ions as an electrolyte. Lithium-ion batteries are rechargeable and are often used in portable electronic devices. Solar batteries are a newer application for lithium-ion batteries and are being used increasingly in residential solar energy storage systems.
These batteries are usually used with solar panels and wind turbines to provide a backup power source for homes and businesses.
There are several benefits to using residential lithium storage batteries, including:
1. Increased Efficiency: Li-ion batteries can store more energy than other batteries, making them more efficient.
2. Longer Life Span: Li-ion batteries typically have a longer life span than other batteries, lasting up to 10 years or more.
3. Reduced Maintenance: Li-ion batteries require little to no maintenance, making them easier to care for than other batteries.
4. Environmentally Friendly: Li-ion batteries are considered more environmentally friendly than other batteries, as they do not contain harmful chemicals.
If you are considering adding a solar battery to your home energy system, choosing a battery compatible with your solar panels and inverter is important. Solar batteries come in various sizes, capacities, and voltages, so selecting the right battery is important. It would help if you also considered the warranty and customer support offered by the battery manufacturer.
The best way to learn about solar batteries and find the right one for your home is to speak with a qualified solar installer. Solar installers can help you assess your energy needs and choose the right solar battery for your home. They can also provide information on government incentives and financing options to help offset the cost of solar batteries. They are much different from the conventional lead-acid battery as they are composed of multiple small cells, whereas the lead-acid battery is one big cell. This gives rise to several advantages, such as:
10 kWh LiFePo4 Battery Storage System
As we all know, traditional lead-acid batteries have serious disadvantages, such as a short life span, high self-discharge rate, environmental pollution, etc. So, more and more people are looking for a better alternative to lead-acid batteries. And LiFePo4 battery is the best choice.
Here are the reasons why:
1. Longer life span
The biggest advantage of the LiFePo4 battery is its long life span. It can be used more than 2000 times, while lead-acid batteries can only be used 500-800 times. So, you don’t have to replace your battery very often.
2. Lower self-discharge rate
Another advantage of the LiFePo4 battery is its lower self-discharge rate. A lead-acid battery will lose about 30% of its capacity after 3 months, while a LiFePo4 battery will only lose 5% of its capacity simultaneously. So, you can use it for a longer time.
3. Environmental friendly
LiFePo4 battery is also more environmentally friendly than a lead-acid battery. It doesn’t contain any toxic materials and can be recycled. This type of battery does not contain any lead or cadmium, which makes it safe for disposal and helps to protect the environment. In addition, when this battery reaches the end of its lifespan, it can be recycled and used to create new batteries, meaning no waste is produced.
LiFePo4 battery is much safer than a lead-acid battery. It doesn’t produce any explosive gas when charging and won’t catch fire even if damaged.
5. Working Temperature:
The liFePo4 batteries can operate in temperatures ranging from – 40 degrees Fahrenheit to + 158 degrees Fahrenheit, making them suitable for various applications. The battery’s working temperature is one factor that makes it superior to other types of batteries.
6. Depth of Discharge:
The liFePo4 battery can be discharged up to 80% without affecting its lifetime. This is much higher than other batteries, which can only be discharged to 50% or less without impacting their lifespan. It can be completely discharged without disrupting the delivery capacity or discharge cycles.
OSM Household Battery Storage System
This system is designed for household use and offers a clean and efficient way to store power generated from renewable sources such as solar panels. The battery system can also be a backup during power outages or other emergencies.
The OSM household battery Storage system is a modular and scalable energy storage solution that can be customized to meet the specific needs of your home. The system includes a lithium-ion battery pack, inverter, charger, and control unit. Optional extras such as solar panels and wind turbines can be added to the system to increase its renewable energy capabilities further.
Why Need Home Electricity Battery Storage?
Consider installing a home battery storage system for many reasons. You may want to be prepared for a power outage or be interested in saving money on your electric bill. Or, you may be looking for a way to use more renewable energy in your home.
Whatever your reason, home battery storage can be a great way to achieve your goals. Here are just a few of the benefits of installing a home battery storage system:
1. Save money on your electric bill: Home battery storage can help you save money on your electric bill by using stored energy during times when electricity rates are higher. This is especially beneficial if you have solar panels, as you can use stored energy from your panels to power your home during the daytime when rates are typically higher.
2. Be prepared for a power outage: Home battery storage can give you peace of mind in knowing that you have a backup power source in case of a power outage. This can be especially important if you live in an area prone to hurricanes or other natural disasters.
3. Peak Saving Function: Home battery storage can help you take advantage of time-of-use (TOU) electricity rates, which charge different rates depending on the time of day. By storing energy during off-peak times when rates are lower, you can use that stored energy during peak times to save money.
4. Independent Inverting Function: Home battery storage systems typically come with an inverter, which allows you to use stored energy even if the power is out. This can be helpful if you need to power essential appliances or equipment during a power outage.
