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市場調查報告書
商品編碼
1733351
HJT(異質結)太陽能電池的全球市場規模:按類型、應用、地區和預測Global HJT (Heterojunction) Solar Cell Market Size By Type (Monofacial Cell, Bifacial Cell), By Application (PV Power Station, Commercial, Residential), By Geographic Scope And Forecast |
預計 HJT(異質接面)太陽能電池市場規模在 2024 年將達到 24.7 億美元,到 2032 年將達到 137 億美元,2026 年至 2032 年的複合年成長率為 15.24%。
異質接面(HJT)太陽能電池結合了矽晶型和非晶質的薄層,與傳統的矽基太陽能電池相比,HJT太陽能電池有望提供顯著提高的能量轉換率。
由於HJT技術在各種環境條件下效率高且性能增強,其應用有望擴展到住宅、商業和工業設施等各個領域。
HJT太陽能電池因其優異的性能而廣泛應用,例如降低能量損失和提高溫度係數,有助於提高能量輸出和整體系統可靠性。
由於製造技術的進步和對高效可再生能源解決方案的需求不斷增加,HJT太陽能電池市場預計將出現強勁成長。
技術創新、生產成本下降以及政府支持政策等因素可能會加速全球異質結太陽能電池的發展和普及。
影響全球HJT太陽能電池市場的關鍵市場動態是:
關鍵促進因素
高效率和高性能:HJT太陽能電池的高效率和高性能預計將顯著推動市場成長。由於HJT太陽能電池能夠實現比傳統矽太陽能電池更高的能量轉換率,因此有望擴大其在太陽能發電市場的佔有率。隆基股份實現了 HJT 太陽能電池的最高效率,創下了量產 26.81% 的新世界紀錄,打破了 2017 年由未指定的日本製造商(可能是KANEKA)創下的 26.7% 的先前紀錄。
可再生能源:可再生能源的不斷成長的需求預計將推動 HJT 太陽能電池的採用。隨著世界各國加強減少碳排放,HJT技術因其卓越的能量輸出和永續性優勢,很可能獲得越來越多的支持。根據國際能源總署(IEA)的數據,2020年可再生能源裝置容量與前一年同期比較成長45%,達到280吉瓦,為1999年以來的最大增幅。其中,太陽能光電裝置容量達139吉瓦,凸顯了對太陽能解決方案的需求日益成長。
技術進步:HJT太陽能電池製造流程的不斷進步預計將提升其在市場上的佔有率。製造技術的創新有望降低成本並提高性能,使HJT太陽能電池更具競爭力。
政府支持和獎勵:政府對可再生能源計劃的支持和激勵措施的增加預計將推動 HJT 太陽能電池市場的發展。旨在促進清潔能源技術的政策和補貼可能會加速異質結太陽能電池的採用。
建築應用中的能源效率:建築應用中對能源效率的高需求預計將促進 HJT 太陽能電池市場的成長。隨著節能建築設計變得越來越普及,HJT太陽能電池的卓越性能有望滿足對永續能源解決方案日益成長的需求。
主要挑戰
製造成本高:HJT太陽能電池的製造成本高,預計會阻礙市場成長。 HJT 技術所需的先進材料和製造流程預計會更加昂貴,這可能會限制 HJT 太陽能電池的整體可負擔性。
製造能力有限:製造能力有限預計將限制 HJT 太陽能電池的廣泛應用。 HJT 技術的生產基礎設施仍在發展中,因此供應可能無法有效滿足不斷成長的需求。
技術複雜性:製造 HJT 太陽能電池所涉及的技術複雜性可能會阻礙市場擴張。製造和整合所需的複雜技術預計將對新參與企業和小型製造商構成重大障礙。
材料供應限制:材料供應限制預計會阻礙 HJT 太陽能電池市場的成長。 HJT 技術所需的專用材料預計將面臨可能影響生產擴充性的供應鏈挑戰。
主要趨勢:
研發投資:預計增加對 HJT 太陽能電池技術研發的投資將成為市場的一個主要趨勢。預計這些努力將持續提高電池效率並降低生產成本,從而進一步刺激其應用。
更加重視永續性:更加重視能源產出的永續性預計將推動對 HJT 太陽能電池的需求。隨著消費者和政府優先考慮綠色解決方案,HJT 技術可能會因其能源效率和低環境影響而得到更廣泛的採用。
大型計劃中的 HJT 技術:預計在大型太陽能計劃中採用 HJT 太陽能電池將成為關鍵的市場趨勢。 HJT技術因其在效率和能源輸出方面的卓越性能,有望成為公用事業規模太陽能發電裝置的首選。
雙面太陽能板:人們對採用 HJT 技術的雙面太陽能板的濃厚興趣預計將決定市場的未來。雙面板可從兩面發電,可望提高太陽能發電設備的效率,並有助於擴大對 HJT 太陽能電池的需求。
HJT (Heterojunction) Solar Cell Market size was valued at USD 2.47 Billion in 2024 and is projected to reach USD 13.7 Billion by 2032, growing at a CAGR of 15.24% from 2026 to 2032.
