Solar battery technology is one of the core pieces of the electrification and solar power revolution thats happening right now. Reliable and affordable battery technology, after all, not only helps keep the lights on when the power is out, but it can also help store solar energy for use when the sun isnt shining. Once you understand the value of having solar energy storage, youll need to learn how to choose a battery for solar panels.
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Of course, no battery storage article would be complete without mentioning the Inflation Reduction Act (IRA), which unambiguously makes battery storage eligible for the Investment Tax Credit (ITC) now at 30% until .
Even plug-in electric vehicles, which use similar energy storage, are playing a significant role in accelerating the advancement of the solar battery.
All of this leads to significant improvements in battery technology and drops in battery storage pricing. Likewise, more homeowners are considering battery storage as part of their solar projects. Lets look at some of the decision factors to consider when helping a customer determine the right battery for their home.
For solar customers truly looking to make the most of their PV system, a quality home solar battery can be a good choice. Theres no sugarcoating that theyre pricey solar batteries typically cost between $10,000 and $20,000 installed but if a customer can afford it, the benefits of installing a solar battery are substantial. And, as mentioned earlier, solar batteries are eligible for a 30% federal solar investment tax credit, and many local utilities offer battery incentives as well, which can bring the cost down considerably.
Lets also think about how solar batteries play triple-duty; theyre a power generator for emergencies, they can help lower energy bills over the long run, and they decrease a homes carbon footprint. All that considered, they are often well worth the investment if the adopter plans on keeping a home long-term. The payback period for solar batteries can be as little as five years, give or take a year or two, depending on other factors such as total system capacity and design and available incentives. Some benefits of solar batteries such as peace of mind and resiliency are priceless to some solar customers and should also be a factor in deciding if solar batteries are worth it.
Of course, knowing ROI and showing ROI to customers are two different things. Auroras Energy Storage tool lets you model battery load, system configurations and customization, and more for customers, so they can easily see the benefits.
NEM 3.0, also known as the Net Billing Tariff, significantly impacted Californias market for solar when it was passed in . We can argue over CPUCs intent with NEM 3.0, but it decreased the immediate ROI for solar and tamped down the market considerably.
Of course, solar installers are nothing if not innovative, and they have discovered new ways to deliver savings. A big way is by using battery storage for self consumption.
With time of use rates (TOU) and variable export rates it not only matters how much electricity a customer consumes, but when. This means that storing excess energy in batteries when the sun is shining and rates are relatively low and using it when rates are high can add a new way to save with solar + storage. There are even compelling use cases where solar energy is stored in a battery and exported to the grid during times when variable export rates are particularly high.
This is called energy arbitrage, and it can help customers to maximize the value of their solar system and reduce their reliance on the traditional electric grid, which can sometimes be unreliable or expensive. In addition, battery storage can also help to mitigate peak demand charges that are often imposed on commercial customers.
To learn how energy arbitrage works, see our post: Optimize your ROI story with solar + storage modeling for energy arbitrage.
There have been rapid advancements in the electrical energy storage industry in the past decade. One of the most notable is the development of modular systems, such as the Tesla PowerWall 2 (and now, the PowerWall 3). These types of batteries have greatly made energy storage more flexible, easy to install and transport, and more affordable to maintain.
More recent solar battery advancements include new developments in Lithium Ion Phosphate (LFP) cathodes for lithium-ion solar batteries. Unlike traditional cathodes that have been a fire hazard, LFP cathodes are said to offer lower cost, enhanced performance and improved safety. These have already proved beneficial for electric vehicle use.
Additionally, iron flow batteries (which are cheaper and last longer compared to lithium ion), are being used to make the electric grid more resilient to severe weather events.
Its not just the batteries that are evolving, but how we use them. In recent years, theres been the advancement of incorporating Artificial Intelligence (AI) into battery energy storage systems. By using AI technology, we can better monitor our solar storage systemsgauging things like solar output, weather conditions and seasonalityand gain insight into decisions like when to charge and discharge the solar batteries.
The rapid advancements in solar battery technology mean that newer batteries are entering the market while the older ones are still on the shelves. From traditional lead-acid, todays solar shoppers now have a wealth of battery types, technologies, and sizes to pick from. If you are looking at battery storage for a solar project, the first thing you need to know is how to choose the right one for your needs.
