市场调查报告书
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1396572
三氯氢硅市场规模 - 按生产过程(氢氯化、直接氯化)、按应用(硅烷偶联剂、多晶硅)和全球预测,2023 - 2032 年Trichlorosilane Market Size - By Production Process (Hydrochlorination, Direct Chlorination), By Application (Silane Coupling Agent, Polycrystalline Silicon), & Global Forecast, 2023 - 2032 |
在全球向清洁和永续能源转型的推动下,三氯氢硅市场规模预计从 2023 年到 2032 年将以 10.8% 的CAGR扩大。
三氯硅烷在多晶硅的生产中发挥关键作用,因为它是清洁能源系统中太阳能电池的关键材料。随着世界主要国家加强减少碳足迹并增加对再生能源的依赖,对三氯氢硅的需求正在激增。此外,亚太地区(尤其是中国和日本)强大的工业基础设施和日益增长的工业化也使得对三氯氢硅的需求激增。一些公司越来越重视投资扩大生产设施以满足不断增长的需求,这将推动行业成长。例如,2022年6月,三福宣布拟投资7,526.52万元,扩建年产7.22万吨的三氯氢硅装置。
该行业分为生产过程、应用和地区。
就生产製程而言,直接氯化领域的三氯氢硅市场预计将在2023-2032年显着成长。硅和氯化氢直接反应生成三氯硅烷,这是生产太阳能电池和半导体所用多晶硅的重要前驱物。此外,直接氯化製程具有较高的效率和成本效益,有助于其在半导体和太阳能产业的广泛采用,从而促进该领域的成长。
根据应用情况,由于再生能源和电子设备的需求不断增长,多晶硅领域的三氯硅烷产业可能在 2023 年至 2032 年间出现高需求。随着半导体产业的快速成长,对多晶硅的需求激增,因为它是电子设备製造中不可或缺的一部分。此外,持续的技术进步和全球清洁能源转型将推动该领域的扩张。
从地区来看,2022年亚太地区在三氯氢硅市场中占有相当大的收入份额,预计到2032年将呈现可观的增长。亚太地区已成为半导体和太阳能製造中心,进一步增加了对电子和可再生能源解决方案的需求。强大的工业基础设施加上政府在该地区推广清洁能源的倡议激增,正在推动三氯氢硅在多晶硅生产中的采用。此外,中国和日本主要企业对技术和製造能力的投资不断增加,将增强该地区的产业前景。
Trichlorosilane Market size is projected to expand at 10.8% CAGR from 2023-2032 driven by the global transition towards clean and sustainable energy sources.
Trichlorosilane plays a pivotal role in the production of polycrystalline silicon as it acts as a key material for solar cells in clean energy systems. With major countries worldwide intensifying efforts to reduce carbon footprints and increase reliance on renewable energy sources, the demand for trichlorosilane is surging. Moreover, the robust industrial infrastructure and the increasing industrialization in the APAC, particularly China and Japan is also surging the need for trichlorosilane. The growing emphasis of several firms on investing for the expansion of production facilities to address the rising demands will propel the industry growth. For instance, in June 2022, Sanfu announced its plans to invest 75.2652 million yuan for the expansion of its trichlorosilane plant with an annual production capacity of 72200 tons.
The industry is segmented into production process, application, and region.
In terms of production process, the trichlorosilane market from the direct chlorination segment is anticipated to record significant growth from 2023-2032. Silicon and hydrogen chloride undergo direct reactions to generate trichlorosilane, a crucial precursor in the production of polysilicon used in solar cells and semiconductors. Additionally, the direct chlorination process offers efficiency and cost-effectiveness, contributing to its increased adoption in the semiconductor and solar industries, thereby boosting the segment growth.
Based on application, the trichlorosilane industry from the polycrystalline silicon segment is likely to witness high demand between 2023 and 2032 attributed to the rising demand for renewable energy and electronic devices. With the rapid growth of the semiconductor industry, the demand for polycrystalline silicon is surging as it is integral for the manufacturing of electronic devices. Moreover, the ongoing technological advancements and the global clean energy transition will fuel the segment expansion.
Regionally, Asia Pacific held sizable revenue share of the trichlorosilane market in 2022 and is estimated to exhibit considerable growth through 2032. Asia Pacific has emerged as a hub for semiconductor and solar manufacturing, further escalating the demand for electronics and renewable energy solutions. The robust industrial infrastructure coupled with the surge in government initiatives for promoting clean energy in the region is fueling the adoption of trichlorosilane in polycrystalline silicon production. Additionally, the rising investments in technology and manufacturing capabilities by major businesses across China and Japan will augment the regional industry outlook.