Smart energy consumption, cost-cutting, resilience, resource-saving, environmental efficiencythis is not a complete list of benefits offered by a battery energy storage system (BESS). With a wide range of power and storage capacity, BESSs vary from small-sized household devices to large-scale systems used for utilities and industrial applications. The number of battery-powered energy storage systems (BESS) installed in the US increased by 80% in . Nowadays, large-scale BESSs have been operating all over the world, including the United States, Australia, the United Kingdom, Japan, China, and many other countries. This article gives clear answers to all W and H questions about battery storage technology, including what it is, why, and where you can use it. Well also brief you on off-the-shelf and custom-made BESSs, specifying the strengths and weaknesses of both solutions.
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A BESS is an energy storage system (ESS) that captures energy from different sources, accumulates this energy, and stores it in rechargeable batteries for later use. Should the need arise, the electrochemical energy is discharged from the battery and supplied to homes, electric vehicles, industrial and commercial facilities.
A BESS is a compound system comprising hardware components along with low-level and high-level software. The main BESS parts include:
Depending on its functionality and operating conditions, a BESS can also include a range of safety systems, such as a fire control system, a smoke detector, a temperature control system, cooling, heating, ventilation, and air conditioning systems. The safety systems have their own monitoring and control units that provide conditions necessary for the safe operation of a BESS by monitoring its parameters and responding to emergencies.
Battery energy storage system architectureApart from electronics, complex BESSs rely on robust software solutions. For example, state-of-the-art systems use machine learning algorithms to optimize energy management. Estimating battery states and characteristics with high accuracy requires reliable algorithms and mathematical models built within BMS software development.
In sum, a BESS collects energy from an electricity grid or renewable power sources, such as solar and wind, and stores it using battery storage technology. Then, batteries discharge and release the energy when necessaryduring peak demands, power outages, and in a variety of other applications.
BESSs can accommodate different batteries, including lithium-ion, lead-acid, nickel-cadmium batteries, and otherswell elaborate on them later in the article. Every battery type has certain technical specifications that designate BESS uses and affect the efficiency of battery energy storage. The principal battery characteristics embrace:
In addition to the above battery specifications, storage battery systems have other characteristics that describe their performance. For example, response time is the time a BESS needs to move from the idle state and start working at full power. Ramp rate is the rate at which the system can increase or decrease its power outputramp it up or down, respectively.
BESSs vary depending on the electrochemistry or battery technology they use. Lets look at the main BESS battery types and opportunities they offer for battery storage solutions.
According to the report prepared by the US Energy Information Administration (EIA), over 90% of a large-scale battery energy storage systems in the USA were powered by lithium-ion batteries. The current global statistics are pretty much the same. This type of rechargeable battery is widely popular in electric vehicles, consumer electronics, and portables, such as smartphones, laptops, tablets, and cameras. Li-ion battery chemistries comprise lithium cobalt oxide, lithium manganese oxide, lithium iron phosphate, lithium nickel manganese cobalt oxide (NMC), and others. The advantages of a Li-ion battery make it one of the leading technologies facilitating the storage of energy. The global lithium-ion battery market is projected to triple by , reaching $278 billion. Its light and compact, has high capacity and energy density, low maintenance, and a long lifetime. In addition, lithium-ion batteries are easily and quickly charged and have a low self-discharge rate. The weak points of this battery technology include high cost, inflammability, and intolerance to extreme temperatures, overcharge, and overdischarge.
Projected global lithium-ion battery market size. Source: Precedence ResearchA lead-acid battery is the oldest battery technology and is also one of the cheapest and most available solutions that find use in automotive and industrial applications as well as power storage systems. PbA batteries are highly recyclable and can operate effectively at both high and low temperatures. Valve-regulated lead-acid (VRLA) batteries are more suitable for power storage solutions than their older counterpartsflooded lead-acid batteriesas they have a longer lifetime, higher capacity, and easier maintenance. Slow charging, heavyweight, and low energy density are among the major drawbacks of this battery technology.
