市場調查報告書
商品編碼
1115132
電源優化器全球市場規模、份額、行業趨勢分析報告連接性別(並網、獨立)、按應用(公用事業、商業、住宅)、最終用途、區域展望和預測,2022-2028Global Power Optimizer Market Size, Share & Industry Trends Analysis Report By Connectivity (On-grid and Standalone), By Application (Utility, Commercial and Residential), By End Use, By Regional Outlook and Forecast, 2022 - 2028 |
到 2028 年,電源優化器的全球市場規模預計將達到 52 億美元,在預測期內以 10.4% 的複合年增長率增長。
此過程需要時間,這限制了從電池中有效獲取電力的速度。因此,蓄電用的大電池標明2小時和20小時,2小時往往是20小時的50%左右。太陽能電池板也會出現類似的問題,這取決於許多因素,例如電池將陽光轉化為電子的速度,以及周圍環境的溫度。在這種情況下,應用 I-V 曲線,這是電壓、電流和發電量之間複雜的非線性關係。
現代太陽能電池陣列利用一種稱為最大功率點跟蹤 (MPPT) 的方法來不斷改變施加到系統的負載以在其最高效率點運行,同時優化收集量。太陽能電池板通常提供大約 30V 的電壓。這個值對於高效的交流轉換和電網饋電來說太低了。因此,面板串聯連接併升高到適合所用逆變器的電壓(通常為 600V)。
COVID-19 影響分析
COVID-19 的影響對世界各地的各種活動產生了破壞性影響,包括企業、金融機構、行業和基礎設施公司。冠狀病毒已經影響了幾個經濟體,並在許多國家造成了封鎖,從而限制了市場增長。在全球多個國家,工業生產商的停產減少了對太陽能相關設備的需求,從而影響了功率優化器行業。疫情期間全球工業設施用電量下降對市場增長產生了負面影響。
市場增長因素
太陽能的普及和引進的增加
在許多國家和地區,離網太陽能發電系統對於提高能源供應至關重要。作為負擔得起且可持續的電力接入解決方案,獨立解決方案正受到私人投資者、最終用戶和政策制定者的青睞。這些系統有望提高市場對功率優化器的需求,因為它們可以最大限度地降低安裝太陽能電池板的管理和維護成本。此外,提高消費者對採用低碳技術減少溫室氣體排放的認識也將成為推動市場規模的一個因素。
多個市場參與者的存在
功率優化器行業的公司越來越關注有針對性的營銷和啟動企業社會責任計劃,以此作為提高其全球知名度的戰略。這些公司現在的目標是在提供有利立法的國家處理某些與業務相關的活動,這一事實是一個明顯可識別的趨勢。通過這種方式,企業和運營商可以節省資金,同時在其組織的每個關鍵階段保留行業專家。通過降低貿易稅和關稅,發展中國家政府正在採取措施吸引外國投資者進入相關行業並創造更多就業機會。
市場製約因素
高成本和其他復雜性
功率優化器市場非常新。市場上沒有滿足客戶要求的廠家,其他逆變器品牌也無法與功率優化器配套使用。但是,由於每個太陽能電池板都附有功率優化器,因此安裝成本略高於典型的串式逆變器太陽能係統。即使是 6 kW 的系統,其成本也會比傳統設備高得多。與更昂貴的微型逆變器相比,這種成本增加非常小,但在這種情況下仍然很重要。
互聯互通前景
基於連接性,電源優化器市場將是並網和獨立的。 2021 年,並網部分佔據了電力優化器市場的最大收入份額。並網光伏系統直接集成到公用電網中並使用光伏系統發電。當剩餘電力傳輸給客戶時,客戶將因太陽能光伏系統產生的剩餘電力返回公用電網而獲得補償。
應用前景
功率優化器市場根據應用細分為住宅、商業和公用事業。到 2021 年,商業部分將在功率優化器市場中佔據相當大的收入份額。這種增長是由工業應用對太陽能充電控制器的需求不斷增長推動的,這些應用包括數據中心、醫院、餐館、電信基站和公司辦公室等能源應用。
最終用戶產品
按最終用戶,電源優化器市場分為模塊級 MPPT、高級電力線通信、監控組件、安全關閉組件等。 2021 年,高級電力線通信部門在電源優化器市場上的收入份額有望提高。這是因為該技術使用已經安裝的配電網來傳輸數據。
區域展望
按地區分析了北美、歐洲、亞太地區和 LAMEA 的電源優化器市場。 2021 年,亞太地區功率優化器市場的收入份額最大。最大的電源優化器市場在亞太地區,包括日本、中國、印度、韓國、澳大利亞和亞太地區其他地區。近年來,中國大力發展太陽能發電,成為全球最大的太陽能消費國。該地區可再生能源的安裝將增加。由於技術進步和資本成本下降,可再生能源已成為能源行業的主流。
The Global Power Optimizer Market size is expected to reach $5.2 billion by 2028, rising at a market growth of 10.4% CAGR during the forecast period.
