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The distributed energy resource management system market is projected to grow at a CAGR of 18.57% over the forecast period, increasing from US$280.409 million in 2021 to a total market size of US$923.881 million by 2028.
A distributed energy resource management system (DERMS) is a software platform specifically designed to coordinate the functioning of aggregated distributed energy resources (DER) within a power grid. Most commonly, these systems find their application at the level of the distribution grid. The components of a DERMS can be categorized into both software and hardware elements. Distributed energy resource management systems industry is primarily driven by the surge in factors such as ongoing grid modernization initiatives and the growing adoption of renewable energy sources.
Grid modernization aims to enhance the adaptability, resilience, and efficiency of power networks. Distributed energy resource management system enables this modernization by coordinating and managing distributed energy resources such as solar, wind, and storage assets, ensuring optimal use and effective load balancing. The global push for sustainable energy, coupled with technological advances and regulatory support, is driving the growth of grid modernization. According to the N.C. Clean Energy Technology Center, In the third quarter of 2022, there were 441 instances of actions taken towards modernizing the grid in the United States of America. The states leading this charge, with the most actions during this period, were California, New York, Massachusetts, Michigan, Illinois, Connecticut, and Hawaii.
Distributed energy resource management systems are utilized in renewable energy generation to efficiently manage and integrate various decentralized energy sources. These systems are vital in optimizing energy production and consumption and facilitating energy savings. The rise in renewable energy adoption, driven by environmental concerns, and supportive government policies, contributes to an increased demand for such management systems. This, in turn, propels the growth of the distributed energy resource management systems market. According to the International Renewable Energy Agency, in 2022, the total capacity of global renewable energy generation reached 3372 Gigawatts (GW), marking an impressive growth of 295 GW. This represented an increase of 9.6% in the overall stock of renewable power.
Distributed energy resource management system market is significantly fuelled by strategic collaborations and investments made by leading players in the sector. These companies are increasingly joining forces to combine their expertise and resources, fostering technological innovation and expanding their service offerings. therefore, driving the growth and progress of the distributed energy resource management system industry. For instance, in May 2022, at DistribuTECH, GE Digital unveiled Opus One DERMS as the inaugural outcome of its acquisition of Opus One Solutions. This cutting-edge solution serves as a comprehensive, modular distributed energy resource management system designed to support utilities in their transition towards distributed energy resources.
Asia-Pacific will hold a significant share of the distributed energy resource management system market due to significant governmental investments aimed at bolstering smart grid infrastructure and power distribution systems. Leading economies in the region, are actively promoting the integration of distributed energy resources to enhance energy security, improve grid reliability, and achieve sustainability goals. For instance, According to the International Energy Agency, in 2022, India initiated a scheme valued at approximately 3.03 trillion INR aimed at bolstering power distribution companies and enhancing distribution infrastructure. Also, in the period from 2021 to 2025, China strategized to upgrade and extend its power grids, earmarking an investment of 442 billion USD.
The widespread adoption of distributed energy resource management systems and corresponding technologies often mandates considerable preliminary capital investments. Such significant upfront costs could serve as a deterrent for several utilities and companies. For example, the initial cost of implementing a DERMS for a large-scale PV system, with a capacity of 8.9-MVA, stands at an estimated $42k. The substantial financial commitment required in these cases can create a certain level of hesitation among prospective adopters, which in turn, could restrain the expansion of the distributed energy resource management systems market