Heterojunction (HJT) solar cells are a combination of crystalline silicon with thin layers of amorphous silicon, HJT solar cells are anticipated to offer significant improvements in energy conversion rates compared to traditional silicon-based cells.
The application of HJT technology is projected to expand across various sectors, including residential, commercial, and industrial installations, due to its high efficiency and enhanced performance in diverse environmental conditions.
The growing adoption of HJT solar cells can be attributed to their superior attributes, such as reduced energy losses and better temperature coefficients, which contribute to increased energy output and overall system reliability.
The market for HJT solar cells is expected to experience robust growth, driven by advancements in manufacturing technologies and a rising demand for efficient renewable energy solutions.
Factors such as technological innovation, decreasing production costs, and supportive government policies are likely to accelerate the development and deployment of HJT solar cells globally.
The key market dynamics that are shaping the global HJT (heterojunction) solar cell market include:
Key Drivers:
High Efficiency and Performance: High efficiency and performance of HJT solar cells are anticipated to drive their market growth significantly. Due to their ability to achieve higher energy conversion rates compared to traditional silicon cells, HJT technology is projected to capture an increasing share of the photovoltaic market. The highest efficiency for HJT solar cells was achieved by LONGi, which set a new world record of 26.81% in mass production, surpassing the previous record of 26.7% set by an unspecified Japanese manufacturer in 2017, likely Kaneka.
Renewable Energy: Growing demand for renewable energy sources is expected to fuel the adoption of HJT solar cells. As global efforts to reduce carbon emissions intensify, HJT technology is likely to be increasingly favored for its superior energy output and sustainability benefits. According to the International Energy Agency (IEA), renewable energy capacity additions in 2020 rose by 45% to 280 GW, the largest year-on-year increase since 1999. Solar PV installations accounted for 139 GW of this growth, highlighting the increasing demand for solar energy solutions.
Technological Advancements: Increasing technological advancements in the manufacturing processes of HJT solar cells are projected to enhance their market presence. Innovations in production techniques are anticipated to lower costs and improve performance, making HJT solar cells more competitive.
Government Support and Incentives: Rising government support and incentives for renewable energy projects are expected to bolster the HJT solar cell market. Policies and subsidies aimed at promoting clean energy technologies are likely to accelerate the adoption of HJT solar cells.
Energy Efficiency in Building Applications: High demand for energy efficiency in building applications is projected to contribute to the growth of the HJT solar cell market. As energy-efficient building designs become more prevalent, the superior performance of HJT solar cells is anticipated to meet the increasing requirements for sustainable energy solutions.
Key Challenges:
High Production Costs: High production costs associated with HJT solar cells are anticipated to hamper market growth. As the advanced materials and manufacturing processes required for HJT technology are projected to be more expensive, the overall affordability of these cells may be restrained.
Limited Manufacturing Capacity: Limited manufacturing capacity is expected to restrain the widespread adoption of HJT solar cells. As the production infrastructure for HJT technology is still developing, the supply may not be able to meet the rising demand efficiently.