A power optimizer is a DC to DC energy converter, which was created to increase the amount of energy solar PV systems can produce. The main task is to modify or optimize the panel's performance using maximum power point tracking (MPPT) or to match the string inverter's performance. Power optimizers are particularly helpful when the effectiveness of the power generating elements in a distributed system will vary significantly, for example, because of differences in equipment, shading from light or wind, being installed facing different directions, or being located in locations that are far apart.
Both systems seek to isolate specific panels in order to enhance the performance of the entire system, which is where power optimizers for photovoltaic collectors can be similar to micro inverters. A power optimizer built inside a solar module is known as a smart module. The power that most power generation or storage systems produce, the load that is placed on them, as well as the efficiency of the distribution, are all examined. For instance, a typical battery stores energy through chemical reactions on its plates and in its electrolytes.
This process takes time to complete, which restricts how quickly power can be effectively extracted from the cell. The 2-hour and 20 hours rates are typically listed on large batteries utilized for power storage as a result, with the 2 hours rate frequently being around 50% of the 20 hours rate. Similar problems arise with solar panels because of the rate at which the cell can transform solar photons into electrons, the surrounding environment's temperature, along with a number of other factors. The I-V curve, a complex nonlinear relationship between voltage, current, and the overall amount of power produced, applies in this situation.
Modern solar arrays utilize a method called maximum power point tracking (MPPT) to continuously modify the given load in order to keep the system operating at its highest efficiency point while monitoring the overall output of the array in order to optimize collection. Solar panels typically provide voltages of about 30 V. For effective AC conversion and feeding to the power grid, this value is too low. In order to fix this, panels are connected in series to raise the voltage to a level that is more suitable for the inverters being used, often 600 V.
COVID-19 Impact Analysis
The COVID-19 impact had a devastating effect on various activities all over the world including, businesses, financial institutions, industrial enterprises, and infrastructural firms. The market's growth has been constrained by the novel coronavirus, which has impacted several economies and triggered a lockdown in numerous nations. In several countries throughout the world, the closure of industrial producers caused a reduction in the demand for solar-related equipment, which in turn affected the power optimizer industry. The decline in power usage in industrial facilities around the world during the outbreak has had a detrimental effect on the market's growth.
Market Growth Factors
Increasing Popularity And Adoption Of Solar Power
Off-grid solar power systems have been essential in increasing energy availability in a number of countries and regions. Standalone solutions have gained support from private investors, end-users, and policymakers as an inexpensive and sustainable solution for electricity access. These systems provide minimal management and maintenance expenses for the installation of solar panels, which is likely to boost market demand for power optimizers. The market volume would be driven by rising consumer awareness of the adoption of low carbon-intensive technology to reduce GHG emissions.
Prevalence Of Several Market Players In The Market
Businesses involved in the Power Optimizer sector are becoming increasingly engaged with launching strategies like targeted marketing, CSR programs, etc. as a strategy to raise their global prominence. The fact that these businesses are now aiming to handle a certain business-related activity in a nation that offers advantageous legislation is a clearly discernible trend that is being witnessed across the spectrum. By doing this, it enables enterprises and businesses to save expenses while retaining industry experts for each crucial stage of their respective organizations. By cutting trade taxes and duties, governments in developing nations are introducing measures to entice international investors to the corresponding industrial sectors and create more jobs.
Market Restraining Factors
High Cost Along With Other Complexities
The market for power optimizers is quite new. There is a lack of manufacturers in the market to fulfill the customer demands, other inverter brands cannot be used to link with their power optimizers. However, the installation expenses are also a little more than with a standard string inverter solar panel system because power optimizer equipment is installed on every solar panel. Even a 6kW system would cost significantly more than conventional equipment. This cost increase is quite small when compared to more expensive micro inverters, but it is nevertheless important to note in this context.
