Global electric vehicle sales continue to be strong, with 4.3 million new Battery Electric Vehicles and Plug-in Hybrids delivered during the first half of , an increase of 62% compared to the same period in .
For more information, please visit our website.
The growing number of electric vehicles on the road will lead to exciting changes to road travel and the EV charging infrastructure needed to support it. One of the more notable changes to the infrastructure we are seeing is the combination of EV charging equipment with battery energy storage systems.
The electrical network is far and wide. However, only some parts of the electrical grid are set up to support EV charging. With larger electric vehicle batteries and the growing demand for faster EV charging stations, access to more power is needed. There are 350kW + DC fast chargers, which could quickly draw more power than the electrical grid can supply in multiple locations. Fortunately, there is a solution, and that solution is battery energy storage.
The battery energy storage system can support the electrical grid by discharging from the battery when the demand for EV charging exceeds the capacity of the electricity network. It can then recharge during periods of low demand. Using battery energy storage avoids costly and time-consuming upgrades to grid infrastructure and supports the stability of the electrical network.
Using batteries to enable EV charging in locations like this is just one-way battery energy storage can add value to an EV charging station installation. Lets look at the other benefits of using battery energy storage with electric vehicle charging stations.
REDUCE EV CHARGING COSTS
Battery energy storage can shift charging to times when electricity is cheaper or more abundant, which can help reduce the cost of the energy used for charging EVs. The battery is charged when electricity is most affordable and discharged at peak times when the price is usually higher. The energy consumption is the same in kWh. However, electricity use has shifted from an expensive peak rate to a less costly off-peak rate.
This gives a competitive advantage as you have paid less for your energy than nearby EV charging stations, meaning you can either be more competitive on pricing to attract more EV drivers or maximize profitability per charge.
As you can see below diagram, the same amount of energy consumption is shifted from the peak rate to the off-peak rate.
REDUCE DEMAND CHARGES
As well as being charged for your energy consumption in kWh from your utility company, you will often be charged for your peak power usage in kW. This is the amount of power you draw from the electric grid in any 15-minute period. Battery energy storage systems can help reduce demand charges through peak shaving by storing electricity during low demand and releasing it when EV charging stations are in use. This can dramatically reduce the overall cost of charging EVs, especially when using DC fast charging stations. You can effectively shave the peak demand, as illustrated in the diagram below. Discover more about lowering demand charges.
IMPROVE RELIABILITY AND RESILIENCE
Battery energy storage can provide backup power to charging stations during power outages or other disruptions, ensuring that EVs can be charged even when the grid is unavailable. This is especially important in emergency or evacuation situations; governments and municipalities must ensure that essential electric vehicle charging infrastructure can work during these events. The below diagram shows the difference between EV charging with battery energy storage and those without.
INCREASE EV CHARGING CAPACITY
Battery energy storage can increase the charging capacity of a charging station by storing excess electricity when demand is low and releasing it when demand is high. This can help to avoid overloading the grid and reduce the need for costly grid upgrades. In the example below, you will see that you can effectively increase the output power by adding battery energy storage. In this application sizing the battery energy storage system based on available grid power and EV charging demand is very important to ensure the battery can be charged in times of low demand.
INCREASE RENEWABLE ENERGY USE
Battery energy storage can store excess renewable energy generated by solar or wind and release it when needed to power EV charging stations. This can help increase renewable energy use and reduce reliance on fossil fuels. Using renewable energy sources and energy storage to power EV charging stations makes it possible to reduce greenhouse gas emissions and improve the overall sustainability of the transportation sector. Renewable energy, energy storage, EV charging, and clean energy generation are keys to reaching global Net-Zero targets.
ENHANCE GRID STABILITY
As mentioned earlier in this article, by storing excess electricity and releasing it when needed, battery energy storage can help smooth out fluctuations in demand and supply on the grid, improving overall grid stability and reliability.
IMPROVE EFFICIENCY
Battery energy storage systems can improve the overall efficiency of EV charging stations by reducing the amount of electricity lost during transmission and helping to optimize the charging process.
ENHANCE CONVENIENCE
With battery energy storage systems in place, EV charging stations can provide reliable, on-demand charging for electric vehicles, which is essential in locations where access to the electric grid is limited or unreliable. This can help to improve the overall convenience of EV charging for users and help enable EV charging anywhere.
Below is a video of an EVESCO battery energy storage system installed with DC fast charging stations.
Combing energy storage for EV charging has several benefits, as highlighted above, and as electric vehicle ownership grows, so will the demand for this type of infrastructure. We at EVESCO are excited about this innovative combination of technologies and are on hand to help you meet your EV charging needs.