This battery type prevailed in the market of wearable electronics until Li-ion batteries entered the game. Ni-Cd batteries have many configurations, they are inexpensive, easy to ship and store, and highly resistant to low temperatures. The technology is behind its competitors in energy density, self-discharge rate, and recycling. Nickel-metal hydride (Ni-MH) batteries use the same component as Ni-Cd technologynickel oxide hydroxide (NiO(OH)). However, the Ni-MH battery chemistry provides better characteristics, such as higher capacity and energy density.
A sodium-sulfur battery is a cost-effective technology based on molten salt. The advantages of Na-S batteries involve high energy and power density, a long lifetime, and stable operation under extreme ambient conditions. Nevertheless, this battery technology has a limited application area because of high operating temperatures (not less than 300oC) and sensitivity to corrosion. In addition, sodium is a hazardous component that is highly flammable and explosive. Sodium-sulfur batteries are well-suited for standalone energy storage applications integrated with renewable power sources.
Unlike conventional rechargeable batteries in which energy is stored in solid electrode material, flow batteries store energy in liquid electrolyte solutions. The most common flow battery type is the vanadium redox battery (VRB). The other types consist of zinc-bromine, zinc-iron, and iron-chromium chemistries. Despite their low energy capacity and low charge/discharge rate, flow batteries have several important advantages, allowing them to hold a large market share in on-grid and off-grid energy storage systems, including large-scale applications. These benefits involve an extremely long lifespan (up to 30 years), high scalability, fast response time, and a low risk of fires because flow batteries contain non-inflammable electrolytes.
Battery technologies used for energy storageAs of , BESSs accounted for 7.5 % of the global energy storage capacity, significantly less than pumped-storage hydro. According to The Business Research Company, the battery energy storage market size is expected to reach $13.8 billion at 25.7% CAGR globally by . Given the availability, efficiency, and latest advances in electrochemical storage technologies, a BESS is anticipated to be an energy storage leader in the years ahead. However, alternative solutions can go up against battery power storage systems, getting the upper hand in some applications. Here are the main BESS competitors:
Alternative energy storage technologies have already been available for the past few years. Some of them are already up and running, while others are still in the works. The sure thing about all of them is the need for reliable machine learning and artificial intelligence solutions. These would automate operations, reduce maintenance expenses, and ensure smooth performance with minimum human input.
Choosing batteries for energy storage can be beneficial for several reasons. First off, battery storage ideas have no limits regarding locationyou dont need to provide huge water tanks or underground air reservoirs. Owing to its availability and flexibility, a BESS can fit in well with applications that require varying power and storage capacity levels. Moreover, modern battery technologies tilt toward light weight, cost-efficiency, safety, and environmental friendliness. Lets consider the use cases of a battery energy storage system and the essential problems it can solve.
BESSs help balance loads between on-peak and off-peak times. Electricity demands may vary depending on the day, time, season, and other factors. The higher the demand, the higher the electricity cost and vice versapricing gets lower during off-peak hours. By accumulating energy when the demand is low and discharging it in peak periods, battery storage solutions enable users to save on electricity tariffs (peak shaving).
As mentioned above, electricity prices fluctuate at different times, having both rises and falls. Battery energy storage systems allow for energy time-shiftingenergy is purchased at a low price during off-peak periods and sold or used when the price increases. Thus, irrespective of the season and electricity demand, BESSs can equalize energy prices and minimize risks.
A BESS can supply backup power in case of an electricity grid failure until complete power restoration. Larger storage capacity and integration with renewable energy sources enable BESSs to back up energy for longer periods. By operating as an uninterruptable power supply (UPS), a commercial battery storage solution can be a time and money saver as it eliminates downtime.
A BESS can replace a diesel or natural gas generator used by power plants to restore power generation after blackouts by leveraging its black-start capabilities. Based on battery storage, power systems can restart after a total shutdown without using external electricity networks. The fast response time of a BESS helps systems recover in the shortest possible time.
Battery storage systems can regulate frequency in the grid, making sure its value lies within the required range. If the amount of generated power disagrees with the actual electricity demand, the frequency can either exceed or fall below its nominal value. Such discrepancies may result in temporary disconnections, power failures, or blackouts. BESSs can immediately react to power interruptions, providing sub-second frequency response, and stabilize the grid.