Connectivity Outlook
Based on the Connectivity, the Power Optimizer Market is On-Grid and Standalone. In 2021, the on-grid segment acquired the largest revenue share of the power optimizer market. On-grid solar power systems are directly integrated into the utility grid and use a solar power system to generate electricity. Customers are reimbursed for the extra power transmitted back to the utility grid when transmitting any excess power generated by the solar power system there.
Application Outlook
On the basis of Application, the Power Optimizer Market is segmented into Residential, Commercial, and Utility. In 2021, the commercial segment garnered a substantial revenue share of the power optimizer market. The rise in demand for photovoltaic charge controllers from industrial uses for energy usage in data centers, hospitals, restaurants, communication base stations, corporate offices, and other locations is credited with this expansion.
End-Use Outlook
By the End-Use, the Power Optimizer Market is Module Level MPPT, Advanced Power Line Communication, Monitoring Components, Safety Shutdown Components, and Others. In 2021, the Advanced Power Line Communication segment procured a promising revenue share of the power optimizer market. This is owing to the fact that this technology uses the already-installed power distribution network to transmit data.
Regional Outlook
Region-wise, the Power Optimizer Market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. In 2021, Asia-Pacific witnessed the biggest revenue share of the power optimizer market. The largest power optimizer market is found in Asia-Pacific, which includes nations like Japan, China, India, South Korea, Australia, and the rest of Asia-Pacific. China, which generated approximately an amount of solar energy in recent years, is the world's greatest consumer of this energy. The deployed capacity of renewable power in this region will increase. Renewable energy sources have entered the mainstream of the energy industry due to technological advancements and falling capital costs.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Delta Electronics, Inc., SunPower Corporation, KACO new energy GmbH, Alencon Systems, LLC, SolarEdge Technologies, Inc., Enphase Energy, Inc., Tigo Energy, Inc., Altenergy Power System, Inc., Solantro Semiconductor Corp., and Sparq Systems Inc.
Recent Strategies deployed in Power Optimizer Market
Partnerships, Collaborations, and Agreements:
May-2022: SolarEdge teamed up with Shawton, one of the leading fabricators in the UK. Under this collaboration, the company aimed to allow access to sustainability and cost benefits of solar energy to more UK businesses without the requirement for any capital investment.
Jan-2022: Enphase Energy partnered with Semper Solaris, a leading home solar and battery contractor. Under this partnership, the companies aimed to install IQ Microinverters and IQ Batteries-powered Enphase energy systems across residential applications. In addition, this partnership would also allow improved flexibility and control to households in order to enable them to optimize their home energy system.
Product Launches and Product Expansions:
Dec-2021: SolarEdge rolled out S-Series Power Optimizers, a new range of Power Optimizers. The new product range aimed to offer module-level visibility in site performance with the aim to increase energy production and system uptime. Moreover, the new range also encompasses the features of SolarEdge Sense Connect, a technology that prevents potential thermal anomalies.
Mar-2021: Tigo Energy introduced a new version of its TS4-A-O optimizer. With this product expansion, the companies aimed to offer the highest per-module wattage available in any optimizer on the market. This expansion would enable the TS4-A-O optimizer to work with the latest PV modules.
Feb-2021: Delta introduced M250HV, a high-capacity string inverter. The new solution aimed to accommodate flexible planning for large-scale solar power plants as well as make them more streamlined to create, maintain, and operate. In addition, the new inverter comprises 12 sets of MPP trackers and a 250kW power output along with more efficiency.
Acquisitions and Mergers:
Mar-2022: Enphase Energy acquired SolarLeadFactory, a solar lead generation engine on the web. With this acquisition, the company aimed to significantly increase lead volumes along with conversion rates in order to aid in reducing customer acquisition costs for installers.
Oct-2021: SunPower completed its acquisition of Blue Raven Solar, a residential solar provider in the US. Through this acquisition, the company aimed to leverage the complementary geographic footprint and growth trajectory of Blue Raven to expand its portfolio across the solar market with the aim to serve more customers.
Geographical Expansions:
Jan-2022: Alencon Systems expanded its geographical footprint with the expansion of its existing state-of-the-art suburban Philadelphia manufacturing and research & development facility. Through this expansion, the company aimed to bring improvements in its production and development of new alternative energy power electronics products and technologies.
Jun-2021: Enphase Energy expanded its geographical footprint with the launch of its Encharge battery storage system across Germany. Through this geographical expansion, the company aimed to provide configurations spanning from 3.5kWh to 42kWh as well as the choice to expand and upgrade via the lifetime of the system.
Market Segments covered in the Report:
By Connectivity
By Application
By End Use
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures