市場調查報告書
商品編碼
1258897
到 2028 年的住宅電池市場預測 - 按類型(鉛酸、鋰離子、其他類型)、按額定功率(3-6kW、6-10kW)、按操作(太陽能、獨立、其他操作)、按區域進行全球分析Residential Battery Market Forecasts to 2028 - Global Analysis By Type (Lead Acid Battery, Lithium Ion Battery and Other Types), By Power Rating (3-6 kW and 6-10 kW), By Operation (Solar, Standalone and Other Operations) and By Geography |
根據 Stratistics MRC 的數據,預計到 2022 年,全球家用電池市場將達到 132.2 億美元,到 2028 年將達到 382.4 億美元,預計將以 19.36% 的複合年增長率增長。
家用電池儲存電能以備將來使用。 鋰離子和鉛酸電池通常用作住宅電池,因為它們可以承受充放電循環。 鋰離子電池應用於電動汽車、智能電錶等各行各業。 應用於電動汽車、智能電錶等各行各業。 它也被證明在沒有可靠電網連接的郊區非常有益。 隨著越來越多的家庭在屋頂安裝太陽能,這種電池的市場預計會增長。 屋頂太陽能發電的引入使得在停電時儲存電力成為可能。 與停電充電類似,這種電池也使用標準並網網絡進行充電。
據 BSW-Solar 稱,到 2020 年,德國將安裝 88,000 個新的家庭儲能係統。 據美國太陽能行業的全國性非營利性貿易協會太陽能行業協會 (SEIA) 稱,2021 年美國將安裝 4.6GW 的太陽能社區能源。
由於這些顯著且持續的成本降低,鋰離子有望保持其作為住宅儲能和電子市場首選電池化學物質的地位。 世界上一些國家正在轉向太陽能和風能等可再生能源來滿足其電力需求,從而逐漸減少對煤炭和柴油的依賴。 由於大都市地區土地短缺且需要滿足其不斷增長的電力需求,因此屋頂太陽能被認為是最佳解決方案之一。 由於太陽能的間歇性以及夜間的缺乏,屋頂光伏的發電過程嚴重依賴電池儲能。 來自發展中國家的稅收抵免和補貼等政府計劃是越來越多地採用屋頂太陽能和相關電池存儲系統的主要原因。
家用鉛酸電池會帶來某些環境問題。 鉛是一種廢棄物,在處理鉛酸電池時會對環境和人類造成危害。 如果鉛酸電池處理不當,它們會傷害大腦和腎臟,並導致聽力受損。 儘管許多國家都有鉛酸電池回收設施,但鉛回收過程仍然存在許多操作和環境問題。 因此,預計在整個預測期內,對住宅鉛酸電池的需求將下降。
對清潔能源的需求很高。 隨著太陽能等可再生能源技術變得越來越普遍,電池儲能選項有望擴大。 與傳統鋰離子電池相比,新型鋰硫電池具有2伏特的高開路電壓和2600WH/kg的能量密度。 鋰硫電池由鋰負極和硫正極組成。 放電時,鋰負極溶解在電解液中,鋰離子遷移到硫正極,形成多硫化物離子(Li2Sx)。 當多硫化物離子在充電時衰變時,鋰離子移動到負極。 多硫化物離子的溶解度隨時間降低。 一家名為 Layten 的公司推出了一種新型鋰硫電池。 這些發展有望增加鋰硫電池的市場份額。
用於住房的鉛酸電池造成的環境問題較少。 處理鉛酸電池時,鉛是一種危險廢物,會釋放到環境中,並且已知對人類有害。 如果此類電池處理不當,它們會對人腦產生不利影響並加劇聽力障礙。 儘管一些國家/地區提供鉛酸電池回收服務,但鉛回收過程存在缺陷,最初與環境和鄰裡考慮有關。 由於鉛酸電池在非常高的溫度下運行,因此回收需要大量能量。
由於電力和能源需求下降以及全球經濟增長放緩,COVID-19 疫情對市場影響較小。 以改進電池材料、降低惰性材料和材料成本、提高電芯設計和生產良率、加快生產速度為目標的持續研發使電池性能穩步提升。 因此,預計鋰離子電池價格下跌將在預測期內提振市場。 然而,存在諸如復雜性、需要考慮短壽命以及由於深度和連續循環而導致的故障等問題,預計將阻礙預測期內的市場擴張。
鋰離子電池市場近年來因成本降低而加速發展,據估計鋰離子電池市場份額最大,因為與競爭對手相比其效率更高,根據額定功率,市場分為兩組:3kW到 6kW 和 6kW 到 10kW。 預計 3-6kW 類別將佔據最大份額,因為家庭消費者更喜歡更高容量的電池。
隨著太陽能的引入,獨立電池將安裝在家庭中,預計獨立行業將在預測期內以最快的複合年增長率增長。 因此,大部分市場都由這種獨立電池組成。 最近,太陽能的引入刺激了太陽能連接電池的安裝。 預計這種增長將以健康的速度繼續,並對整個家用電池領域產生積極影響。
隨著亞太地區城市化程度不斷提高,預計家用電器和備用電源等各種應用對家用電池的需求將大幅增加。 因此,預計該地區在預測期內將佔最大份額。 由於政府政策和監管支持,中國住宅電池市場預計將在整個預測期內擴大。 中國政府已經展示了其通過補貼和安裝目標來提高國內對太陽能相關技術需求的能力。
在預測期內,預計亞太地區的複合年增長率最高。 中國是世界上發達儲能裝機容量最大的國家之一。 預計官方公告、支持和援助將有助於中國家用電池市場在預測期內蓬勃發展。 中國政府和監管機構已經認識到他們有能力推動當地對太陽能相關技術的需求顯著增加。
家用電池市場的主要參與者包括:ABB Ltd、Amara Raja Batteries Ltd、Delta Electronics Ltd、Duracell Inc、Energizer Holding Inc、Hitachi, Ltd. LG Energy Solution Ltd、Luminous Power Technologies Pvt. Ltd、NEC Corporation、Panasonic Corporation、Samsung SDI Co. Ltd.、Siemens AG、Tesla Inc.
2021年3月,松下電器株式會社與德國Aurelius集團簽署股權轉讓協議,將Panasonic Energy, Belgium N.V.、Panasonic Energy Europe N.V.、Panasonic Energy Poland S.A的全部股份轉讓給一家德國投資公司,並宣布轉讓。
2020年10月,Panasonic Corporation於1931年開始自主生產乾電池,繼2001年實現1000億顆後,成為第一家在全球累計實現2000億顆乾電池的日本企業。通過共享或轉讓,我們將開始自主生產乾電池。
2021 年 10 月,台達電子將收購 InfiNova,以加強台達在視頻監控市場的影響力並補充其樓宇自動化解決方案。
2021年4月,台達電子與寶馬集團、微軟合作打造開放式製造平台。 專注於以前沿技術獲得數字化轉型驅動的高效、低成本、可持續創新的能源解決方案。
