5 Things to Know Before Buying bess technology

20 May.,2024

 

5 Key Benefits Of Battery Energy Storage Systems (BESS)

Installing battery energy storage improves your use of renewable energy, offers a backup power source, means less dependence on the grid, reduces your carbon footprint, and offers long-term cost savings. Find out more about the benefits of BESS in this article. 

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Whether you are looking to streamline your business or are keen to improve the energy efficiency of your home, investing in battery energy storage is potentially a great option for you.  

At AceOn, we work at the cutting edge of BESS technology in the UK and have seen first-hand how transformative battery energy storage can be. So, if you’re on the fence about this emerging technology, here are five key benefits of battery energy storage systems that you can’t afford to ignore.  

Improved use of renewable energy  

Renewable energy has been around for a long time now, but there are many instances in which it is wasted. Without a storage solution, renewable energy can only be used when the conditions are favourable (such as when the sun’s out for solar).  

When you install a battery energy storage system, you can harness renewable energy, store it, and use it at a time when no energy is being produced. This enables you to use renewable energy sources much more efficiently.  

Backup power  

Though some people are keen to turn to BESS as their sole power bank, others are content to rely upon it as a backup power source. In the face of more inclement weather and extended periods of blackout in some parts of the world, having a backup power source is a smart move.  

The benefits to business are immeasurable, but having a BESS as a backup power for your home is also extremely beneficial. This means that you won’t be cut off from the world in case of a power outage and can add security to your home or business. 

Less dependence on the grid  

One of the biggest benefits of battery energy storage is that you become less dependent on the grid after installation. Although the National Grid in the UK is comparably reliable, it’s not fool proof and some parts of the UK experience more frequent power outages.  

What’s more, as we’re facing increasing climate uncertainty, being less dependent on the National Grid has obvious benefits, as the climate could lead to increased outages.  

Reduce carbon footprint  

As we’re collectively moving towards net zero, installing a BESS at your home or place of work is an excellent way to reduce your carbon footprint. Harnessing renewable energy through BESS reduces your greenhouse gas emissions and minimises pollution, offering you peace of mind as you commit to your personal carbon footprint goals.  

BESS also waste much less power than other energy sources as you can store any energy that you don’t consume. At a time when the UK is working so hard to meet ambitious climate targets, reducing your carbon footprint is a viable way of making a positive contribution.  

Long-term cost savings  

Although BESS are not cheap to install, they more than pay for themselves over time. This is because you can make huge savings when it comes to your electricity bills, while having a BESS even adds value to your home and business.  

Ultimately, if you can afford the initial financial outlay, installing battery energy storage at home or your place of work will have positive long-term financial implications. 

Recap: The benefits of battery energy storage  

The overwhelming benefits of battery energy storage certainly outweigh the negatives and every year, we’re seeing more and more people turn to BESS to improve their use of renewable energy.  

Find out more about how AceOn is leading the way as far as battery energy storage is concerned in the UK and do get in touch with one of our experts if you have any questions about this technology. 

5 Trends That Will Shape Development of Energy Storage ...

Electrochemical Energy Storage is an essential element to transition to clean energy around the world. A report from the Internal Energy Agency shows energy storage technology has grown 14% a year since 2005. Batteries account for nearly 90% of all energy storage systems (ESS), largely due to technological advancements and developments. 

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To keep up with the economy’s demand for battery energy storage, electrochemical energy storage will enter a period of rapid development in the next five years. There are 5 trends continuously being developed to make battery energy storage systems (BESS) more reliable, sustainable, and profitable for the future.

1. Longer System Life Cycle

The economic and payback effects brought by energy storage technology have a direct correlation with the battery life cycle of a battery energy storage system. During the operation of the energy storage system, the energy capacity will decay based on the cell’s specification and system balance status. While batteries do have the advantage of being augmented and replaced in a battery energy storage system, researchers continue to develop new ways to efficiently manage energy storage technology and energy capacity.

Currently, the market solution is to explore new energy storage system materials, develop higher efficiency energy storage management systems, and develop a software controller that optimizes energy storage system performance. As battery energy storage technology advances and software is developed to optimize the system life cycle, this trend alone will see a significant profit return on battery energy storage. 

2. Higher Safety Standard

Safety is undoubtedly one of the most important topics since the commercialization of battery energy storage. The nature of having hundreds of batteries contained within a system can understandably deter some people, however major strides have been made around the manufacturing and construction of these systems.

To improve the safety status of battery energy storage systems, the National Fire Protection Association (NFPA) released the NFPA 855 safety standard for the installation of energy storage systems, and global safety certification company UL released the UL9540A test method for testing fire safety hazards associated with thermal runaway within battery systems.

Engineering has come a long way to implement HVAC and ventilation controls that cool and control the batteries and use weatherproofing containers that can be placed in hot and cold climates.

3. Higher Power Rate

As the need for large scale energy storage applications increase, the requirements for higher charging/discharging power rate increases as well. The power rate allows the system to charge or discharge the battery at an increased rate without the need to oversize the system and waste energy.

Applications such as frequency regulation, wind turbine integration, and uninterrupted power supply demand huge amounts of power but only for a short amount of time. With a high discharge rate, the battery can efficiently supply the power needed. If there’s a limitation placed on the energy storage system and it cannot fulfill the request of the applications, extra batteries are needed to supply more power therefore additional space and resources are needed.

4. Higher Energy Density

Researchers are continuously developing new battery energy storage technology to efficiently store more power in smaller batteries. Cutting-edge technology will increase the energy density allowing us to store more capacity into similar-sized batteries. 

This trend will benefit battery energy storage projects that have physical space limitations. It is important to identify where your energy storage system will be and if the enclosure can contain the project’s desired capacity.

Every project has its own use case and challenges; therefore, no energy storage system is the same. It is recommended to discuss the key features of the project with the engineering team when approaching a BESS project. 

5 Wider Operation Temperature

The enclosure plays an important role in keeping the batteries, technology, and HVAC system working efficiency and safe from outside factors. When choosing an enclosure, it is essential to determine the materials that will be used, the features that will be included, and the layout of the energy storage system. 

The grid network is poorly developed in remote areas where the population is scarce, and the climate is extremely hot or cold. Our battery energy storage system is designed to help communities with unreliable grids while protecting the system from extreme temperatures.

Energy Storage is the Future

Energy storage technology will be a critical component in transitioning to a sustainable environment. With energy storage deals previously avoided due to the complexity surrounding cash flow, energy storage as a service (ESaaS) is a promising solution to incorporate energy storage economically. Government mandates and incentives are also offering tax credits regarding energy storage coupled with renewable generation. 

The barrier to incorporate energy storage has never been lower. At TROES, we design and deliver modular battery energy storage systems with energy-saving and cost-cutting benefits, while embracing environmentally friendly, safe, and scalable technology.

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