市場調查報告書
商品編碼
1569805
2030 年住宅能源儲存市場預測:按所有權、連接類型、額定功率、技術和地區進行的全球分析Residential Energy Storage Market Forecasts to 2030 - Global Analysis By Ownership (Utility Owned, Customer Owned and Third-party Owned), Connectivity Type (On-grid and Off-grid), Power Rating, Technology and By Geography |
根據Stratistics MRC的數據,2024年全球住宅能源儲存市場規模為152億美元,預計在預測期內將以24.2%的複合年成長率成長,到2030年達到556億美元。
住宅能源儲存是指設計用於在家中儲存電能以供日後使用的系統。這些系統通常使用電池,從各種來源捕獲和儲存能量,包括太陽能電池板、電網和風力發電機。透過儲存高峰發電時段產生的剩餘能源,住宅可以在高需求時期或低產量時期(例如夜間或停電期間)使用該能源。此功能提高了能源可靠性,並允許客戶透過將消費轉移到價格較低的非高峰時間來減少電費。
根據國際能源總署 (IEA) 預測,到 2023 年,全球可再生能源裝置容量預計將增加 107 吉瓦 (GW),達到 440 吉瓦以上。
智慧家庭科技的興起
智慧家庭技術的興起透過將先進的控制系統整合到能源管理解決方案中,大大增強了住宅能源儲存。連網型恆溫器、節能照明和連網電器等智慧家庭設備與家庭能源儲存系統系統無縫協作,以最佳化能源使用。這些技術收集和分析能源消耗模式的資料,使住宅能夠即時調整使用情況或在最經濟的時候儲存多餘的能源。例如,智慧電錶和能源管理系統可以預測高峰需求時間並自動調整儲存和使用策略,以確保儲存的能源得到有效利用。
網格整合問題
電網併網問題是住宅儲能系統廣泛使用的主要障礙。這些系統(例如太陽能電池板)可以儲存多餘的能量並在尖峰時段和停電期間使用它,在無縫連接到現有電網方面面臨挑戰。一個主要問題是儲能設備和電網之間缺乏標準化通訊協定和通訊系統,導致效率低下和潛在的中斷。再生能源來源的間歇性可能會導致波動,從而使電網管理複雜化並給基礎設施帶來壓力。電網容量不足和基礎設施老化進一步加劇了這些問題,使得住宅能源儲存難以有效發揮作用。
降低電力成本的需求日益增加
隨著能源價格波動和電力需求增加,住宅正在尋找省錢並更好地控制能源使用的方法。住宅能源儲存,例如家用電池,允許用戶可再生能源發電,或在電費較低的非尖峰時段儲存多餘的能量。這些儲存的能源可以在電費較高的高峰時段使用,從而降低整體能源成本並為價格波動提供緩衝。
市場分散化
市場碎片化是住宅儲能產業成長的主要障礙。當市場被分類為許多較小的、不同的部分時,通常由於不同地區的不同法規、標準和獎勵,就會出現市場碎片化。不一致的政策和缺乏標準化做法會造成消費者的困惑並阻礙採用。例如,州和國家可能對能源儲存系統有不同的要求,這使得製造商很難創建和銷售普遍相容的解決方案。
COVID-19 大流行對住宅能源儲存市場產生了重大影響,既有正面的影響,也有負面的影響。疫情期間,人們對能源安全意識的增強以及在電網不穩定的情況下對自給自足的渴望導致家庭能源儲存系統的採用大幅增加。由於頻繁停電和服務中斷,屋主尋求可靠的備用電源解決方案。遠距工作的轉變和家用時間的增加推高了能源消耗,進一步激發了人們對住宅儲存的興趣。相反,疫情擾亂了供應鏈,導致電池等關鍵零件的延遲和成本上升。
預計客戶擁有的細分市場在預測期內將是最大的
在預測期內,客戶擁有的細分市場預計將是最大的。透過客戶擁有的部分擴大住宅能源儲存正在改變家庭管理和利用能源的方式。這項創新透過將先進的電池儲存系統融入住宅中,使住宅能夠更好地控制能源消耗。這些系統可以儲存可再生能源發電(例如太陽能電池板)的剩餘能量以供以後使用,從而顯著節省成本並提高能源獨立性。此外,先進的儲能解決方案提高了效率和可靠性,即使在電網停電和用電高峰期也能確保家庭穩定供電。
預計鉛酸電池產業在預測期內的複合年成長率最高。
透過為尋求最佳化能源使用的住宅提供可靠且具成本效益的選擇,鉛酸電池產業預計將在預測期內實現最高的複合年成長率。這些電池以其堅固耐用和經濟實惠而聞名,擴大被納入住宅能源系統中,以儲存太陽能電池板和其他再生能源來源產生的多餘能量。它們的深度放電循環和穩定、可靠的電源使它們成為平衡家庭能源供需的理想選擇。因此,鉛酸電池正在成為住宅能源儲存系統的重要組成部分,有助於住宅減少對電網的依賴,降低能源成本,並為更永續的能源未來做出貢獻。
在估計期間,亞太地區佔據了最大的市場佔有率。隨著越來越多的家庭採用太陽能技術,對有效的能源儲存解決方案的需求不斷成長,以最大限度地發揮太陽能發電的優勢。這一趨勢正在推動住宅能源儲存系統,例如先進的電池和智慧電網技術,有助於儲存白天產生的多餘能源,以供夜間或陰天使用。擴大採用太陽能電池板不僅有助於住宅實現能源獨立和降低成本,而且還支持當地減少碳排放和向清潔能源來源過渡的努力。
歐洲地區在預測期內可能會出現盈利成長。在歐洲,政府的獎勵和回扣使住宅能源儲存領域對住宅來說更加經濟實惠,從而取得了重大進展。這些計劃通常包括直接補貼、稅額扣抵和低利率貸款,以降低購買和安裝家用電池等能源儲存系統的初始成本。透過降低財務障礙,這些獎勵鼓勵更多住宅投資於能源效率和永續性技術。擴大住宅能源儲存的部署有助於電網穩定,有助於可再生能源的併網,並支持能源獨立。
According to Stratistics MRC, the Global Residential Energy Storage Market is accounted for $15.2 billion in 2024 and is expected to reach $55.6 billion by 2030 growing at a CAGR of 24.2% during the forecast period. Residential energy storage refers to systems designed to store electrical energy at a home for later use. These systems, commonly employing batteries, capture and store energy from various sources like solar panels, the electrical grid, or wind turbines. By storing excess energy produced during peak generation times, homeowners can use it during periods of high demand or when generation is low, such as at night or during power outages. This capability enhances energy reliability and can reduce electricity costs by allowing users to shift their consumption to off-peak times when rates are lower.