The potential of solar-powered charging
Solar EV charging utilizes the free and infinite power of sunlight to recharge your electric vehicles on a daily basis, wherever you are in the world. As technology in the e-mobility industry continues to improve dropping prices and increasing efficiency outfitting your home with a solar EV charging system can make owning an EV more convenient, less expensive, and more environmentally friendly.
To maximize the potential of any homegrown EV solar setup, installing a battery storage system is highly recommended. Battery storage for solar charging helps neutralize the limits of EV solar charging by providing ready access to renewable electricity whenever you need it, rather than only during sunlight hours. Moreover, storing surplus solar electricity in household batteries can further reduce utility bills through peak shaving and load shifting.
Whether you already charge your EV with homegrown solar power or are hoping to in the future, this guide to battery storage for EV solar charging aims to illuminate the ways batteries and solar panels work together, as well as detail the various pros and cons of solar battery storage, so that you can make an informed decision on your future investment.
How does solar battery storage work?
If youre wondering how battery storage works with solar, its worth first noting that storage batteries arent an absolute necessity for solar EV charging. Solar panels installed on your roof or elsewhere on your property convert the energy found in sunlight into consumable AC electricity. Solar panel owners can then use this electricity to power both home appliances and recharge their electric vehicles, provided they do so during daylight hours, when their panels are exposed to sunlight.
Battery storage comes into play when it becomes preferable for you to have 24/7 access to the energy your solar panels generate and to store your generated solar electricity when youre not using it. Battery-linked solar EV charging setups are known as solar-plus-storage systems.
After all, most EV owners tend to recharge their cars at home, when they get back from work or overnight. Yet, because the majority of solar electricity is generated around the hours of midday, there is a mismatch between driver charging preferences and energy availability.
Solar-plus-storage systems store all or some of the electricity generated by solar panels in long-lasting batteries so that this electricity can be used to recharge EVs and power household appliances at any time, day or night.
In solar EV charging systems where batteries are not used, any solar electricity not consumed during the day is fed back into the grid, and thus cannot be reclaimed later in the day for EV recharging purposes.
Considering most EV drivers are employed in full-time positions, we may imagine that your home tends to use the least electricity during typical working hours (9-5) when your solar panels are producing the most. As such, adding batteries to your solar panels enables you to get the most out of their solar array, without wasting any surplus energy produced.
Do solar panels have batteries?
Solar panels do not come with battery storage units attached. The solar panels you install on your roof will, if not linked to a separately purchased battery system, be wired directly into your home electrical circuit. During daylight hours, the energy produced by your panels can be used to recharge your EV or power household appliances, but without a battery system any energy not used (because, for example, of lower energy consumption during the day) will be sent back to the grid.
Exploring different types of battery storage solutions for EV solar charging
There are myriad different types, brands, and models of batteries available for use alongside your household solar panel array. The battery you choose will depend a great deal on your projected recharging needs, household energy consumption, budgetary constraints, and available space.
A few industry terms worth explaining here include:
Depth of discharge
Depth of Discharge refers to the maximum amount of energy you should use from your battery at any one time in order to keep it in a healthy working condition.
You can think about DoD by thinking of your smartphone. Rather than letting your run all the way down to 0% battery before recharging, its better both for you and your batterys lifespan to recharge it once it reaches around 20%. In the context of a solar battery, this would be described as the having a DoD of 80%.
Different battery storage systems for solar EV charging have different DoDs, though 80-90% is common. Some, like flow batteries, have 100% Depth of Discharges, which is handy for the EV owner, but does come with its own unique drawbacks, such as the units occupying more physical space than other batteries.
AC or DC?
Solar panels produce electricity as a direct current (DC), which is inverted to alternating current (AC) for compatibility with household appliances, including your home EV charger. Batteries, however, tend to store electricity as DC. As such, there are two different types of solar storage solutions available: AC-coupled and DC-coupled. You can read more about the differences between AC and DC electricity here.
AC-coupled solar batteries are the most common type and are necessary if retrofitting batteries to a pre-existing solar array (but more on that later). The one drawback to AC-coupled batteries is that some of the electricity generated by your PV array is lost during conversion prior to battery storage.
DC-coupled batteries can only be installed in tandem with a new solar panel installation and can be directly linked to solar panels with no need for an intermediary inverter. This way, DC electricity generated by your panels is fed directly, with minimal energy loss, to your battery storage units.
Note, however, that any stored solar electricity used to recharge your EV would still require inversion before being fed to your home charging station since these currently use AC.