Technical Complexity: Technical complexity involved in the production of HJT solar cells is likely to impede market expansion. The sophisticated technology required for fabrication and integration is projected to be a significant barrier for new entrants and smaller manufacturers.
Material Supply Constraints: Material supply constraints are anticipated to hamper the growth of the HJT solar cell market. The specialized materials needed for HJT technology are estimated to face supply chain challenges, potentially affecting production scalability.
Key Trends:
Investment in Research and Development: Growing investment in research and development for HJT solar cell technology is projected to be a key trend in the market. These efforts are anticipated to lead to continuous improvements in cell efficiency and reductions in production costs, further driving adoption.
Increasing Focus on Sustainability: Increasing focus on sustainability in energy generation is expected to boost the demand for HJT solar cells. As consumers and governments prioritize eco-friendly solutions, HJT technology is likely to be increasingly adopted due to its high energy efficiency and low environmental impact.
HJT Technology in Large-Scale Projects: Rising integration of HJT solar cells in large-scale solar projects is anticipated to be a significant market trend. The superior performance of HJT technology in both efficiency and energy output is projected to make it a preferred choice for utility-scale solar installations.
Bifacial Solar Panels: High interest in bifacial solar panels, which utilize HJT technology, is likely to shape the future of the market. The ability of bifacial panels to generate electricity from both sides is expected to increase the efficiency of solar installations, contributing to the growing demand for HJT solar cells
Here is a more detailed regional analysis of the global HJT (heterojunction) solar cell market:
Asia Pacific:
According to Verified Market Research analyst, the Asia Pacific region is projected to dominate the Heterojunction (HJT) solar cell market due to significant investments in renewable energy and technological advancements in countries such as China and Japan.
China, in particular, is expected to hold the largest market share, driven by its robust solar manufacturing capabilities and strong government policies supporting solar energy expansion.
The presence of major HJT solar cell manufacturers and increasing demand for high-efficiency solar modules are anticipated to further solidify the region's leading position.
According to the International Renewable Energy Agency (IRENA), Asia accounted for 61% of new solar installations globally in 2020. China alone added 49 GW of solar capacity in 2020, bringing its total installed capacity to 253 GW.
Additionally, the growing emphasis on reducing carbon emissions and achieving energy security is projected to contribute to the increased adoption of HJT technology across the Asia Pacific region.
Europe:
Europe is anticipated to experience rapid growth in the HJT solar cell market, primarily driven by favorable government policies and initiatives aimed at achieving carbon neutrality.
Countries such as Germany and the Netherlands are likely to see heightened adoption of HJT solar cells due to their commitments to expanding renewable energy capacity.
The rising demand for high-performance solar technologies, combined with stringent energy efficiency standards, is expected to drive the market in this region.
Government incentives and investments in solar infrastructure in these regions are likely to fuel the market expansion.
The Global HJT (Heterojunction) Solar Cell Market is Segmented on the basis of Type, Application, And Geography.
Based on Type, the market is bifurcated into Monofacial Cell and Bifacial Cell. The bifacial cell segment is projected to hold the largest share of the Heterojunction (HJT) solar cell market. This dominance is attributed to the higher energy conversion efficiency offered by bifacial cells, as they are capable of capturing sunlight from both sides of the panel. This feature is anticipated to lead to increased energy yield, making them more suitable for large-scale solar projects and high-performance applications.
Based on Application, the global HJT (heterojunction) solar cell market is divided into PV Power Station, Commercial, and Residential. The PV power station segment is projected to hold the largest share of the Heterojunction (HJT) solar cell market due to the increasing demand for utility-scale solar installations and the rising focus on renewable energy projects. The segment is anticipated to benefit from the high efficiency and superior performance of HJT solar cells, which are particularly suitable for large-scale solar farms.
The "Global HJT (Heterojunction) Solar Cell Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are Hanergy, Panasonic Sanyo, CIC Solar, Kaneka, INES, NSP, Sunpreme, Hevel, Eco Solver, 3 Sun, GS-Solar, and CIE Power. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.
Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.