According to the International Energy Agency (IEA), global renewable capacity additions are estimated to soar by 107 Gigawatts (GW), to more than 440 GW in 2023.
Rise of smart home technologies
The rise of smart home technologies is significantly enhancing residential energy storage by integrating advanced control systems with energy management solutions. Smart home devices, such as intelligent thermostats, energy-efficient lighting, and connected appliances, work seamlessly with home energy storage systems to optimize energy use. These technologies collect and analyze data on energy consumption patterns, allowing homeowners to adjust their usage in real-time and store excess energy when it's most economical. For instance, smart meters and energy management systems can predict peak demand times and automatically adjust storage and usage strategies, ensuring that stored energy is utilized efficiently.
Grid integration issues
Grid integration issues are a significant barrier to the widespread adoption of residential energy storage systems. These systems, which store excess energy from sources like solar panels for use during peak demand or outages, face challenges in seamlessly interfacing with the existing power grid. One major issue is the lack of standardized protocols and communication systems between storage units and the grid, leading to inefficiencies and potential disruptions. The intermittent nature of renewable energy sources can cause fluctuations that complicate grid management and strain infrastructure. Inadequate grid capacity and outdated infrastructure can further exacerbate these problems, making it difficult for residential energy storage to contribute effectively.
Rising need to reduce electricity costs
As energy prices fluctuate and the demand for electricity increases, homeowners are seeking ways to mitigate expenses and gain greater control over their energy usage. Residential energy storage, such as home batteries, allows users to store excess energy generated from renewable sources like solar panels or during off-peak times when electricity rates are lower. This stored energy can then be used during peak hours when prices are higher, reducing overall energy costs and providing a buffer against price volatility.
Market fragmentation
Market fragmentation is a significant barrier to the growth of the residential energy storage sector. This fragmentation occurs when the market is divided into numerous small, disparate segments, often due to varying regional regulations, standards, and incentives. Inconsistent policies and a lack of standardized practices can create confusion among consumers and hinder widespread adoption. For instance, different states or countries may have unique requirements for energy storage systems, making it challenging for manufacturers to produce and market solutions that comply universally.
