Energy Storage Systems Pros and Cons

Energy Storage Systems Pros and Cons

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With the requirement for energy growing by leaps and bounds in all aspects of life, it is wise to save energy for the future, instead of wasting away the excess. This is where a home energy storage battery comes into the picture. When attached to the grid-based system , the battery stores sustainable energy and supplies it during the times when you cannot gain access to solar power or other sustainable energy resources, such as on cloudy days or after the sunset. In case there is a power outage, the battery ensures that you can charge your devices and carry out other daily activities without any interruptions.

There are a few things you must consider before you decide which system you should buy for your residential energy storage solution. One of them is what are the advantage and what are the disadvantages of owning an energy generator. Here we will try to explain some points for you.

Pros:

Battery Backup

First and foremost, with a residential battery, you will be able to store energy for future consumption. The grid solar energy systems that are installed in your home harness solar power during the day. As the sun goes down, you lose your source of energy. But once you invest in a battery, you will be able to stockpile the excess energy produced during the day and use it whenever required. So even when you don&#;t have access to daylight, all your energy needs will be taken care of by your residential storage battery.

Impact on the Environment

Conventional energy sources, such as fossil fuel, lead to environmental pollution. But when you opt for non-traditional, sustainable energy, such as solar or wind power, you reduce the carbon footprint. This is one of the primary reasons why energy storage batteries are so much in rage today.

Grid-Independent

Solar PV systems leave you entirely dependent on the grid for power supply. However, if you wish to go grid-independent, residential energy batteries can be a viable option. Instead of staying at the mercy of the weather, you can run your electronics with the energy that your battery has stored.

Compact

Gone are the days of bulky batteries that required huge storage rooms. You can keep the modern residential batteries conveniently at any part of your house.

Monitoring

Thanks to the latest technological innovations, you can now monitor your home&#;s energy production and storage with ease. You can access the system whenever you want and wherever you want. To allow greater control, you can also get batteries that come with remote control options.

Cons :

Expensive

One of the major drawbacks of an energy storage system is its hefty price tag. If you choose a energy storage system from a famous and renowned brand then it might be an additional cost that you have to bear along with your photovoltaic grid

Maintenance

The maintenance of energy batteries is a crucial element. The process of cleaning and maintaining entirely depends on the type of battery you&#;re using. You have to ensure that you take the highest amounts of precautions while dealing with the battery, and don&#;t use anything other than distilled water to clean it. But in case you opt for the latest lithium-ion batteries , you won&#;t have to worry about complex cleaning procedures.

Conclusion:

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Solar panels can be coupled, or linked, to a battery either through alternating current (AC) coupling or direct current (DC) coupling. AC current flows rapidly on electricity grids both forward and backward. DC current, on the other hand, flows only in one direction.

DC current is what is generated by solar panels and stored by batteries, but because appliances use AC current (just look at the AC circuit board you have in your home) the current must be converted via inverters.

In the past, AC-coupled BESSs were most often used with residential and commercial solar installations, and DC-coupled systems were used for remote and off-grid installations, but more options for DC-coupled systems have become available. Equipment manufacturers are developing streamlined and standardized power electronics equipment for DC-coupled BESSs.

Over the past decade, inverter technology has advanced and resulted in the development of new AC-coupled and DC-coupled systems. Let&#;s find out more.

What are AC-coupled systems?

In AC-coupled systems, there are separate inverters for the solar panels and the battery. Both the solar panels and the battery module can be discharged at full power and they can either be dispatched together or independently, creating flexibility in how the system operates. The solar panels and battery can either share an interconnection to the grid or run on separate interconnections.

AC-coupled battery energy storage system diagram. Source: RatedPower

AC BESSs comprise a lithium-ion battery module, inverters/chargers, and a battery management system (BMS). These compact units are easy to install and a popular choice for upgrading energy systems and the systems are used for grid-connected sites as the inverters tend not to be powerful enough to run off-grid.

It&#;s worth noting that because both the solar panel and the battery are DC-current compatible, the current will need to be converted three times in an AC-coupled system.

What are DC-coupled systems?

DC-coupled systems typically use solar charge controllers, or regulators, to charge the battery from the solar panels, along with a battery inverter to convert the electricity flow to AC.

DC-coupled battery energy storage system. Source: RatedPower

The solar panels and battery module use the same inverter and share the grid interconnection, reducing the cost of equipment. This also reduces power losses from inverting the current and running separate interconnection lines to the grid, as the solar array and battery are dispatched as a single facility. But this offers less flexibility than an AC system.

What are the advantages of AC-coupled battery systems?

There are several benefits to using an AC-coupled BESS for your solar plant, including:

• Retrofitting: AC-coupled batteries are easy to install on an existing solar panel system, and more can be added to expand capacity.

• Flexibility: Installers are not restricted in where the inverters and batteries can be located. AC coupling works with any type of inverter.

• Resiliency: The flexibility to install multiple inverters and batteries in different locations helps risk of an outage if an inverter fails. Having multiple inverters provides more combined power and battery faults do not have an impact on power generation.

• Versatility: AC-coupled systems enable batteries to charge from the grid as well as the solar panels and the grid, so if the solar panels are not generating enough electricity, the battery can still charge from the grid.

What are the disadvantages of AC-coupled battery systems?

• Cost: AC-coupled systems cost more than DC-coupled systems as they use multiple inverters.

• Lower efficiency: The stored energy is converted three times, from the DC current to AC current to supply the building and then back to DC current to the battery and again back into AC. Each conversion results in a small amount of energy loss.

• Supply limitations: AC BESSs are not designed to be used off-grid and as they are transformerless, they cannot manage the surge loads from multiple appliances.

What are the advantages of a DC-coupled system?

Where AC-coupled systems suffer in terms of efficiency and cost, DC-coupled systems have the advantage:

• Affordability: DC-coupled systems tend to be cheaper than AC-coupled systems as the solar panels and battery use a single inverter and less extra equipment such as voltage transformers and switchgear.

• Higher efficiency: Unlike AC systems which convert the current multiple times, DC BESSs only convert the current once, reducing energy losses and making them more efficient.

• Oversizing: DC-coupled systems allow solar panels to generate more electricity than the inverter rating. The excess energy can be used to charge the battery, an EV charger or a water heating system, whereas in an AC-coupled system the energy is lost.

What are the disadvantages of a DC-coupled system?

• Limited flexibility: Installers have less flexibility than with an AC system, as the inverter needs to be located close to the battery.

• Less resiliency: With a single inverter in a DC-coupled system, if the inverter fails, the solar power as well as the battery capacity is lost.

Should I use an AC- or DC-coupled system for my solar plant?

AC-coupled systems are the preferred option for larger and utility-scale plants. That&#;s because while AC-coupled systems are slightly less efficient at charging batteries (90-94% vs 98% achieved by DC-coupled), they are far easier to install, especially into an existing system.

That said, whether AC-coupled or DC-coupled is the best solution for your PV plant design will be project specific. You can use a PV plant software solution to run several simulations and identify the best option.

Interested in learning how to hybridize your PV systems? Check out this webinar and get all the insights on AC-coupled BESS.

RatedPower platform ensure the efficiency of your plant

RatedPower platform is designed to optimize and automate the design process, helping you weigh up the options between AC- and DC-coupled BESS. Contact us to find out how RatedPower can increase your project&#;s efficiency and profit margins.

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