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2030 年住宅太阳能逆变器市场预测:按细分市场和地区分類的全球分析Residential Solar Inverter Market Forecasts to 2030 - Global Analysis By Product, Phase, Connection, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球住宅太阳能逆变器市场规模为 58.9 亿美元,预计到 2030 年将达到 141.2 亿美元,预测期内年复合成长率为 13.3%。
光电逆变器是太阳能逆变器的别称。它在太阳能光伏发电系统中将直流电转换为交流电发挥重要作用。光伏逆变器将太阳能光伏发电板的可变直流输出转换为 240V 交流电。然后,这种交流能源被发送到住宅,为各种电器产品供电。太阳能逆变器被认为是一种可靠的能源,可以显着降低电费。
根据联合国预测,到2020年,地球上将有78亿人口,但其中10亿人将用不到电。到2030年,地球上将有86亿人口,对能源的需求将进一步增加。
对气候变迁和环境永续性的日益关注正在推动全球可再生能源的采用。住宅太阳能光伏发电装置越来越受欢迎,因为它们可以减少对石化燃料的依赖。太阳能光伏发电作为一种清洁、丰富的能源选择正在引起人们的注意。此外,太阳能逆变器可以透过将太阳能板产生的直流(DC)电转换为适合家庭使用的交流(AC)电,帮助家庭为清洁能源的未来做出贡献,在其中发挥重要作用。
太阳能生产本质上取决于天气类型、一天中的时间和地点。这种间歇性可能会导致能源生产的波动,因此需要太阳能逆变器来有效管理动态输入。此外,具有电压调节和 MPPT(最大功率点追踪)功能的先进逆变器对于最大化能量转换并保持稳定输出至关重要,即使在部分阴影和阳光不足的时期也是如此。
由于储能技术的不断改进,住宅太阳能逆变器市场正在经历重大机会。此外,随着储能解决方案变得更加有效、经济实惠且持久,太阳能逆变器可以利用这些进步来最大限度地提高能源利用率。逆变器配备先进的能源管理演算法,对电池进行智慧充放电,充分利用多余的太阳能,即使在室外阴天也能为住宅提供可靠的电力供应。
石化燃料和其他不可再生能源来源在价格和效用方面仍竞争。此外,在石油、天然气价格较低的时期,不可可再生能源的负担能力可能会改变消费者对太阳能光伏发电装置的偏好。由于对太阳能缺乏紧迫感以及传统能源更可靠的看法,市场成长动能可能会受到阻碍。
COVID-19 的爆发对住宅太阳能逆变器市场产生了重大影响,导致供应链中断、安装延误和消费者支出减少。由于停工、旅游限制和经济不确定性,专案延误和取消影响了製造和分销。儘管疫情凸显了弹性能源的重要性,但市场扩张受到初始安装放缓和财务限制的阻碍。然而,随着经济可再生的好处,这推动了人们对住宅太阳能解决方案和太阳能逆变器等重要组件的重新兴趣。这是由于
在预测期内,住宅太阳能逆变器市场将由组串式逆变器领域主导。组串式逆变器因其成本低、易于安装且适用于各种住宅太阳能光伏发电装置而被广泛使用。串式逆变器在住宅应用中特别受欢迎,因为它们允许将太阳能板串连接到单一逆变器,从而简化系统设计并降低整体安装成本。
预计在预测期内,住宅领域将成为太阳能市场中年复合成长率最高的领域。此外,这种增长是由许多要素推动的,包括消费者对环境永续意识的增强、太阳能设备价格的下降、政府的激励措施以及住宅对能源独立的兴趣的增加。小型住宅太阳能係统,包括太阳能电池板和逆变器,易于安装,并且该领域正在迅速扩展。
在预测期内,亚太地区占据住宅太阳能逆变器最大的市场占有率。在积极的可再生能源目标、支持性政府政策以及公众对永续能源选择意识不断增强的推动下,中国、日本、印度和澳洲等国家处于这一增长的前沿。此外,由于中阶的扩大、都市化的快速发展和人口的增长,该地区已成为住宅太阳能光伏发电装置和相关太阳能逆变器市场的主要中心。所有这些要素都导致对清洁能源的需求不断增长。
在预测期内,住宅太阳能逆变器市场的年复合成长率最高的是北美地区,其中包括美国和加拿大。这一增长的推动因素包括环保意识的增强、政府财政激励措施、太阳能电池板价格下降以及储能技术的改进。此外,由于住宅太阳能光伏发电装置的大幅增加以及致力于减少碳排放和向可再生能源过渡的地区,对太阳能逆变器的需求也在增加。
According to Stratistics MRC, the Global Residential Solar (PV) Inverter Market is accounted for $5.89 billion in 2023 and is expected to reach $14.12 billion by 2030 growing at a CAGR of 13.3% during the forecast period. A PV inverter is another name for a solar inverter. It plays a crucial role in converting direct current to alternate current in the solar energy system. A solar PV inverter converts a photovoltaic solar panel's variable direct current output into 240V of alternating current. Then, this AC energy is delivered to residential areas, where it powers a variety of appliances. Solar inverters are regarded as dependable energy sources that significantly lower electricity costs.