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According to Stratistics MRC, the Global Residential Battery Market is accounted for $13.22 billion in 2022 and is expected to reach $38.24 billion by 2028 growing at a CAGR of 19.36% during the forecast period. Residential batteries store electric energy for future use. Lithium-ion or lead-acid batteries are frequently used in residential batteries because of their ability to tolerate charging and discharging cycles. They are used in a variety of industries, including electric vehicles and smart metres. They have shown to be tremendously beneficial in outlying areas without a dependable grid connection. The market for these batteries is expected to expand as more homeowners install rooftop solar electricity. Users can store energy for use during outages thanks to these rooftop solar arrays. Similar to how they are charged during power outages, these batteries are also charged utilising the standard grid connection network.
According to BSW-Solar, 88,000 new home storage systems were installed in Germany in 2020. According to the Solar Energy Industries Association (SEIA), a national non-profit trade association of the solar-energy industry in the United States, the United States of America has installed a 4.6 GW of solar community energy in the year 2021.
Lithium-ion is expected to continue to hold its position as the favoured battery chemistry in the residential energy storage and electronic goods markets as a result of this large and continued cost reduction. Several countries all around the world are gradually reducing their dependency on coal and diesel by using renewable energy sources like solar and wind to meet their electrical needs. With the shortage of land in metropolitan areas and the need to fulfil the expanding demand for electricity, rooftop solar is thought to be one of the best solutions. Due to the intermittent nature of solar energy and its lack throughout the night, the rooftop solar PV power generation process significantly relies on battery storage. Government programmes like tax credits and subsidies from developing nations have been primarily blamed for the rising adoption of rooftop solar and related battery storage systems.
Residential lead-acid batteries bring up certain environmental concerns. Lead is a hazardous waste for the environment and human health that is released through the disposal of lead-acid batteries. If these batteries are not properly disposed of, they may harm a person's brain, kidneys, and cause hearing problems. Even though lead-acid battery recycling facilities are present in many nations, the lead recycling process still has a number of operational and environmental problems. As a result, it is expected that demand for lead-acid batteries for residential applications would decrease throughout the course of the projection period.