The COVID-19 pandemic significantly impacted the residential energy storage market, both positively and negatively. During the pandemic, there was a marked increase in the adoption of home energy storage systems, driven by heightened awareness of energy security and the desire for self-sufficiency amid grid uncertainties. Homeowners sought reliable backup power solutions due to frequent power outages and interruptions in service. The shift towards remote work and more time spent at home boosted energy consumption, further fueling interest in residential storage. Conversely, the pandemic also disrupted supply chains, causing delays and increasing costs for critical components like batteries.
The customer owned segment is expected to be the largest during the forecast period
Customer owned segment is expected to be the largest during the forecast period. The enhancement of Residential Energy Storage through customer-owned segments is transforming how households manage and utilize their energy resources. This innovation empowers homeowners to take greater control over their energy consumption by integrating advanced battery storage systems into their residences. These systems store excess energy generated from renewable sources, such as solar panels, for later use, which can lead to significant cost savings and increased energy independence. Additionally, advanced storage solutions offer improved efficiency and reliability, ensuring that homes have a steady power supply even during grid outages or peak demand periods.
The lead-acid batteries segment is expected to have the highest CAGR during the forecast period
Lead-acid batteries segment is expected to have the highest CAGR during the forecast period by providing a reliable and cost-effective option for homeowners looking to optimize their energy usage. These batteries, known for their robustness and affordability, are increasingly being integrated into residential energy systems to store excess energy generated from solar panels or other renewable sources. Their ability to handle deep discharge cycles and provide steady, reliable power makes them ideal for balancing energy supply and demand in homes. As a result, lead-acid batteries are becoming a key component in residential energy storage systems, helping homeowners reduce reliance on the grid, lower energy costs, and contribute to a more sustainable energy future.
Asia Pacific region commanded the largest share of the market over the extrapolated period. As more households adopt solar technology, there's a rising demand for effective energy storage solutions to maximize the benefits of solar power. This trend is driving innovation and investment in residential energy storage systems, such as advanced batteries and smart grid technologies, which help store excess energy generated during the day for use during nighttime or cloudy periods. The increased deployment of solar panels not only contributes to energy independence and cost savings for homeowners but also supports regional efforts to reduce carbon emissions and transition to cleaner energy sources.
Europe region is poised to witness profitable growth during the projected period. In Europe, government incentives and rebates are significantly advancing the residential energy storage sector by making it more financially accessible to homeowners. These programs often include direct subsidies, tax credits, and low-interest loans, which reduce the upfront costs of purchasing and installing energy storage systems like home batteries. By lowering financial barriers, these incentives encourage more homeowners to invest in technologies that enhance energy efficiency and sustainability. The increased adoption of residential energy storage contributes to grid stability, helps in the integration of renewable energy sources and supports energy independence.
Key players in the market
Some of the key players in Residential Energy Storage market include ABB Ltd, BYD Company Limited, Eaton Corporation, Eguana Technologies Inc, Eos Energy Enterprises, Generac Power Systems, Inc, LG Energy Solution, Panasonic Corporation, Samsung SDI, SunPower Corporation and Tesla, Inc.
In August 2022, Tesla partnered with Green Mountain Power (GMP) for the deployment of Powerwalls, Tesla's home battery pack, in a decentralized way with electric utilities. The relatively small electric utility operating in Vermont was one of the earliest adopters of Tesla Powerwall.
In June 2022, Toyota entered the energy storage market with the launch of the O-Uchi Kyuden System, a residential battery product. Toyota launched a rated output of 5.5 kWh and rated capacity of 8.7 kWh battery storage system, which uses the company's electric vehicle battery technology. When connected to a photovoltaic rooftop system, the system can power a home day and night. Initially, the company aims to sell the storage system in Japan.
In May 2022, Mango Power launched Mango Power M Series at the Intersolar Munich 2022. The system can be used with a solar PV, with a 10-20 kWh battery for daily and emergency use. The system supports single and triple-phase connections with 8-14 kW output capability. The system can be used in various applications, including a built-in inverter, backup gateway, and EV charger. The company launched different versions for the United States and Europe markets.
In February 2022, Enphase Energy announced a partnership with Swell Energy that, Enphase Energy Systems powered by IQTM Microinverters and IQTM Batteries will be able to participate in Swell's distributed, virtual power plant (VPP) programs in California, New York, and Hawaii as a result of the collaboration.