Lead acid vs. lithium-ion batteries
Another consideration to make when shopping for solar panel batteries is their chemical composition. Mostly, you will have a choice between lead acid batteries, and lithium-ion batteries. The principal differences between the two are lifespan and cost.
Lifespan
Lead acid batteries have shorter lifespans compared to their lithium-ion cousins: around 2-3 years. In contrast, lithium-ion batteries typically last for 10 years or more.
Cost
What you gain in longevity with lithium-ion solar EV charging batteries, you pay in price. Lithium-ion is more expensive than the lead acid alternative, leaving you to weigh the pros of a longer lifespan against your budget.
How much does a solar battery storage system cost?
Speaking of budget, lets now take a look at the kind of money you can expect to spend on quality battery storage for solar EV charging.
At the low end, you can expect to spend anywhere from under $4,000 USD to around $9,000 USD, depending on size and battery type, before installation. This can equate to around $500-$1,100 per kWh of battery capacity. At the high end, however, you could be looking at an initial investment of up to $20,000 USD per battery unit.
The costs of solar EV charging battery installation can vary depending on the contractors you use, whether the battery system is being retrofitted, or whether it is being installed alongside a solar panel array. To give a ballpark figure, you could consider budgeting an additional 10% to 15% of your batterys unit price to pay for installation.
Link to 潞安
Additional resources:
What is the holy grail of lithium batteries?
Half Cut (Split Cell) Solar Panels: Better Efficiency & Shade ...
Top 5 Reasons to Buy Solar Inverter Now: Answers to Your Solar Questions!
Maximizing Savings with High-Efficiency 3KW Solar Inverters
Maximizing Energy Efficiency: Hybrid Solar Systems Explained
Top Affordable Local Inverter Prices You'll Love
Revolutionizing Energy: Is the 10kw Off-Grid Inverter the Future of Power Generation?
Long-term savings
With the right battery storage installation for your home solar EV charging setup, you use 100% of the electricity your solar panels generate. As such, you may expect to offset the cost of your utility bills by however much electricity (measured in kWh) your panels produce.
Granted, it is a bit of a simplified formula, as it depends on how much electricity you store vs consume while generating solar power, but it will give you a ball-park idea.
So, to calculate your potential long-term savings, youd first need to know your average annual energy consumption and the annual cost of your electricity bill, as well as your panels projected average annual energy production. You can use these figures to determine how much your utility bills may be reduced by with the addition of battery storage for your solar panels.
The thing is, solar can only be generated while the sun is out. Often exactly the time when we are out and about. However, it becomes interesting when you are able to store that energy and use it while the sun is down.
For example, lets say your home uses 2,700kWh of electricity a year, costing you $918 USD (or $0.34 per kWh) via the grid. Then lets say that your solar panel array generates 2,000 kWh of electricity yearly, over half of your annual usage. If you are able to use all of that energy by being able to store it when you're not at home. Your savings would amount to about $ 680 per year (2,000 x 0.34).
Return on investment (ROI)
With the above figure in hand, you can work out the expected ROI for your battery storage purchase. Simply divide the overall cost of the battery units and installation by the savings on utilities earned through your solar array.
A $4,000 solar battery system, for example, would show a return on investment after just six years, given the example savings calculated above ($ spent / $680 saved annually = 5.88 years).
Given the average lithium-ion solar storage battery comes with a warranty of 10 years or longer, the situation discussed above would start not only saving you money but effectively making you money well before it required replacing.
Available incentives and rebates can offset costs
Countries around the world are pushing for a move toward the type of environmental sustainability that e-mobility affords. As such, in an effort to promote greater EV adoption and residential renewable energy, there may be a range of tariffs, rebates, or other incentives available in your country to help you finance both your solar panels and solar panel batteries.
For example, the UK government offers a tax incentive of 0% VAT on new solar batteries installed before , provided they are installed alongside new solar arrays.
How much solar battery storage do I need?
Determining how much solar battery storage, or how many batteries, you need to store the electricity generated by your panels depends on a number of factors unique to your location and solar EV charging setup. Make sure you have the following information to hand before shopping for a solar battery storage solution:
The average kWh of electricity
generated by your solar panels daily
.
The average kWh of electricity consumed by your home (including for EV charging) on a daily basis
Which of the following functions do you want your battery storage system for solar EV charging to fulfill:
- Powering your home and EVs essential daily needs
- Powering only your EVs essential daily recharging needs
- Powering your home and EVs daily needs and acting as a backup generator, or generator for off-grid living
- Powering only your EVs daily needs and acting as a backup solar EV charging generator, or generator for off-grid EV charging
Note that depending on the role(s) you wish your solar batteries to fulfill, you will want to compliment the battery with a solar panel array capable of generating enough electricity to meet those needs.