5. Accepting Debug Command From Power Grid Flexibly: Some home battery storage systems can communicate with the power grid, which can help regulate the flow of energy and help prevent blackouts.
The storage system will be able to execute various tasks in response to the power grid’s dispatch command, which includes tasks such as:
1. Reduce household peak power consumption
2. Arbitrarily absorb/feed back excess electricity generated by household photovoltaic
3. Even out the impact of intermittent renewable energy resources on the power grid
4. Stabilize voltage and frequency of power grid
5. Blackout protection
Best Battery For Home Energy Storage
- 48v 100ah Family Distributed Wall-Mounted Energy Storage
1. It is a new uninterrupted power supply with DC 48V and 100AH capacity.
2. It has the advantages of small size, lightweight, no memory effect, no pollution, long service life, high safety performance, and so on.
3 It can be used in both residences and commercial properties
The voltage platform is 51.2 v
The battery system consists of Lithium Iron Phosphate.
- 48v Mobile Energy Storage Lithium-Ion Battery
Times used: >2000
Battery system: lithium-ion phosphate
- 48v Cabinet Energy Storage
Usage scenario: For commercial sites
Battery Modular: 3U 48v 50Ah
Times used: > 2000 times
Battery system: lithium-ion phosphate
- 400v Hv Solar Energy Storage
Usage scenario: Hospitals, Factories, Institutes
Voltage platform: 400V HV
Battery Modular: 102.4v 50Ah
Times used: > 3,000 times
Battery system: lithium-ion phosphate
- Osm Residential Solar Power Battery Storage
This system is one of the market’s most popular home battery systems. The system consists of a 48v 50Ah battery pack and can store up to 24kwh energy. It has a lifespan of >2000 charge/discharge cycles and is made with an LFP lithium-ion battery. This makes it a versatile and durable option for those looking for a home battery system.
- OSM 48v 500Ah Energy Storage Lithium Ion Battery
It is connected in series and parallel to create a higher voltage or capacity system. This modular design makes it easy to expand the system as your needs change. The battery has a long life span, with over 2000 cycles at 80% depth of discharge. It is also very efficient, with a round-trip efficiency of up to 95%.
The battery uses lithium iron phosphate (LFP) chemistry, known for its safety and stability. This makes it a good choice for safety applications, such as in homes with young children.
- 48v Household Solar Battery Storage
It is considered the best battery for home energy storage. It has a voltage platform of 48V and energy of 20kwh/10Kwh/24kwh. The battery modular is a 51.2v 100Ah 3.5U battery rack. It can be used more than 2000 times. The battery system is lithium iron phosphate.
- Residential Solar Power Battery Storage
It is one of the most popular applications for batteries. A 48V system is usually used for this purpose. The battery modular is a 51.2v 100Ah 3.5U battery rack. The total energy stored in this system is 20kWh or 10Kwh/24kwh. This system can be used more than 2000 times. The battery system is made of lithium iron phosphate, a very stable and safe material.
How Much Rechargeable Solar Battery System Storage Does My Home Need
The answer to this question depends on several factors, including the size of your home, your energy needs, and the amount of sunlight you get. You will need at least 1 kilowatt-hour (kWh) storage for a typical home. This is enough to power a small appliance for one hour or to run a 100-watt light bulb for 10 hours.
You will need more storage if you have a larger home or higher energy needs. For example, if you have a 3,000-square-foot home, you will need at least 3 kWh storage. And if you live in an area with lots of sunlight, you may need even more. The best thing to do is to speak with a solar battery expert to find out exactly how much storage you need. They will help you size your system based on your specific needs.
OSM ESS Advantages
1. High Capacity and Efficiency: The high capacity of OSM ESS means that it can store more energy than lead-acid batteries, making it more efficient.
2. Long Life Cycle: OSM ESS is designed for a long life cycle, with a typical lifespan of 10 years or more. This makes it a more reliable and cost-effective option for energy storage.
3. Low Maintenance Costs: OSM ESS requires little to no maintenance, making it a more convenient and affordable option for energy storage.
4. Safe and Reliable: OSM ESS is a safe and reliable option for energy storage, with a low risk of fire or explosion.
5. Flexible and Scalable: OSM ESS is a flexible and scalable energy storage solution, making it ideal for various applications.
6. Environmentally Friendly: OSM ESS is an environmentally friendly option for energy storage with no harmful emissions.
OSM Residential Energy Storage Systems (ESS)
OSM Residential Storage Solutions (ESS) answer many power needs. They supply backup power during brownouts or blackouts, help take the load off the grid during peak demand hours, and can even generate income by selling stored energy back to utility companies.OSM Residential ESSs are available in various configurations and sizes to meet the needs of any home.
OSM48100 comes with two product models- OSM48100P and OSM48100S. These support battery units that can be connected in parallel or series to increase system capacity and DC voltage, respectively.