A BESS can likewise ensure voltage stability, maintaining its level within the specified range.
Integrating battery energy storage systems with intermittent renewable energy sources opens the door to inexpensive electricity continuously available to on-grid, off-grid, and hybrid systems. More recently, clean energy has gained popularity as an economically viable and eco-friendly alternative to fossil fuels. According to Statista, renewable energy sources (hydro, wind, solar, bioenergy and other renewables) accounted for 30% of global electricity production in . Moreover, it is projected to reach 45% by . The proliferation of renewable energy-enabled storage solutions is extensively supported and incentivized by governments through subsidies and lower tax rates.
Projected share of renewables in global electricity generation. Source: StatistaBattery storage technology enhances the efficiency of renewables. It makes them a reliable energy source for a variety of applications, including households with photovoltaics (PVs), off-grid commercial facilities, and isolated communities, such as islands and remote rural areas. Smart grids located in Rokkasho, a village in Japan, store solar and wind energy using a large-capacity BESS based on sodium-sulfur batteries. Currently, there are 92 wind power generation facilities and 3 solar power plants with a total capacity of 313,350 kW.
A BESS assists grid-tied and hybrid solar and wind systems with energy time-shift and demand-side management. For example, in windy weather, the system can power homes and charge batteries during on-peak and off-peak times respectively. Later, the battery energy storage system wind power can be used when the electricity demand is high and the variable energy resource is unavailable. Such a system has been installed and is running successfully in the Faroe Islands. Now, wind turbines generate power that covers about 50% of the islands energy needs.
Battery energy storage can eliminate the need to build new transmission and distribution systems or update existing T&D assets that lack capacity or become obsolete. By storing excess energy and providing reserve capacity, a BESS can take the load off overloaded T&D lines and prevent congestion in transmission systems.
A BESS is an essential part of microgridsdistributed power networks that can be connected to the utility grid or totally independent. Standalone microgrids located in remote regions can rely on battery storage systems integrated with intermittent renewable energy sources. Such solutions enable smooth power generation and help avoid heavy expenses and air pollution associated with diesel generators.
BESSs find wide use in different industries and application areas. For example, front-of-the-meter (FTM) applications comprise battery storage systems in electric power systems, such as utility-scale generation and energy storage facilities as well as transmission and distribution lines. Behind-the-meter (BTM) applications embrace transportation, including electric vehicles and marine systems, residential, commercial, and industrial battery storage solutions.
The Vistra Moss Landing Energy Storage Facility in California, USA, is the world's largest battery storage system. The 400 MW/ MWh BESS was commissioned to work in December . The storage capacity is expected to reach 750 MW/ MWh by the summer of .
Vistra, the retail electricity and power generation company previously criticized for climate pollution, is shifting its focus to renewable energy, doing its part to protect the environment and create new jobs.
Some of the worlds largest battery energy storage systems are the Alamitos Energy Center, Gateway Energy Storage (US), Hornsdale Power Reserve (Australia), Minety Battery Energy Storage Project (UK), Buzen and Rokkasho battery power plants (Japan), Korea Zinc Energy Storage System (South Korea), and Kunshan Energy Storage Power Station (China).
In , 4,027 MW / 12,155 MWh of battery energy storage was deployed in the US, compared to 3,000 MW / 9,500 MWh added to the grid in . As analyzed by Frost & Sullivan, the decrease in technology cost and rapid spread of renewables will boost the global grid battery storage capacity to 134.6 GW by .
FTM and BTM BESS applicationsThe global energy storage market offers a great choice of off-the-shelf battery energy storage systems. They vary in battery chemistry, scale, functionality, intended use, and price. Here are some of the key BESS market players:
The global battery energy storage market is abundant in offers. As battery costs tend to fall, ready-made BESSs become more affordable to consumers. According to Statista, the price for lithium-ion batteries (that prevail in battery-based energy storage) has dropped by 90% in the past 11 yearsfrom $1,220 in to $132 in per kilowatt-hour. But at the end of the day, the battery price will depend on the project size and storage capacitysmall-scale projects will be charged higher than the average price.