See how Cape Fear Solar Systems has achieved a 75% attach rate for storage.Most people, particularly homeowners, venture into solar power with limited know-how. The market has adapted to their needs by generalizing what a buyer should expect when investing in a solar system. This information is not always accurate.
The wealth of solar battery options can make it quite a daunting task. While most people go for a one-size-fits-all approach, this may not always be the best choice.
There are three good reasons why you should not go for a one-size-fits-all type of solar battery:
The one-size-fits-all battery is touted as the ideal choice for most people because a majority of buyers rarely ever know what to look for. However, it often trades various features and capabilities to meet the minimum requirements of different use cases.
Click the image to download the free Storage Sales Cheat Sheet.All solar batteries are made differently. Some manufacturers use robots, while others assemble batteries manually. The form of quality control can affect the quality of the batteries. Some manufacturers are known to use more lead and heavier grids, which impacts the performance of the cells in the battery. Most importantly, some brands of batteries are tested exhaustively for safety and performance while others are not.
As a result, it is not uncommon for batteries with similar specifications to have different performance and lifespans. Finding the right batteries for your solar setup may mean the difference between good and poor power system performance. It may also mean the difference between negligible or high maintenance.
Here are the most important considerations you should have on your checklist when shopping for a solar battery.
Batteries are rated in amp-hours, or simply amps. The indicated power rating is typically the fully developed capacity of the battery. This means that it may take tens to hundreds of charging cycles before the battery can reach the indicated full capacity. In other words, it can be misleading to test your battery after only a few cycles of charge.
You do not need to understand the physics behind electricity to estimate your power needs or properly size your batteries. If you already use power from the grid, this guide can help you estimate your power consumption based on your electricity bills.
As a rule of thumb, always estimate your peak power requirements using amp-hours. A battery rated 100 amp-hours, for instance, can theoretically put out 1 ampere of electric energy for 100 hours or 10 amps for 10 hours. When selecting a solar battery, understanding your power needs is the key to choosing a battery with sufficient energy storage.
Note that batteries with long warm-up cycles before reaching full capacity are more likely to outlast batteries that tout a high initial capacity.
The lifespan of a battery is a crucial factor that manufacturers compete on when designing robust solar batteries. The design process often focuses on making the battery resist heat and cold cycles to deliver peak performance for longer. The type of solar battery technology also plays a significant role in determining its lifespan.
There are three factors that affect the longevity of a battery that you should check when shopping for one are:
Solar batteries can be broadly categorized into two: flooded and sealed.
Flooded batteries are the standard lead-acid batteries used in vehicles and off-grid solar installations. They are affordable, and because they can be easily cleaned and serviced, have longer lifespans. When in use, these batteries generate small amounts of hydrogen gas.
Sealed batteries are also known as VRLA (valve regulated lead acid) batteries. They cannot be serviced or maintained because they are sealed. A charge controller maintains the fluids and plates inside the battery to prolong their lifespan. These batteries do not emit hydrogen gas when in use.
Solar power batteries can be classified by their kilowatt peak or kWp. kWp is the theoretical peak power output of the system in ideal conditions. The peak output is more of a measure of comparison than an absolute unit.
When choosing a solar battery, the kWp rating indicates the highest amount of power it can output at its best performance: the higher the peak power output rating, the better the battery.
The round-trip efficiency of a battery is the amount of energy that can be computed as a percentage of the energy used to store it. For instance, if 100 kWh of electricity is fed into a battery, and it can only output 90 kWh, the round-trip efficiency of the battery would be 90% (90 kWh / 100 kWh x 100).
Always go for batteries with a higher round-trip efficiency because they are more economical.
Ambient temperature is the average air temperature surrounding the battery or the temperature of the room in which the battery is installed. The rating indicates the optimum temperature under which the battery will perform normally.
The ambient working temperature of a solar battery is a crucial rating that is often overlooked. This is particularly important for people living in regions with extreme temperatures.
Many different manufacturers are competing to develop the ideal solar battery. Their design and manufacturing processes differ, and as such, the final products are also different.
