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全球微電網控制系統市場 2023-2030Global Microgrid Control System Market 2023-2030 |
預計全球微電網控制系統市場在預測期內將以 12.5%的CAGR成長。對再生能源不斷成長的需求推動了4 Infrastructure的成長,該公司已在葡萄牙亞速爾群島的特塞拉島完成了再生能源微電網計畫。這些島嶼具有利用再生能源供電的巨大潛力,特別是風能、水力發電和地熱能。 Terceira 專案使用 Fluence 的第六代電池儲存解決方案 Gridstack 和西門子的智慧能源控制軟體,協助為公用事業 Electricidade dos Acores(EDA)整合再生能源。
Fluence 提供了 15MW/15MWh 電池儲能系統(BESS),再加上 6MW 再生能源,Terceira 的再生能源在電網中的佔有率可增加一倍以上,達到 60.0%。西門子的 Spectrum Power 微電網管理系統(MGMS)管理島上發電基礎設施、BESS 和島上電力消耗之間的交互作用。
Global Microgrid Control System Market Size, Share & Trends Analysis Report by Type (Grid-Connected and Off-Grid), and by End-User (Utilities, Cities & Municipalities, Industrial, and Others) Forecast Period (2023-2030)
The global microgrid control system market is anticipated to grow at a considerable CAGR of 12.5% during the forecast period. The growing demand for renewable energy has driven the growth of the 4Infrastructure have completed a renewable energy microgrid project on Terceira, a Portuguese Azores island. The islands have great potential to be powered by renewable energy sources, particularly wind, hydroelectric power and geothermal energy. The project on Terceira uses Fluence's sixth generation battery storage solution, Gridstack, and Siemens' smart energy controls software, to help integrate renewables for utility Electricidade dos Acores (EDA).
Fluence supplied a 15MW/15MWh battery energy storage system (BESS), and with the addition of a further 6MW of renewable energy, Terceira can more than double its share of renewables on its grid to 60.0%. Siemens' Spectrum Power Microgrid Management System (MGMS), manages the interaction between the island's power generation infrastructure, the BESS and the island's power consumption.
The US National Electric Vehicle Infrastructure (NEVI) program, starting in 2023 runs five years, and will fund $5 billion of 600kW DC fast charging stations (four 150kW chargers) located 50 miles apart on the nation's primary highway corridors. Integrating synchro phasor grid measurements via a micro phasor measurement unit (?PMU) and microgrid controller at the charging station can transform a distribution grid problem into a distribution grid asset and turn NEVI charging stations into microgrid distribution nodes to provide grid services for asset owners, and enable valuable grid visualization for grid operators. Ultimately, NEVI charging stations, along with co-located energy storage and renewables, can enhance grid resiliency and grid stability via microgrid control and ultrafast ?PMUs.
The global microgrid control system market is segmented based on type and end-user. Based on type, the market is segmented into grid-connected and off-grid. Based on end-user, the market is segmented into utilities, cities & municipalities, industrial, and other (defense).
Microgrids allow an efficient and dynamic electricity grid by adapting to the growing use of renewable energy sources, such as photovoltaic equipment and electric vehicles. As per the US Department of Energy, microgrids will be essential building blocks for a new electricity delivery system by 2035 to ensure resilience, decarbonization, and affordability. According to the EIA, in 2022, electricity generation from electrical utilities in the US increased slightly compared with the preceding year by about 2,537 terawatt hours. The growing demand for microgrids in utilities sector is driving the growth of this market segment.
Electric Power Net Generation from Electric Utilities in the US in 2021-2022 in TWh ('000)
Source: Energy Information Administration (EIA)
The global microgrid control system market is further segmented based on geography, including North America (the US and Canada), Europe (Italy, Spain, Germany, France, and others), Asia-Pacific (India, China, Japan, South Korea, and others), and the Rest of the World (the Middle East & Africa and Latin America). Among these, North America is expected to hold a considerable share in the global market, owing to the presence of key market players in the region. For instance, in March 2023, Siemens Canada partnered with Humber College to develop a Renewable Technology and Sustainable Microgrid Lab (SMART Lab) at its North Campus. Humber's investments in the SMART Lab are based upon sustainable digital technology, supported by the Province of Ontario. To generate and distribute energy locally and to allow for more efficient and sustainable use and consumption of electricity, devices such as electric vehicle charging stations, solar Smartflower, and battery energy storage systems will be used in the microgrid control system. The growing initiatives by key players across the region have been contributing to the high share of the regional market.
The Asia-Pacific Region to Exhibit the Highest CAGR in the Global Microgrid Control System Market
The growing number of microgrid project launches across the region creating demand for microgrid control system, thereby driving the regional market growth. For instance, in April 2023, Delhi-based green hydrogen & solar developer company, Uneecops Technologies Ltd will set up the First Green Hydrogen Microgrid Project in Leh Region for a Major Hydro-Power Company in India. Uneecops Technologies Ltd will help in the engineering, procurement & construction (EPC) for setting up a green hydrogen-based fuel cell microgrid 25kWe for one of the major hydro-power company's guests houses at Power Station, Alchi, Leh.
The major companies serving the global microgrid control system market include Siemens AG, ABB Group, Hitachi, Ltd., General Electric Corp., and Honeywell International, Inc. among others. The market players are considerably contributing to the market growth by the adoption of various strategies, including mergers and acquisitions, partnerships, collaborations, funding, initiatives, and new product launches, to stay competitive in the market. For instance, in September 2023, Correlate Energy Corp. announced a significant microgrid initiative set to transform the energy landscape outside the Los Angeles metro area. This project is being undertaken for one of California's foremost privately-owned oil and gas corporations, renowned for its substantial energy requirements. With an energy demand equivalent to that of approximately 75,000 households, the client's operations encompass a staggering 100MW load across multiple locations, all with the goal of achieving net-zero emissions.