Apart from the batteries, the total battery energy storage system cost consists of the cost of an energy management system, a BMS, a power conversion system, or inverter, and other components. Utilizing an out-of-the-box BESS may also entail expenses on installation, operation, maintenance, and warranty. For example, Teslas Powerwall provides 13.5 kWh of usable storage capacity, and its price can amount to $10,500, including the solar panel system and installation costs. Panasonic EverVolt allows for storing between 11.4 kWh and 17.1 kWh of energy, which will cost from $15,000 to $20,000 with solar panels, installation, and set up.
When choosing a battery energy storage system, you should consider plenty of factors other than its cost. They include:
Thus, BMS software plays a significant role in the overall performance of a battery storage system as it is responsible for charging and discharging along with battery safety.
Once you are set to buy an off-the-shelf battery energy storage system, make sure you or your staff have enough expertise and qualifications to check the quality and completeness of the entire system before making a purchase and supplying it to your customer.
Setting up, maintaining, and supporting a BESS may also require personnel training on your side unless youre ready to pay for these services to the BESS provider. When buying a battery storage device, make sure the manufacturer offers a warranty that covers the repair or replacement of the system and its components in case of failure.
Purchasing an out-of-the-box BESS can definitely save your time, especially if you need a turnkey solution with no specific consumer requirements for the system. With a rich selection of battery energy storage products on the market, there is a high chance of finding a reliable manufacturer and a suitable option that could meet your customers needs.
Conversely, ready-made systems may have unreasonably priced electronics, pre-installed software of poor quality, and unnecessary features that add to the cost. They may also lack features desired by the end user or fail to satisfy the consumers industry and business niche demands or operating conditions and location requirements. In addition, not all BESS suppliers provide all-in-one solutions, and purchasing components and subsystems from different manufacturers can result in serious compatibility and interconnection issues. Developing a custom battery energy storage system can become an alternative that is worth looking at.
Tailor-made BESSs can make up for whats lacking in out-of-the-box solutions offered by major battery storage systems providers. So, they can meet the exact needs of your potential consumers. However, implementing a custom product is a time-taking and resource-consuming task. Building a battery energy storage solution belongs to large-scale, long-running projects that can last for months or even years.
A BESS is a complex, multilayer engineering system, so developing a battery-based storage solution from the ground up requires deep knowledge in various fields, including battery technologies, power electronics, and embedded software development. In our upcoming articles, well cover challenges associated with developing and implementing battery energy storage systems.
Choosing the right development team is half the battle; thats why its essential to hire well-trained professionals with relevant experience. Creating a battery energy storage system from scratch takes specialists in electronic design, electrical engineering, low-level firmware, high-level software, and mechanical engineering for enclosure design.
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The Integra Sources team could be the right fit for your project. We design PCBs for battery management, bi-directional power conversion, energy management, and safety systems of a BESS. Our engineers implement monitoring and control software and provide online data communication for remote BESS management. We create scalable battery energy storage solutions with fast response time, quick ramp rate, and high-efficiency power supply. Integrated with either electrical grids or renewables, our BESSs can serve for load management, power backup, frequency and voltage regulation, energy time-shifting, and many other purposes.
Manufacturing is another important challenge youll have to face when making your own battery energy storage product. The BESS manufacturing process involves a diversity of tasks that can be carried out at different production facilities. So, synergy is the key to efficient BESS manufacture.
Youll have to take care of the product certification too. Apart from international standards, such as IEC, ISO, IEEE, and UL, a BESS is highly likely to need to meet specific national standards and certification requirements in each particular country. For example, in the United States, an energy storage system must also conform to the regulations of the Federal Energy Regulatory Commission (FERC), the Department of Energy (DOE), and some regulatory agencies at the state level.
A BESS must comply with national and international standards specific to the region and industry.In October , Australia and New Zealand developed AS/NZS :a joint standard that sets general installation and safety requirements for battery energy storage systems. In addition, Australian BESS manufacturers must comply with a number of other national and international codes and standards.
