市場調查報告書
商品編碼
1339922
2030年太陽能光伏玻璃市場預測:按產品類型、組件、結構、透明度、安裝技術、用途和地區進行的全球分析Solar Photovoltaic Glass Market Forecasts to 2030 - Global Analysis By Product Type, Module, Composition, Grade of Transparency, Installation Technology, Application and By Geography |
根據Stratistics MRC的數據,2023年全球太陽能光伏玻璃市場規模為77.9億美元,預計預測期內年複合成長率為32.8%,到2030年將達到567.8億美元。
光伏(PV)玻璃是一種利用太陽能電池利用太陽發電的玻璃。它們安裝在屋頂和外牆上,為整個建築發電。太陽能電池安裝在兩片玻璃之間,玻璃中填充有特定的樹脂。光伏玻璃將建築物變成垂直發電廠,利用陽光產生免費、清潔的電力。光伏玻璃允許陽光透過。此外,它還具有隔熱和隔音性能,可以吸收95%的紅外線和99%的危險紫外線,確保優異的屏蔽性能。
據國際可再生能源機構(IREA)預測,2022年印度太陽能發電容量將達到62.8吉瓦以上,較2021年成長21.5%。因此,太陽能發電容量的增加預計將提振該國的太陽能玻璃市場。
由於離網電力系統的發展,太陽能玻璃市場對於製造商來說具有巨大的成長潛力。全球有超過十億人生活在無電狀態,離網技術是經濟負擔沉重的新興國家解決這一問題的最實用的解決方案。此外,由於綠色建築施工技術的開拓,全球光伏玻璃市場不斷擴大,光伏玻璃作為永續建築結構要素的使用不斷增加。為了賦予建築物產生可再生能源的潛力,太陽能被涵蓋建築設計中,作為綠色建築的一部分。
由於運輸成本高昂,需要新鮮玻璃或靠近光伏組件生產商生產的玻璃。品質區分非常重要,因為矽晶型組件需要高品質的光伏玻璃,而薄膜組件可能使用品質較低的浮法玻璃。對於此類公司來說,鑑於現有的生產水平,很難開發專用的太陽能浮法玻璃生產線。典型的玻璃生產線生產各種厚度和等級的玻璃。製造太陽能玻璃通常效率低下,需要大量玻璃庫存才能實現規模經濟和較長的準備時間。因此,傳統玻璃製造商將太陽能玻璃轉為建築和汽車玻璃生產,阻礙了市場成長。
只需將太陽能玻璃整合到建築物和屋頂系統中,您就可以通過高效利用太陽能和創新的建築設計來生產可再生能源。此外,隨著印度工業活動的成長,其工業電力需求也隨之成長。因此,屋頂太陽能發電系統成為企業獨立的可靠選擇,印度屋頂太陽能發電市場有望成長。中國、英國、美國、印度、日本和馬來西亞是太陽能玻璃市場的重要參與者。非住宅領域在太陽能電池的使用方面處於領先地位。
由於過度工作而變得潮濕的印版區域被稱為熱點。電池板熱點通常是由太陽能電池連接不良或結構問題引起的。電池供電部分的焊點不良是低電阻的根本原因。此類事件的最終結果是短路,降低光伏電池板的效率和使用壽命。一些太陽能園區存在熱點,需要更換太陽能電池板,從而迅速增加項目成本。
由於 COVID-19 的開拓,全球太陽能玻璃市場受到嚴重阻礙。各國實施的封鎖和進出口限制對工業活動和太陽能玻璃的供需產生了重大影響。由於勞動力短缺,與可再生能源領域相關的基礎設施項目也被暫停。然而,自 COVID-19 以來,隨著能源消耗的增加和永續性意識的傳播,該行業取得了顯著的進步。
由於矽晶型光伏組件在公用事業太陽能發電場的廣泛使用,預計其將出現良好的成長。矽晶格具有良好的有序結構,能夠高效地將光轉化為能量。此外,矽是一種儲量豐富的半導體,而且通常很安全,因此適合大規模太陽能電池生產。
隨著建築行業的擴張和需求的增加,各類結構對光伏玻璃的需求預計將增加,特別是在亞太、北美和歐洲地區。未開發領域的先發優勢和相當低的收購成本仍然是該市場的關鍵驅動力。在不久的將來,建築玻璃業務可能會採用發電窗戶。由於太陽能電池整合到玻璃窗板中,可以利用太陽能為建築物隔熱,同時調節室內照明水平,從而促進市場成長。
由於中國、印度和日本等新興國家的電力短缺正在增加使用光伏玻璃自發電的潛力,預計亞太地區將在預測期內佔據最大的市場佔有率。亞太地區是太陽能玻璃主要製造商的所在地。太陽能電池產生的能量減少了碳和溫室排放,排放確保降低能源成本。然而,太陽能在住宅領域的高滲透率催生了大型公用事業對中央逆變器的需求。在預測期內,上述因素和政府的推動正在推動太陽能玻璃的需求不斷成長。
由於大量太陽能系統用於發電、區域供暖和製冷、熱水和空間供暖,預計歐洲在預測期內將經歷最高的年複合成長率。高度發達的基礎設施以及地方政府支持和部署可再生能源技術的大力努力預計將對歐洲市場產生積極影響。未來幾年,在政府鼓勵屋頂安裝的持續措施和更嚴格的碳排放法規的推動下,英國的這一行業預計將出現顯著的收入成長。政府的首要任務是擺脫骯髒的化石燃料並轉向太陽能。
According to Stratistics MRC, the Global Solar Photovoltaic Glass Market is accounted for $7.79 billion in 2023 and is expected to reach $56.78 billion by 2030 growing at a CAGR of 32.8% during the forecast period. Solar photovoltaic (PV) glass is a type of glass used to generate electricity from the sun using solar cells. To generate power for a complete building, it is put within the roof or facade portions of structures. Solar cells are mounted between two glass panes that have specific resin filler in these glasses. Buildings become vertical power producers owing to PV Glass, which uses the sun to produce free and clean electricity. PV Glass allows for the passage of daylight. Additionally, it offers thermal and acoustic insulation, guaranteeing excellent filtration as up to 95% of infrared radiation and 99% of dangerous UV radiation may be absorbed.
