How long will my battery system last? Privato
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How long will my battery system last?
Some batteries will also provide longer backup than others. The 13.5-kilowatt-hour capacity of Tesla’s Powerwall, for instance, outranks Sunrun’s Brightbox at 10 kilowatt-hours. But those systems have the same power rating, at 5 kilowatts, which means they offer the same “maximum load coverage,” according to WoodMac’s director of solar, Ravi Manghani.
“Typically, during a power outage, one wouldn't aim to draw at the maximum 5 kilowatts," a load roughly equivalent to running a clothes dryer, microwave and hair dryer all at once, Manghani said.
“An average homeowner typically will draw 2 kilowatts maximum during an outage, and an average of 750 to 1,000 watts during the course of the outage," he said. "This means a Brightbox will last for 10 to 12 hours, while a Powerwall will last for 12 to 15 hours.”
Certain applications and programs already on the market, such as Sense and Powerley, can also give homeowners an idea of their usage. But in a Catch-22, the apps might require power to function, though data on past power usage could help homeowners identify which appliances to prioritize.
Recent data suggests that many homeowners installing energy storage systems are opting for two batteries instead of one for greater backup capacity.
John Berger, CEO at residential solar and storage company Sunnova, told Greentech Media that the company has seen an influx in demand for storage from existing customers looking to update their systems, as well as new customers asking for batteries from the start. In terms of how long the system can last, however, Berger offers what he called “a rather unsatisfying answer.”
“It depends on how much power your home uses, how big it is, what the weather is in your particular area,” he said. “Some of our customers may be able to have a whole home backup with one or two batteries, and then in other cases that may still not be enough.”
What are RV Lithium Batteries?
Simply put, RV Lithium Batteries are rechargeable 12-volt batteries that have become a popular replacement for lead-acid batteries. This is particularly true of folks who have solar power on their rigs.
RV lithium batteries are based on a newer, more efficient lithium-ion technology known as LiFePO4 or lithium iron phosphate. For the purposes of this post, whenever we talk about “lithium” we’re referring to this specific technology.
Aside from the technology on the inside, the difference between lithium batteries and lead-acid batteries essentially boils down to the efficiency of use and lifespan.
Lithium batteries can be fully discharged without damage. But once a lead-acid battery is discharged below 50 percent, it suffers permanent damage and will no longer recharge to its full capacity. Because lithium batteries can safely be fully discharged without damage (so their rated capacity is fully usable) a lithium battery provides much more usable amp hours than a lead-acid battery rated at the same capacity… about double!
While a 100-amp-hour lead-acid battery can only safely be discharged to roughly 50 percent, a 100-amp-hour lithium battery can be depleted to virtually zero without damage. So, you only get about half as many usable amp hours from lead-acid as you do with lithium.
An RV lithium battery can also be depleted and recharged (or cycled) thousands of times. Lead-acid batteries may only have as few as several hundred cycles in them before needing to be replaced.
Additionally, lithium batteries are much lighter than lead-acid batteries, which can be a huge help for RVs that are at or near their maximum weight carrying capacity. And because it takes fewer batteries to equal the same amount of usable amp-hours, lithium batteries ultimately use less space than their lead-acid counterparts (again, a big benefit for smaller RVs that need more power but don’t have the room to add more batteries)
However, when you consider that lead-acid batteries are likely going to need to be replaced much more often, lithium batteries can cost less over time.
It’s also important to consider the charging time saved. Lithium batteries will charge more quickly and more efficiently, so you’ll also save fuel that might otherwise be required to run your generator. You may even save time and the hassle of seeking a sunny spot for your solar charging when you know you’ll be able to rely on the power of your lithium batteries for longer.
Plus there’s no more “battery anxiety” with lithium batteries. Lead-acid batteries need to be handled fairly delicately when it comes to discharging since you can’t exceed 50% of their rated capacity. So that can lead to recharging them more often, just to avoid exceeding that limit. With lithium batteries, an amp is an amp is an amp. Doesn’t matter if the battery is at 100% charge, or 39%. They just provide power. And as long as you have the number of amp-hours you need to make it through the night… you’re good!
What is electromobility?
In order to replace fossil fuels in transport, a number of alternative energy sources are being investigated. There are currently two main solutions emerging: hydrogen fuel cell technologies and electric vehicles. When it comes to the term electromobility, it covers both fully electric vehicles, hybrid electric vehicles and vehicles using hydrogen fuel cell technology. All e-mobility vehicles are based on the idea of electricity as “fuel”. This approach is considered forward-looking. Looking across the entire energy chain, only electricity provides efficiency gains and, as long as it comes from renewable sources, a significant reduction in CO2 and greenhouse gas emissions.