Certification criteria may also depend on the industry and application area of a BESS. For example, DNV provides a recommended practice that contains guidelines for design, performance, operation, maintenance, and safety for energy storage used in marine systems. The document comprises specifications for charge/discharge rate, SOC, SOH, DoD, and many other system parameters and operating conditions.
The engineering team engaged in BESS development must be well-versed in the certification requirements and applicable standards. This helps mitigate risks in the systems design and delivers a high-quality product to your end user on time and within budget.
Despite the challenges, designing a bespoke BESS can enhance usability, reduce operating costs, and improve the reliability of the system. After drilling down the market, you can heed the customers needs, consider the shortcomings of off-the-shelf BESSs, and create highly sought-after battery energy storage solutions.
Implementing your own product makes you independent of any particular BESS provider and its services. You can set up, maintain, support, and deliver other services to your customers in a prompt manner and without intermediaries.
A BESS is a multi-component energy storage system able to store varying amounts of electrochemical energy and use it later for a range of purposesbe it peak shaving, energy arbitrage, or a black start.
The advances in battery technology make a BESS a light and affordable solution for both residential and commercial use, including smart homes, large-scale industrial facilities, and utility grids. Buildings, villages, towns, and even entire islands can employ battery storage integrated with green energy for a reliable, self-sufficient power supply.
BESS manufacturers offer a wealth of options with various storage capacities and for any application and budget. However, purchasing an off-the-shelf system demands strong knowledge of the technology, and a ready-made BESS may not meet the specific requirements of an end user.
Despite the design complexity and long project duration, a bespoke BESS can cater to your customers industry needs, solve their problems, and cut down on operational costs. Finding the right development team can assist you in building a well-functioning customized solution. Integra has deep expertise in battery storage technologies, including their hardware and software components. Depending on the consumer requirements, we can calculate the performance characteristics and design costs of a BESS, develop electronics, write firmware, and build apps to manage the system and communicate with it remotely. By choosing the right components and design techniques, well make your product reliable, highly efficient, and standards-compliant. So if youre looking to create a battery energy storage system or need an expert opinion on its development and implementation, reach out to us to get things started.
Battery energy storage systems (BESS) play an extremely important role in energy management, storing excess electricity and maintaining a stable supply of power. The global battery energy storage system market is booming and is expected to reach approximately US$9.2 billion by . Facing the booming battery energy storage system market, MK continues to provide advanced energy solutions to meet various new needs in the industry.
BESS is an energy storage system that captures, accumulates energy from different energy sources and stores it in rechargeable batteries for future use. If electricity is needed, electrochemical energy is discharged from the battery and supplied to homes, industrial and commercial facilities, etc. Today, large-scale BESSs are already operating around the world, including the United States, Australia, the United Kingdom, Japan, China and many other countries.
It is a composite system, including hardware and elementary and advanced software. Major BESS include:
Battery system: Contains individual cells that convert chemical energy into electrical energy. The cells are arranged in modules, which form a battery pack.
Battery Management System (BMS): BMS is used to ensure the safety of the battery system. It monitors the status of battery cells, measures their parameters and status, and protects batteries from fire and other hazards.
Inverter or Converter Storage (PCS): Converts the direct current (DC) produced by the battery into alternating current (AC) for use by the facility. The inverter of the battery energy storage system allows the flow of energy in both directions, allowing charging and discharging.
Energy Management System (EMS): Responsible for monitoring and controlling the flow of energy within the battery energy storage system. EMS coordinates the work of BMS, PCS and other components of BESS. By collecting and analyzing energy data, EMS can efficiently manage multi-energy access to the system.
Depending on its function and operating conditions, BESS also includes a range of safety systems such as fire control systems, smoke detectors, temperature control systems, cooling, heating, ventilation and air conditioning systems. The safety system itself has a monitoring and control unit that provides the BESS with the conditions required for safe operation by monitoring its parameters and responding to emergencies.
The classification of BESS varies depending on the electrochemistry or battery technology used.
According to a report released by the U.S. Energy Information Administration (EIA), more than 90% of large-scale battery energy storage systems in the United States are powered by lithium-ion batteries, and the current overall global statistics are basically the same.