Demand for clean energy is high. Battery energy storage options are anticipated to expand as renewable energy technologies like solar gain popularity. In comparison to traditional lithium-ion batteries, new lithium-sulfur batteries feature a 2 volt open circuit voltage and a 2600 WH/kg higher energy density. A lithium-negative pole and a sulfur-positive pole make up the lithium-sulfur battery. During discharge, lithium's negative pole dissolves in the electrolyte, and lithium ions migrate to the positive pole of sulphur to produce polysulfide ions (Li2Sx). As the polysulfide ion disintegrates while being charged, the lithium-ion transfers to its negative pole. The solubility of polysulfide ions diminishes over time. A new type of lithium-sulfur battery was revealed by a company called Lyten. These developments should boost the market share of lithium-sulfur batteries.
Lead acid batteries used for residential use pose little environmental problems. When lead acid batteries are disposed of, lead is released into the environment, which is hazardous waste and is known to be dangerous to human health. If such batteries are not properly disposed of, it could have a negative impact on the human brain and worsen hearing issues. Even if several countries provide recycling services for lead acid batteries, there are still drawbacks to the lead recycling processes, initially those related to environmental and neighbourhood concerns. Because lead acid batteries operate at extremely high temperatures, recycling them involves a significant energy requirement.
The COVID-19 pandemic had a minimal impact on the market because of decreased electricity and energy demand as well as decreased global economic growth. Continuous R&D aimed at improving battery materials, lowering non-active material and material costs, improving cell design and production yield, and accelerating production has led to a steady increase in battery performance. The market will therefore probably be fuelled by the decline in lithium-ion battery prices throughout the course of the projected period. However, concerns about complexity, a short life span that must be taken into account, failure because of deep and continuous cycle, etc., are anticipated to impede the market's expansion during the projected time.
The lithium-ion segment is estimated to have a largest share, due to the superior efficiency compared to competing options Cost reductions have recently spurred the market for lithium-ion batteries. Based on power ratings, the market is split into two groups: 3kW to 6kW and 6kW to 10kW. The 3-6 kW sector is probably going to hold the largest market share due to residential consumers' preference for high-capacity batteries.
The standalone segment is anticipated to witness the fastest CAGR growth during the forecast period, due to the introduction of solar electricity, stand-alone type batteries were being installed in residential areas. As a result, a sizeable section of the market is made up of these standalone batteries. The development of solar-connected battery installations has recently been spurred by the introduction of solar energy; this growth is anticipated to continue at a healthy rate and have a positive effect on the overall home battery sector.
Because the fastest-urbanising nations are based in Asia Pacific, it is predicted that there will be a considerable increase in demand for residential batteries for a variety of uses, including consumer electronics, backup power supply systems, and other things. Therefore, it is projected that the region will have largest share over the forecast period. The China residential battery market is anticipated to expand throughout the forecast period as a result of the government's policy and regulatory assistance. The Chinese government has already demonstrated its capacity to increase domestic demand for solar-related technology through subsidies and installation goals.
Asia Pacific is projected to have the highest CAGR over the forecast period. China has one of the largest installed capacities for developed energy storage in the world. The official announcements, support, and assistance are expected to help the Chinese home battery market flourish throughout the anticipated period. The Chinese government and regulatory bodies have already acknowledged their power to spur a significant increase in local demand for solar-related technology.
Some of the key players profiled in the Residential Battery Market include: ABB Ltd, Amara Raja Batteries Ltd, Delta Electronics Ltd, Duracell Inc, Energizer Holding Inc., Hitachi , LG Energy Solution Ltd, Luminous Power Technologies Pvt. Ltd, NEC Corporation, Panasonic Corporation, Samsung SDI Co. Ltd, Siemens AG and Tesla Inc.
In March 2021, The Panasonic Corporation declared the signing of a share transfer deal with the Germany based AURELIUS Group under which all the shares of the Panasonic energy, Belgium N.V, Panasonic Energy Europe N.V., and the Panasonic Energy Poland S.A will be transferred to the German investment firm.
In October 2020, Panasonic Corporation being the first Japanese company to share or to transfer the cumulative total of 200 billion dry batteries globally post the achievement of 100 billion milestones in 2001 since the start in house production of the dry cells in the year 1931.
In October 2021, The Delta electronics Inc. adopted the Infinova Ltd. it aims to reinforce or to strengthen the Delta's presence in the rising video surveillance market and the complement in its building automation solutions.
In April 2021, the Delta Electronics Inc. partnered with the BMW group and the Microsoft joints the open manufacturing platform. It focuses to gain the high effective, less cost and sustainable innovative energy solutions brought by the digital changes from the cutting edge technologies.
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