According to the International Renewable Energy Agency (IREA), solar photovoltaic energy capacity in India reached over 62.8 gigawatts in 2022, a 21.5% increase over 2021. As a result, an increase in the capacity of solar photovoltaic energy is expected to boost the solar photovoltaic glass market in the country.
Large-scale potential for growth exist for manufacturers in the photovoltaic glass market arena as a result of the development of off-grid power systems. More than a billion people live without access to power worldwide, making off-grid technology the most viable solution to the problem in significant emerging nations with large finances. Furthermore, the global market for solar PV glasses is expanding as a result of the development of green building construction techniques, which increasingly use solar PV glasses as a component of sustainable building. In order to give buildings the potential to produce their own renewable energy, photovoltaics are being included into building designs as part of green construction.
Due to high shipping expenses, there is a demand for fresh glass or glass that is manufactured close to the solar PV module producers. For crystalline silicon modules, quality distinction is crucial because thin film modules may employ low-grade float glass whereas crystalline silicon modules need high-quality solar PV glass. It is challenging for these firms to develop specialized solar float lines given the existing production levels. Glass of various thicknesses and grades is produced on typical glass production lines. The manufacture of solar PV glass is frequently inefficient due to the need for huge glass inventories to achieve economies of scale and lengthy setup periods. As a result, traditional glass producers give solar PV glass a back seat to the production of building and automobile glass which impedes the growth of the market.
With the simple integration of solar photovoltaic glass into structures and rooftop systems, renewable energy may be produced through the efficient utilization of solar energy and innovative architectural design. Additionally, the need for industrial power will expand as India's industrial activity grows. Rooftop solar systems would therefore offer a reliable choice for businesses to become independent, which is anticipated to grow the rooftop solar market in India. China, the United Kingdom, the United States, India, Japan, and Malaysia are important players in the market for solar photovoltaic glass. The non-residential sector leads in the use of solar photovoltaic cells.