Benefits of battery storage for solar EV charging
Having discussed the ways in which battery storage works with solar panels, well close our article with a quick insight into the key pros and cons of investing in battery storage for solar EV charging.
1) Storing solar energy lets you use it when(ever) you need it
Solar batteries expand the potential of household solar, allowing you access to clean, renewable energy at any time. In other words, battery storage for solar EV charging removes the limitations of solar panels, enabling you to recharge your EV overnight or whenever else you need to, using 100% free electricity.
2) Readily available energy backup
Batteries store as much solar electricity as they have the capacity for, meaning that depending on the size of your system, you may be able to store several days' worth of electricity at a time.
Having an energy backup system like this in place means you wont have to change your EV charging behavior during times of low solar generation (such as during storms or on cloudy days). Moreover, using your solar batteries as a backup generator effectively keeps you, your house, and your electric car covered during power outages.
3) Enjoy the reliability of uninterrupted charging
By charging your EV with solar electricity stored in a battery, your household EV charger receives a steady, consistent flow of electricity, enabling a reliable and uninterrupted charging process.
When charging your EV with electricity fed directly from your solar panels, you may instead notice peaks and dips in charging speeds and power depending on the time of day or strength of the sun. This makes it more difficult to judge exactly how long your EV will take to recharge and is therefore a less convenient charging solution.
4) Peak load management and load shifting
Battery storage for home solar EV charging provides greater control over your household energy usage. In other words, it enables more efficient energy management. Two ways in which solar battery units can improve your energy management efficiency are peak shaving and load shifting.
Peak shaving is the process of avoiding triggering peaks in your grid-linked electricity usage by supplementing household energy consumption with renewable energy from your solar batteries.
Load shifting is what we call storing electricity in batteries to be used on loads (i.e., highly consumptive things like recharging your EV or running your clothes dryer) at times in the day when electricity is cheaper, and/or it is more convenient for you to use it.
Both of these energy management methods, enabled by solar battery storage, may save you extra money on your utility bills whilst reducing pressure on the grid. One UK-based estimate suggests solar-plus-storage systems save their owners 30% more on utilities than solar-only systems.
Cut your carbon footprint
Reducing our negative environmental impact is of high importance and a primary reason for EV adoption cited by many of the drivers we talk to. Adding a battery storage unit to your solar EV charging system can help to further reduce your carbon footprint by 7-15%.
Potential drawbacks of battery storage for solar EV charging
There are far fewer cons to battery storage than there are pros, but in the interests of transparency and accuracy, we feel its always worth mentioning the drawbacks that do occur.
1) A costly initial investment, prolonging ROI
As previously discussed, the initial investment required to install battery storage units for solar EV charging can be prohibitively high. If youre concerned about the costs associated with solar batteries, be sure to investigate local public and private schemes and incentives that may help you finance or reduce the initial costs of your ideal setup.
2) Shorter lifespans compared to solar panels
The average quality solar panel should last around 25 years before a drop in performance becomes noticeable or replacement is required. In contrast, even the most advanced solar battery units, such as the Tesla Powerwall, come with warranties of around just 10 years. This means that over the average lifespan of your solar panel array, you may need to replace your battery setup twice or even more.
3) Like solar panels, solar batteries for EV charging also lose efficiency over time
As youll have noticed with the battery in your smartphone, it becomes less efficient over time, storing less energy than it once did and requiring a more frequent recharge. The same goes for solar batteries and battery storage systems for solar EV charging. Lithium-ion batteries tend to be 95-97% efficient when new. By the end of their warranty, however, this efficiency is liable to have dropped.
Conclusion
Incorporating battery storage into your solar EV charging setup at home ensures you are able to make the most of the free, renewable electricity your solar panels generate.
Batteries provide your home and electric car with a readily available source of green electricity regardless of the time of day, not only saving you money on your utility bills, but further lowering your carbon footprint, relieving pressure on the grid, and making the EV recharging process more reliable overall.
Though solar panel battery systems, known also as solar-plus-storage systems, can cost a lot to purchase and install, they should still provide you with a return on your investment long before they require replacing.
To learn more about charging your EV at home using the power of the sun, check out the solar EV charging articles on our EVBox blog.
Want more information on pv energy storage charging system? Feel free to contact us.
Comments
All Comments ( 0 )