Lithium-ion battery chemistries include lithium cobalt oxide, lithium manganese oxide, lithium iron phosphate, lithium nickel manganese cobalt oxide (NMC), and others. Lithium-ion batteries have many advantages that make them one of the leading energy storage technologies. The global lithium-ion battery market is expected to double by . It is lightweight and compact, has high capacity and energy density, low maintenance costs and long service life.
In addition, lithium-ion batteries are easy to charge quickly and have low self-discharge rates. Disadvantages of this battery technology include high cost, flammability, intolerance to extreme temperatures, and the ability to overcharge and overdischarge.
Lead-acid batteries are one of the oldest battery technologies and are the cheapest and most common solution used in automobiles, industrial applications and power storage systems. Lead-acid batteries are highly recyclable and operate effectively in both high and low temperatures.
Sealed valve-regulated lead-acid (VRLA) batteries are more suitable for power storage solutions than their older counterparts, flooded lead-acid (FLA) batteries, due to their longer life, higher capacity and easier maintenance. Slow charging, heavy weight and low energy density are the main drawbacks of this battery technology.
There are several benefits to choosing batteries for energy storage. First, there are no restrictions on location for battery energy storage there is no need to provide huge water tanks or underground gas storage tanks.
Due to its high availability and flexibility, BESS can be well matched to applications with different power and storage capacities. In addition, modern battery technology tends to be lightweight, paying more and more attention to cost-effectiveness, safety and environmental protection.
Below are some application examples of battery energy storage systems and the basic problems it can solve.
Energy demand management: BESS helps balance loads between peak and off-peak times. Battery energy storage solutions enable users to save money on their electricity bills by storing energy when demand is low and discharging it during peak periods.
Backup power: In the event of a grid failure, BESS can provide backup power until power is fully restored. By operating as an uninterruptible power supply (UPS), commercial battery energy storage solutions can save time and money by eliminating downtime.
Black start capability: After a power outage, the black start capability based on the battery energy storage system can be used to restore power generation, thereby replacing the diesel or natural gas generators used in power plants. BESSs fast response time helps get the system back up and running in the shortest possible time.
Frequency Control: If the amount of electricity generated does not match the actual power demand, the frequency may go above or below its rated value. These differences can result in temporary grid disconnections, power failures or power outages. BESS can respond immediately to power outages, provide sub-second frequency speed response, and stabilize the power grid.
Renewable energy integration: Combining battery energy storage systems with intermittent renewable energy sources provides cheap, continuous power for on-grid, off-grid and hybrid systems. Government subsidies and reduced tax rates have also resulted in widespread support and incentives for renewable energy-storage solutions.
The global battery energy storage market is well supplied. As battery costs fall, off-the-shelf battery energy storage systems become more affordable for consumers. When choosing a battery energy storage system, in addition to price, we should also consider the following factors:
The integrity of the system and the availability of related subsystems and supporting equipment, the chemical safety and other characteristics of the battery, the quality, availability and continuity of supply of hardware components, and the reliability of the software, etc. Battery management system (BMS) software is responsible for charging, discharging and battery safety, and plays an important role in the overall performance of the battery energy storage system.
Buying a ready-made BESS can save you time, especially if you need a plug-and-play solution with no specific consumption requirements. But off-the-shelf systems can have unreasonably priced, poor-quality pre-installed software and other unnecessary features that add to costs. Tailor-made BESS solutions can meet the exact needs of potential customers.
Finally, product certification is something you need to consider. In addition to international standards such as IEC, ISO, IEEE and UL, BESS will most likely need to meet each countrys specific national standards and certification requirements. The BESS vendors we select must be well-versed in certification requirements and applicable standards, which helps mitigate risk in system design and deliver high-quality products to end users on time and within budget.
BESS is a multi-component energy storage system capable of storing varying amounts of electrochemical energy and used for application purposes including peak reduction, energy harvesting or black start. BESS manufacturers offer a rich selection of various storage capacities suitable for any application. Applications and budgets.
MK provides customized needs for various storage capacities and designs the system according to the customers usage and budget. If you want to purchase a battery energy storage system or need professional energy storage advice, please contact us at .
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