The overworked and moistened parts of the plates are known as the hot spots. Hotspots on panels are frequently caused by weak connections or structural issues with solar cells. Poor solder joints in the region of the panel that receives the power produced by the cell are the root cause of low resistance. The eventual outcome of this occurrence will be a short circuit, which will decrease the PV panel's efficiency and lifetime. In several solar parks, it has hot spots that call for solar panel replacement and sharply increase the expenses of the projects.
The global market for solar photovoltaic glass had severe development hindrances as a result of the exceptional COVID-19 pandemic epidemic. Lockdowns and import-export limitations imposed by various nations had a substantial impact on industrial activity as well as the supply and demand for solar photovoltaic glass. Due to a labour shortage, the infrastructure-related operations associated with the renewable energy sector were also briefly put on hold. However, the sector has experienced remarkable development as energy consumption increased and sustainability consciousness spread in the years after COVID-19.
The crystalline silicon PV modules segment is estimated to have a lucrative growth, due to the widespread use of these modules in utility solar farms is what has caused this market to flourish. The silicon lattice has a well-organized structure that makes it more effective at converting light into energy. Additionally, silicon is a plentiful semiconductor and is typically safe, making it appropriate for the production of large-scale solar cells and on the other hand, are a more recent technology with higher efficiency than conventional modules thus propelling the growth of the market.
The residential segment is anticipated to witness the highest CAGR growth during the forecast period, as the construction industry expands and demand rises, particularly in the regions of Asia-Pacific, North America, and Europe, it is proposed that there will be an increase in the need for solar photovoltaic glass for all sorts of structures. First-mover advantage in uncharted territories and reasonably low acquisition costs continue to be significant driving forces in this market. The architectural glazing business will soon incorporate windows with the potential to generate electricity. It will be feasible to harness the sun's energy to insulate buildings from the cold while regulating the interior lighting levels thanks to solar cells embedded in glass window panels which boosts the market growth.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the shortage of power in emerging nations like China, India, and Japan has increased the potential for the area to produce its own electricity utilizing solar photovoltaic glass. The Asia-Pacific area is home to the major solar photovoltaic glass manufacturers. The energy produced by solar photovoltaic cells guarantees energy cost reductions while lowering carbon footprints and greenhouse gas emissions. However, the high rate of solar penetration in the residential sector, generating a need for larger, central inverters for large utility-scale projects. During the projection period, the aforementioned elements, together with government backing, are helping to fuel an increase in demand for solar photovoltaic glass.
Europe is projected to have the highest CAGR over the forecast period, owing to a large number of solar energy systems, which are utilized for power production, district heating & cooling, water heating, and space heating. It is anticipated that the highly developed infrastructure and the diligent efforts of the regional administration to support and deploy renewable energy technology would positively impact the European market. Over the next several years, the UK sector is anticipated to have an exponential growth in income, led by continuous government measures to promote rooftop installation and tough regulations against carbon emissions. The government's top priorities are to quit utilizing filthy fossil fuels and convert to solar energy.
Some of the key players profiled in the Solar Photovoltaic Glass Market include: AGC Glass, Nippon Sheet Glass Co., Ltd., Canadian Solar, JA SOLAR Technology Co.,Ltd., INFINI Co. Ltd, Mitsubishi Electric Corporation, Taiwan Glass Industry Corporation, Sisecam, Guardian Glass, SunPower Corporation, Jinko Solar, Onyx Solar Group LLC., KYOCERA Corporation, KANEKA CORPORATION, Guangdong Golden Glass Technologies Ltd.,, Interfloat Corporation, Saint-Gobain, Xinyi Solar Holdings Limited, Emmvee Toughened Glass Private Limited and Hecker Glastechnik GmbH & Co. KG
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.