Energy Storage Operating System

Battery Storage Integrators

The financial strategies for utility-scale Battery Energy Storage Systems (BESS) are greatly influenced by the unique characteristics of the regions in which providers establish themselves. Typically, players in this sector opt for a revenue stacking approach, which involves aggregating incomes from multiple sources. They may engage in supplementary offerings, arbitrage, and capacity auctions. For instance, numerous BESS installations in the United Kingdom presently focus on ancillary services like frequency regulation. In Italy, there are talented players who have achieved success by emerging victorious in one of the country's capacity auctions that prioritize renewable energy. On the other hand, in Germany, the focus is more on evading expensive grid enhancements in order to seize opportunities. The successful players in the FTM utility sector have recognized the importance of tailoring their approach to individual countries and their regulations, rather than relying on a singular, all-encompassing strategy.

The Chief Executive Officer of FlexGen, a provider specialized in controlling energy storage software solutions, explains the definition and necessity of upgrading or retrofitting an energy management system (EMS) in operational battery energy storage system (BESS) projects.

As the next stage of objectives outlined in the Paris Agreement draws near, governmental bodies and various organizations are actively seeking to enhance the uptake of renewable energy sources. Certain regions, heavily reliant on energy consumption, offer additional incentives to encourage the exploration of alternatives to conventional energy methods. In Europe, the motivation arises from an energy crisis, while in the United States, it originates from the Inflation Reduction Act, a legislation passed in 2022 that designates $370 billion for clean-energy investments.

In the subsequent section of the C&I sector, there exists critical infrastructure comprising telecommunication towers, data centers, and hospitals. Within this specific subset, temporary backup power is typically facilitated by lead-acid batteries through an uninterruptible power supply during instances of outages until the resumption of regular power or activation of diesel generators. Alongside the substitution of lead-acid batteries, lithium-ion BESS products offer a potential solution to reduce dependence on diesel generators, which are less eco-friendly. These products can be seamlessly integrated with sustainable energy sources like rooftop solar. Moreover, in specific instances, surplus energy stored in a battery could enable organizations to generate income through grid services. A number of telecommunications companies and proprietors of data centers are currently transitioning to BESS (Battery Energy Storage Systems) for their uninterrupted power supply needs, recognizing the added advantages that BESS offers.

Battery Storage EMS

The advancements in technology are driving the growth of the market for battery energy storage systems (BESS). Battery storage plays a crucial role in supporting the generation of renewable energy, facilitating alternative sources to consistently contribute to global energy requirements despite the inherently unpredictable nature of these sources. As battery prices decrease, the versatility offered by BESS (Battery Energy Storage System) will become crucial in various areas such as peak load management, optimizing self-consumption, and providing backup power during power disruptions. These applications are progressively gaining profitability.

The commercial and industrial (C&I) sector, which ranks as the second-largest category, is projected to experience a compound annual growth rate of 13 percent according to our forecasts. This growth should result in annual additions ranging from 52 to 70 GWh by 2030 for the C&I sector.

Critical readings that are transmitted from the batteries/stacks comprise state of charge (SOC), electrical current, voltage, temperature, as well as the quantity of interconnected stacks and alarm indicators. In the case of battery issues such as excessive heat or failure to charge adequately, the SCADA system has the capability to notify plant operators through an alarm displayed on the human-machine interface (HMI).

Battery Storage EMS

Energy Management System

Battery Energy Storage Systems (BESS) retain energy during periods of excess generation or low demand and subsequently release it during periods of reduced generation or high demand. Similar to any energy source within a solar PV facility, the operation of BESS necessitates constant monitoring and management. This is accomplished through three different systems.

The third division comprises public infrastructure, commercial establishments, and industrial facilities. Within this category, energy storage systems will primarily be deployed to assist with load management during peak periods, facilitate the integration of on-site renewable energy sources, optimize self-consumption, serve as a backup power source, and support grid-related services. It is our belief that BESS holds the capacity to decrease energy expenses in these regions by a staggering 80 percent. The case for implementing BESS is particularly compelling in countries like Germany, North America, and the United Kingdom, where demand charges are frequently imposed.

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Energy Storage Controls

The last section of the C&I subsegment encompasses challenging settings, including mining, construction, oil and gas exploration, as well as outdoor festivals. The driving force behind its expansion will be customers shifting from diesel or gas generators towards eco-friendly options like BESS and hybrid generators in order to mitigate emissions. One of the primary catalysts for the increasing adoption in this sector is the implementation of forthcoming regulations, such as the European Commission's sustainability-driven Big Buyers initiative and Oslo's objective to achieve net zero on construction sites by 2025. A significant number of companies transitioning to more environmentally friendly practices will initially opt for hybrid genset solutions as an intermediate step before fully transitioning to Battery Energy Storage Systems (BESS).

Given these circumstances, it is highly probable that sodium-ion batteries will gain a larger portion of the BESS market. In fact, it is anticipated that a minimum of six manufacturers will commence production of sodium-ion batteries in 2023. Evidently, healthcare providers will need to make choices regarding which technology to invest in. Integrators may consider configuring their systems in a manner that simplifies the transition to sodium-ion batteries once they become readily accessible.

If the project consists of multiple inverters, then only one inverter and its corresponding batteries are required for step 6. As a result, the remaining components of the project can continue functioning with a partial outage while the full outage, lasting two weeks, is solely necessary for the completion of step 7.

Energy Storage Controls
Battery Storage Integration
Battery Storage Integration

In response to economic and operational challenges, there is a prevailing tendency within the industry to enhance or modify the EMS. Making the decision to retrofit the EMS carries significant weight, hence it is vital to meticulously plan the sequence of retrofitting actions. Approximately 20% of the deal flow that FlexGen handles consists of retrofits.

Considering the multitude of customer segments, varying business models, and imminent changes in technology, this question holds significant importance. Here are four strategies that could potentially lead to success in the market:

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Energy Storage Software

Additionally, there are the tasks related to system integration, encompassing the comprehensive planning and creation of energy management systems and additional software to enhance the adaptability and utility of BESS. We anticipate these integrators to capture an additional 25 to 30 percent of the profit allocation accessible.

Anticipated advancements in utility-scale Battery Energy Storage Systems (BESS), which presently represent the majority of new capacity each year, are projected to witness a rapid growth rate of approximately 29 percent annually until the end of this decade. This trajectory positions utility-scale BESS as the fastest-growing segment among the three. Projections indicate that by 2030, annual utility-scale BESS installations could range from 450 to 620 gigawatt-hours (GWh), potentially securing up to a 90 percent market share of the total industry during that period (Exhibit 2).

In conclusion, a percentage ranging from 10 to 20 is linked to sales entities, project development organizations, as well as other endeavors focused on acquiring customers and commissioning (Exhibit 4).

Energy Storage Software

Frequently Asked Questions

Yes, FlexGen's energy storage solutions are designed to seamlessly integrate with renewable energy sources like solar and wind, enabling efficient storage and utilization of renewable energy.

FlexGen offers a wide range of energy storage solutions tailored to meet the needs of various sectors, including utility-scale storage solutions, commercial and industrial energy storage, and specialized solutions for the integration of renewable energy sources. Their offerings are powered by the innovative HybridOS software, ensuring high efficiency and reliability.

FlexGen's battery storage solutions stand out due to their advanced HybridOS software, flexible hardware integration, and the ability to provide scalable, reliable, and efficient energy storage for a wide range of applications.