Brand is an important factor when choosing solar batteries. Your priorities and budget should dictate whether to buy a battery developed by a new startup or a major automotive company. Regardless of your choice, be sure to scrutinize the warranty details and go for the product that offers the most extended guarantee.
The prices of solar batteries range widely, and have fallen significantly over the years. The cost of solar batteries ranges between $200 and $750 per kWh. Lead-acid batteries, on average, cost around $260 per KWh, and lithium-ion batteries average at $271 per KWh. This brings the total cost of the batteries to between $5,000 and $7,000. The actual prices may vary depending on your location and available brands.
Note that the ITC provides an incentive for installing a solar power system in the US. Again, the tax credit for installing a residential solar system is 30% until , thanks to the ITC update.
For more information, please visit House Storage Battery Manufacturer.
Click above to get the free Pocket Guide to Selling Storage.The type, or technology, is the most crucial consideration when shopping for a solar battery. Your budget and specific needs should determine the type of battery that you choose.
Tried and tested, lead-acid batteries are the standard for electrical energy storage. This type of battery has been around since it was invented in the 17th century, yet it is still the most used in storing power. Until five years ago, these were the only practical batteries that could be used to store electricity for domestic or industrial use.
The most notable strength of lead-acid batteries is that they are affordable. They are widely installed in rural and remote areas because they are cheaper to buy than to pay for a power mains grid extension.
Lead-acid batteries are deep-cycle batteries, meaning that they can output steadily over a long period. Their discharge rate is constant. These batteries come in both flooded and sealed varieties. They both work on the same principle.
At first look, lead-acid batteries are dull they are bulky, ugly, and heavy. Because they take up a lot of space and their ambient working temperature is below room temperature, they must be installed in a climate-controlled shed.
Lead-acid batteries are the first choice for an off-grid solar system installation. Their price and stability make them very dependable and easy to upgrade or replace. Most emergency power backup systems in the country also still use lead-acid batteries.
Li-ion batteries are becoming popular because they are the go-to power storage for electric vehicle manufacturers. The potential of lithium-ion as an energy storage medium is yet to be fully explored, but they are promising. However, at the rate that they are being improved, it is just a matter of time before they become the most popular battery for solar power storage. Teslas Powerwall battery is the most popular power storage solution that uses this technology.
There are two types of Lithium-ion batteries on the market. The first and most popular among electric vehicle manufacturers is the NMC (nickel-manganese-cobalt) chemistry type. The other is a LiFePO 4 (lithium iron phosphate) type battery.
The NMC-type battery has a high cycle life, making it ideal for use in off-grid installations. LiFePO batteries perform exceptionally well in extreme temperatures, making them suitable for use in regions with extreme temperatures
Li-Ion batteries require minimal to no maintenance. They have a higher battery energy density. This means that a Lithium-ion battery can store more energy than a lead-acid battery of the same physical size.
Because they have longer life cycles, they have longer lifespans and higher depth of discharge. The Lithium-ion battery can deliver between 4,000 and 6,000 cycles at an 80% depth of discharge and still last for up to 15 years.
The main downside of Lithium-ion batteries is that they are expensive. They cost as much as double the price of lead-acid batteries with similar energy storage capacity. These batteries, unlike lead-acid batteries, are also very fragile and require a stabilizing circuit to ensure safe operation.
Lithium-ion batteries have found a home in the automotive industry. The demand for this battery is at an all-time high as electric vehicle manufacturers jostle to get a hold of it.
Also known as redox flow, the flow battery is a new entrant into the solar battery race. These batteries use a water-based zinc and bromine solution and vanadium to store electrical charge. There are only a handful of companies making this battery today, the most notable being Redflow, an Australian company.
Flow batteries are highly scalable. This means that the capacity and outputs of the battery can be increased or reduced proportionally to the battery size. They differ from the other batteries on this list in that deep discharge has no effect on the performance or lifespan of the battery. They have a long life cycle and very low self-discharge. It is also noteworthy that flow batteries do not heat up during use.
The fluids used to make the flow battery are prohibitively expensive. While the technology on which they work has been around for decades, these batteries are barely known in the mainstream because few companies produce them commercially.
Because of their chemistry, flow batteries are bulky. The zinc and bromine elements in the battery are also highly corrosive and toxic.
Flow batteries are ideal for use in situations where the batteries undergo multiple charge/discharge cycles every day. They are ideal for use in large-scale installations.
The sodium nickel chloride battery is a formidable competitor to the lithium-ion battery. This energy storage uses a unique chemistry that makes it fully recyclable. It does not emit toxic chemicals and presents no heating or fire risk. Unlike lithium-ion batteries, sodium-nickel chloride batteries do not require sophisticated cooling systems to work efficiently.
Because of its chemistry, the sodium nickel chloride battery is safe and reliable. It can operate optimally even at extreme temperatures of between -4°F and140°F. The batteries are fully recyclable because they have no hazardous or toxic chemicals in them.
They have a limited lifespan of about 3,000 cycles and only an 80% depth of discharge. This means that as much as 20% of the power it stores cannot be used. These batteries are also quite costly to install, particularly for residential solar systems and large projects.
Sodium Nickel Chloride batteries are best used in large installations in solar off-grid power installations and emergency power backup systems.
Saltwater solar batteries, also known as sodium-ion or seawater batteries, are a type of rechargeable battery that uses saltwater as the electrolyte. This makes them a more environmentally friendly alternative to traditional lithium-ion batteries since they dont contain any toxic or hazardous chemicals. While theyre not yet ready for large-scale adoption, theyre an exciting technology thats worth watching.
Experts often warn of a lithium-ion shortage, one advantage to a saltwater battery is that saltwater is abundantly available. In terms of supporting clean energy, you cant get much cleaner than thissaltwater batteries are made of eco-friendly materials and are easy to recycle. Additionally, they have a longer lifespan, nearly double that of other batteries on the market, and less of a fire risk.
The biggest disadvantage of saltwater batteries is that they have a lower energy density compared to other types of batteries, which means they store less energy in the same amount of space. Because larger batteries are required, it also makes saltwater batteries more expensive to produce compared to other solar batteries, which has manufacturers less interested in the investment.
Saltwater batteries are not commonly used for energy storage, mostly due to their high cost and lack of research.
The right battery and size for your customer depends on their specific power needs. Most first-time buyers use a solar battery storage analyzing tool to get faster and more accurate estimates.
The most highly recommended battery for most industrial and residential installations today is the lithium-ion battery. As the battery technology evolves, the batteries are getting more compact, power-dense, and cheaper.
If the budget is tight, or you need to install a basic solar system, then lead-acid batteries can be just as good. However, because environmental factors directly impact the performance and longevity of these batteries, be sure to weigh their features against expected consumption and climate, among other factors.
Schedule a personalized demo to learn more about how Aurora can help you add battery storage to your offerings.
Here are all the resources mentioned in this blog:
Solar panels themselves do not contain batteries. Solar panels produce electricity from the sun, and this energy is either immediately consumed or stored in external batteries for later use.
The most commonly used batteries in solar are:
When choosing a battery system, its important to balance two key factors:
Lithium-ion batteries will last the longest and perform the best over the course of their service life.
Lithium-ion batteries and more specifically, lithium iron phosphate (LFP) batteries are the safest batteries on the market today.
To determine how many batteries are needed for the solar project, calculate your total daily electric requirements (measured in watt hours, or Wh) multiplied by how many days of electricity you need the battery to store.
For example, for a 30 kWh home to run two days on battery power alone, the house would need six 10 kWh batteries.
Solar battery efficiency refers to how well a solar battery can convert and store energy from the sun. Its typically measured as a percentage, with higher percentages indicating better efficiency. This is an important factor to consider when choosing a solar battery, as it directly impacts how much usable energy you will be able to store and use in your home.
When you picture a battery, the first thing to come to mind is probably the disposable batteries you put in everyday appliances like your TV remote. But did you know you can power your entire house with (much larger) batteries?
Whether you frequently experience outages, are paying exorbitant electric bills, or simply want more energy independence, batteries can be a great investment for your home.
You don't need a home solar panel system to reap the benefits of batteries, but you'll get the most out of your system when you pair them togetherespecially if your utility doesn't pay you a lot for the excess electricity your solar panels generate and send to the grid.
We explain how to decide if backup batteries are right for you and, if so, how to get a battery system that fits your needs at the best price.
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