Batteries
ForzaSeries
Use One 5kwh standard module to fit all the instllation requirements & Release Your Inventory Cost.
SPC FORZA-B(Brick)- 5Kwh 10Kwh 15Kwh 20Kwh LiFePo4 Brick Solid State Battery 5.12Kwh Power Home Solar Energy System
Transform your 5Kwh solid battery module into a space-saving brick-style ESS solution with our brick-style accessories to Maximize storage efficiency and convenience
Forza-B series products are based on 5Kwh battery model, adding parts to make it more beautiful, each module is independent, ultra-thin thickness, can be installed against the wall, does not occupy space. It can be used together with VnicePower's matching off-grid inverter. Installed on top of the battery to form an off-grid energy storage system.
Save space, don’t occupy space
Support 6pcs parallel connection to expand capacity
Model | Forza-B10 | Forza-B15 | Forza-B20 |
Nominal Voltage | 51.2V | ||
Nominal Capacity | 200Ah | 300Ah | 400Ah |
Energy | 1024Wh | 1536Wh | 2048Wh |
Dimensions | 685*137*948mm | 685*137*1422mm | 600*600*1896mm |
Weight | 106Kg | 159Kg | 212Kg |
Work Voltage Range | 43.2V-58.4V | ||
Max Continuous Charge Current | 100A | ||
Max Continuous Discharge Current | 100A | ||
Design Life | 15 years | ||
Cycle Life | > 6000Cycles@0.2C&25℃ 80%DOD | ||
Communication | CAN,RS485 | ||
Water Dust Resistance | IP21 | ||
Charge Temperature | 0℃to 50℃@60±25% Relative Humidity | ||
Discharge Temperature | -20℃to 60℃@60±25% Relative Humidity | ||
Storage Temperature | 0℃to 40℃@60±25% Relative Humidity | ||
Design Standard | IEC62619,UL1973,CE,UN38.3 |
5KW solar system lithium ion battery
A 5KW solar system is a medium-sized system perfect for family homes, small
commercial buildings, or larger homes with less energy usage.
Preparation: 14 solar panels, 5kw lithium ion battery, CEC approved 5KW
inverter, installed by qualified retailers.
It is known that electricity bills are a great expense for many families in
developed countries to deal with each month. Rising tariff costs have driven
many homes, offices, and commercial enterprises to seek more cost-effective ways
to power their places. A 5KW solar system is an excellent alternative and widely
suited to many houses
5KW systems can provide more than the total energy consumption for the average
home, making it an obvious, and relatively inexpensive way to reduce your energy
bills.
Application Scenarios
1: Household electricity for 5-8 people
2: Little Farm, Villadom
3: Remote area
4: Emergency standby power
Is a 5kW Solar System Suitable for My Home?
A 5KW solar system is suitable for medium-sized homes with an energy bill
between $400-$600 per quarter. Determining household energy needs by the number
of people in your home can be unreliable, but as a rule of thumb, a 5KW solar
energy system and 5kw lithium battery are best suitable for an average 4-person
household.
If your home does not need to use the air conditioning, or a heated pool, or
regularly uses large white good appliances, then a 5KW system should cover your
usage needs. If you have an energy-hungry home and use more than 20-30KW a day,
a larger system may be better suited.
It can comfortably supply 20 KWh daily for an average household of four to five
occupants.
If your home has a roof facing north, east, or west, and your roof has enough
space, then a 5KW solar photovoltaic system will suit your home.
How Many Solar Panels Are In A 5KW System?
The number of panels in a 5KW system depends on the wattage and size of the panel. A 5KW system produces 5000W of power. So, the number of panels, multiplied by the wattage of each panel, needs to equate to 5000W. On average, there are between 13-20 panels in a solar system, depending on the output of the solar panels themselves. The higher each panel’s wattage, the fewer panels a 5KW system will require.
The panels produced nowadays have a wattage as high as 400 W. below is a table showing the average number of panels needed for a 5KW system relative to the power output of the panels:
Panel Power Output | Number of Panels for a 5kW System |
200 | 25 |
250 | 20 |
300 | 17 |
350 | 15 |
400 | 13 |
FAQs: 5kw Solar Systems & 5 kwh lithium ion battery
If your home is suitable for solar, you’ll need a roof space between 25 – 35
m² to install a 5kW solar system.
Solar panels come in various sizes, depending on the manufacturing company, as
we mentioned above.
A panel measures 1.7m x 1m in size and consists of 14 to 20 panels, based on the
wattage.
You may plan to install a solar system with 370 W per panel. In this case, a 5KW
system will consist of 14 solar panels.
However, to determine if your roof has enough space, firstly, you need to know
if your roof is suitable for solar, including if it has multiple orientations or
is made of hazardous material.
Country | Cost Per KW |
India | $793 |
China | $879 |
Canada | $2,427 |
Russia | $2,302 |
Japan | $2,101 |
South Africa | $1,617 |
Australia | $1,554 |
United States | $1,549 |
France | $1,074 |
Germany | $1,113 |
Likewise, the rough cost of a 5KW solar system in France should be—$1074*5=$5370.
There are four important factors that influence the cost of solar panels.
Wholesale equipment costs: As a young industry, factories have been able to automate processes, increase manufacturing and logistics scale and dramatically reduce the cost per watt of a solar installation.
Compensation: In order to encourage households to select solar energy, the government implements intriguing policies to attract citizens to select solar energy, such as The Solar Rebates. The introduction of local solar rebate schemes in particular states has a dramatic effect on the cost of solar.