According to the UN, there will be 7.8 billion people on the planet in 2020, and 1 billion of them won't have access to electricity. With 8.6 billion people on the earth by 2030, there will be an even larger need for energy
A global push is taking place to adopt renewable energy sources as worries about climate change and environmental sustainability grow. Residential solar installations are becoming more common because they can lessen reliance on fossil fuels. Solar power stands out as a clean and abundant energy option. Additionally, solar inverters play a key role in enabling households to contribute to a future with cleaner energy by converting the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity suitable for home consumption.
The production of solar energy is inherently reliant on the type of weather, the time of day, and the location. Solar inverters are needed to effectively manage the dynamic input because this intermittency may cause fluctuations in energy production. Moreover, advanced inverters with voltage regulation and MPPT (Maximum Power Point Tracking) features are essential for maximizing energy conversion and sustaining steady output even in periods of partial shade or low sunlight.
The market for residential solar inverters has a great opportunity thanks to the ongoing improvements in energy storage technologies. Furthermore, solar inverters can take advantage of these advancements to maximize energy utilization as energy storage solutions become more effective, affordable, and long-lasting. By intelligently charging and discharging batteries, inverters with cutting-edge energy management algorithms can make the most of extra solar energy and give homeowners a reliable power supply even when it's cloudy outside.
Fossil fuels and other non-renewable energy sources are still competitive in terms of price and practicality. Additionally, the threat of the affordability of non-renewable energy can cause consumer preferences to change away from solar installations during times of low oil and gas prices. The market's growth momentum may be hampered by a lack of urgency to switch to solar energy and perceptions of greater reliability from conventional sources.
The COVID-19 pandemic had a significant effect on the residential solar inverter market, leading to supply chain disruptions, installation delays, and decreased consumer spending. Project delays and cancellations affected manufacturing and distribution because of lockdowns, travel restrictions, and economic uncertainty. Although the pandemic made resilient energy sources more important, the market's expansion was hampered by the initial installation slowdown and financial limitations. However, a renewed interest in residential solar solutions and their essential components, such as solar inverters, is being driven by increased awareness of the advantages of renewable energy, which is occurring as economies recover and the focus on clean energy increases.
During the anticipated period, the residential solar inverter market will be dominated by the segment of string inverters. Moreover, due to their low cost, simple installation, and suitability for various residential solar setups, string inverters are widely used. They are especially well-liked in residential settings where a line of solar panels is linked to a single inverter, streamlining the system design and lowering overall installation costs.
The residential segment is anticipated to have the highest CAGR in the solar energy market during the forecast period. Moreover, this growth is due to a number of factors, including rising consumer awareness of environmental sustainability, falling solar equipment prices, government incentives, and rising homeowner interest in energy independence. The segment has rapidly expanded in part because smaller-scale residential solar systems, which include solar panels and inverters, are simple to install.
The largest market share for residential solar inverters is held by the Asia-Pacific region during the forecast period. With the help of aggressive renewable energy targets, supportive governmental policies, and rising public awareness of sustainable energy options, nations like China, Japan, India, and Australia have been at the forefront of this growth. Moreover, the region is a major hub for residential solar installations and the associated market for solar inverters due to its expanding middle class, rapid urbanization, and growing population. These factors have all contributed to an increase in demand for clean energy sources.
The residential solar inverter market has experienced the highest CAGR during the forecast period in the North America region, which includes the United States and Canada. This growth is fuelled by rising environmental consciousness, financial incentives from the government, falling solar panel prices, and improvements in energy storage technologies. Additionally, residential solar installations have increased significantly, increasing the demand for solar inverters as a result of the area's commitment to reducing carbon emissions and switching to renewable energy sources.
Some of the key players in Residential Solar (PV) Inverter market include: Schneider Electric SE, General Electric, Altenergy Power System, Inc., Huawei Technologies Co., Ltd., SolarEdge Technologies, Inc., Darfon Electronics Corp., ABB Ltd, Toshiba Mitsubishi-Electric Industrial Systems Corporation, Hitachi Hi-Rel Power Electronics Private Limited, SMA Solar Technology AG, Siemens AG, Mitsubishi Electric Corporation, GoodWe, Sineng Electric Co., Ltd., Omron Corporation, Shenzhen Sofarsolar co., Ltd, Delta Electronics, Tabuchi Electric Co., Ltd., Panasonic Corporation and Eaton SolarEdge Technologies.
In August 2023, GE Vernova's Digital business today announced that it has signed a multi-year Strategic Collaboration Agreement (SCA) with Amazon Web Services (AWS) designed to help industrial companies and utilities accelerate digital transformation using cloud-based Proficy software solutions.
In August 2023, Schneider Electric, a specialist in energy management and automation, has announced a partnership agreement with MK: U, part of Cranfield University. Schneider Electric is investing with MK: U to train its degree apprentices in the coming years. Courses will include digital technology and solutions, cybersecurity, and a range of digital engineering options.
In August 2023, Huawei and Ericsson have signed a long-term global patent cross-licensing agreement that covers patents essential to a wide range of standards such as 3GPP, ITU, IEEE, and IETF standards for 3G, 4G, and 5G cellular technologies. The agreement covers the companies' respective sales of network infrastructure and consumer devices, granting both parties global access to each other's patented, standardized technologies.