The National Oceanic and Atmospheric Administration (NOAA) predicts that the weather for June, July, and August will be warmer than normal.
In California, especially in northern parts of the state, there will be a 33% to 50% probability that temperatures will be above average.
The rest of the U.S. — with the exception of a few Midwestern states — can also anticipate a warmer summer.
No portions of the country can expect below-normal summer temperatures.

On Thursday, May 25, 2023, Gavin Newsom announced a detailed strategy to bolster renewable power in California state while preventing rolling blackouts during high-demand periods. Battery storage capacity has increased rapidly in the last few years, according to new data from the California State Energy Commission, growing to more than 5,000 megawatts this year from 250 megawatts in 2019.

In places like California, Home battery storage systems have skyrocketed in popularity during the past few years for many different reasons. Besides the obvious fact that they provide clean power, Californians who experienced threats of blackouts during last summer’s heat wave, more and more people are recognizing that the grid isn’t always reliable.
Recent events and climate change have spurred demand even further for these systems.

These systems can be charged by either electricity from your utility or solar power. Grid charging will provide backup power for 10 to 20 hours, depending on usage and the size of the unit. Although you’ll have a finite amount of power, it may be adequate if your outages typically are brief and spotty. However, when coupled with a solar panel system, the battery can recharge for as long as you need it until the grid kicks back on. One important thing to remember is that if you have a solar panel system without a battery storage system, you won’t have power if there’s an outage. That’s because most solar panels will shut down during out.

Therefore, the addition of energy storage is gradually imminent, simply using solar panels alone may no longer be able to meet the daily demand for electricity, predictable solar energy systems plus energy storage systems will be the choice of all people in the future, even with the application scenarios continue to change will still be the result.

For example, statistics show that 30% of RVs in use in the United States are currently retrofitted with solar systems, and the vast majority of RV users have designed energy storage solutions for their RVs, which can be achieved on the basis of energy storage solutions with solar systems without the need to enter the campground to delay the trip, a trend that is gradually expanding.
So what kind of energy storage battery will be our most worthy to consider the choice? Lead-acid batteries? Once the frequency of use of such batteries tends to be very short-lived, the cost of frequent battery replacement at the economic level is far more than other batteries.

Therefore, the service life of the battery, charge and discharge efficiency, economy, and stability is the point that users should focus on, From a comprehensive view, a lithium iron phosphate battery seems to be the most appropriate choice, even if the cheap poor quality B-grade lithium iron phosphate battery life is also longer than the service life of lead-acid batteries, and has a good charge and discharge efficiency and very high stability; then in the economic point of view? A 12V 100Ah lead-acid battery is expected to cost about $ 150, while a 12V 100Ah B-grade lithium iron phosphate battery is expected to cost about $ 300, double the price difference, but the service life is usually more than three times (even though many B-grade lithium iron phosphate business boasts a cycle life of 4000 or 6000 times), a simple conversion of economic perspective B-grade Lithium iron phosphate battery wins.

If you have a budget, do not want to spend a lot of energy because of battery wear and tear, then you can use A-grade lithium iron phosphate batteries(Find peace of mind with high quality A-grade batteries at GECENinov), for example, 12V 100Ah capacity, the price is often $ 500 up, the price is three times more expensive than lead-acid batteries, but the high quality of A-grade lithium iron phosphate cells often in the deep cycle times is more than 5-10 times the lead-acid batteries, the same is also B-grade lithium iron phosphate about 3-5 times. Perhaps in that short period of time when you first buy the battery, whether you buy a lead-acid or B-grade lithium iron phosphate or A-grade lithium iron phosphate, may not feel much difference in normal use, but often over time, the cheaper the problem is exposed more quickly, at the same time, as a technical innovation, lithium iron phosphate is able to completely replace the lead-acid battery, therefore, as most of the users We all seek is cost-effective, but this does not mean spending less money, the battery market price is mostly transparent, you need to think about how long you expect to use this battery before you buy, and then choose the right price point of the battery.

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