Competition and Cheap Solar: there are thousands of contractors to install solar. As a result, the margins have been forced to be very slim in the market.
On average, a 5KW system will save the average homeowner $56,521 over the
course of its lifetime, with an average annual savings of $1,222.0 per year. The
actual amount a homeowner will save depends on the amount of power used in the
home, the orientation of the solar panels, and the quality of the system.
This is because a 5KW solar system will produce on average 21 kWh per day;
multiply that by the number of days in a month (30), and this will amount to
630kWh of energy (21kWh×30=630kWh); multiply that by the number of days in a
year (365), and this will amount to 7,200 kWh of energy (21 kWh x 365 = 7,665
kWh).
The average price of electricity in Germany is 0.333 U.S. Dollars per kWh for
households and 0.260 U.S. Dollars for businesses. Now, if your household somehow
used all of the 7,665 kWh of energy produced by the solar system in one year,
you would still reach an annual saving of $2552.445. There is the electricity
price in some countries. As you can see, the electricity price in these
countries are very high, so the solar energy is a great alternative.
Even if you do not run out of all the power they produce, you can still save a
lot of money in the long term because you don’t have to pay electricity bills.
Not alone in these countries with high electricity prices.
A 5KW solar system is certainly powerful enough to cater to the average
electrical needs of a four-to-five-person household.
However, power compatibility depends on:
Utilities and home appliances that consume energy and therefore determine the
maximum power usage in your household.
Your lifestyle. If you work from home, you’ll consume power all day, unlike a
job where you can turn off the power supply until you return from work.
Any electrical vehicles you own. If you have a Tesla or plan to buy one, a 5KW
solar system won’t be enough to power both the car and your household.
Your average daily energy usage during summer and winter.
Your solar system power compatibility depends on the above-listed factors and
how these align with installation in your area.
To understand if a 5KW system can power your home, you’ll divide your average
daily usage by the local peak sun hour. You can find your average daily use on
your electricity bill.
Average daily usage (kWh) / the local peak sun hour=Your recommended solar
system size. Once again this is because a system will produce the times of the
local peak sun hour its size in power per day.
If the kilowatt per hour displayed on your home electricity bill shows you
consume 20 kWh per day, and the peak sun hour is 4 hours, a 5kW solar system
will be enough. Anything higher than 20 kWh usage per day implies it won’t be
sufficient.
This figure however depends on where you live, your cost of electricity, your
feed-in tariff, and your daily energy usage.
To determine how long it would take to pay off a system, you must calculate the
total monetary value of the energy produced by the system on an annual basis,
and divide the cost of the system by this figure.
You can do this by figuring out what the cost of power is, how much you will
export, and use in the home, and what your daily savings are.
A 5KW solar system generates 21kWh of power per day on average. The actual
amount a 5kW solar system will produce on a given day is impacted by the average
sunlight received in your area, the weather, and the orientation of your solar
panels.
A peak sunlight hour is the equivalent amount of sunlight received during the
middle of the day if solar panels are exposed in the sun during midday for 4.2
hours. A 5KW system will produce 5KW of power for every peak hour, so over 4.2
peak sun hours, a system will generate roughly 21kWh(4.2*5kW=21kW)
The amount of direct sunlight available in your location is the primary concern
in calculating how much power your solar panels will generate, as the weather
and climate will impact the total sunlight absorbed by the panels. For example,
clouds or overcast weather can drastically reduce a system’s production.
High-quality 5kW solar systems come with a warranty of at least 25 years, and
an estimated lifespan of 30 years. This doesn’t mean that the system will stop
producing energy after 25 years. It just won’t be as energy-efficient as it was
previously. This is because panels degrade over time due to exposure to the
sun’s heat and light. This refers to as Light and Elevated Temperature Induced
Degradation. Higher quality panels are more resistant to this degradation and
perform at their peak for a longer time.
A report by the National Renewable Energy Laboratory (NREL) in 2012 reveals that
solar panels degrade by 0.8% per year on average. As long as external forces
don’t damage the panel, the system will continue to serve you for between 25 to
40 years. By year 25, a solar panel is expected to perform at 80% of its
original efficiency.
You should also consider inverter degradation. Residential solar inverters have
shorter lifespans. They normally last about 10-15 years (with
5-to-10-year-warranty). This means you will have to replace your solar inverter
sooner than the actual panels.
You can extend the longevity and performance of a solar system through proper
maintenance and cleaning.
The short answer to this question is yes.
Installing battery storage systems with a 5kW solar system will enable you to
use more of the energy you produce.
According to reports, installing a 4 kWh battery with your 5kW system for
everyday use can boost the amount of self-generated solar power a household
consumes from 30% to 60%.
That’s a considerable increase in the amount of self-generated solar power.
But whether you should install a battery depends on your budget, energy usage,
and more.
If you plan to reduce your carbon footprint, save money or reduce your home
electricity bills, installing a battery with a 5kW system is an excellent first
step. But you should also consider the additional cost of battery installation,
your payback period, and how much you are likely to save over time.
A few things to consider before going solar are available space, energy
needs, cost, and your overall aims for solar system installation.
A smaller system will produce less electricity than a larger system. If you’re a
two-person household with low energy consumption, a smaller 5kW system will be
plenty for daily use.
But if you want a system that will generate extra power or maybe you plan to buy
an electric car in the near future. In either situation, a larger system is the
better option.
The cost is also an important factor since larger solar systems will cost more
than smaller solar systems, impacting the payback period.
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