市場調查報告書
商品編碼
1359019
2030 年溴化氫市場預測:按細分市場和地區分類的全球分析Hydrogen Bromide Market Forecasts to 2030 - Global Analysis By Type, Form, End User and By Geography |
根據Stratistics MRC的數據,2023年全球溴化氫市場規模為45.7億美元,預計2030年將達到72.9億美元,預測期內年複合成長率為6.9%。
溴和氫之間的化學反應產生溴化氫 (HBr),這是一種水溶性氣體,也可以以水溶液形式產生。溴化氫既充當催化劑又可作為還原劑。此外,溴化氫與水結合會產生氫溴酸,這是一種主要用於工業的強酸。氫溴酸可用於為任何化合物付加所需的特性。無機溴化物、有機溴、對苯二甲酸、鋅、鈉和鈣的溴化物也可以使用氫溴酸生產。
然而,根據國際勞工組織的說法,溴具有更明顯的毒性作用。 AIHA 報告稱,短期接觸 40 至 60 ppm 的溴對人體是危險的(Henderson 和 Haggard 1943)。
溴化氫主要用於化學工業。使用溴化氫合成多種化合物,包括藥物、阻燃劑和特殊化學品。此外,以 HBr 作為原料的新化學製程的開發、經濟成長以及消費者對化學產品的需求都影響著該領域的需求。
溴化氫生產和溴提取對環境的影響是巨大的。這包括廢棄物的產生和溴化化合物的排放,這可能導致臭氧層消耗。此外,環保意識的增強和法規的收緊可能需要投資於更清潔和更永續的生產技術,這可能會增加生產成本。
半導體技術的不斷進步需要尖端的材料和製程。 HBr 在半導體製造的應用超出了傳統蝕刻的範圍。此外還提供與半導體公司合作創造新材料和程式的機會,以提高微晶片和電子設備的功能和有效性,並加速電腦、通訊和電子領域的進步。
由於市場主要依賴從天然鹵水礦床獲取的溴,因此存在因地緣政治不穩定或溴產區環境法規等因素導致供應中斷的風險。此外,這些地區的政治紛爭或衝突導致供應鏈突然中斷,使溴的可得性和成本面臨風險。不斷變化的環境法規也可能限制這些地區的溴提取,導致供應鏈集中並增加氫溴酸生產商的供應風險。
溴化氫 (HBr) 市場受到 COVID-19大流行的嚴重影響。生產和分銷最初受到供應鏈中斷、勞動力短缺和限制的阻礙,導致短期供應問題和潛在的價格波動。此外,由於經濟活動減少和許多產業的不確定性,對氫溴酸產品的需求會波動。然而,疫情凸顯了對依賴氫溴酸的儲能方案和半導體技術的需求,促使某些部門市場的需求增加。
溴化氫(HBr)市場預計將在石油、天然氣鑽探領域佔據最大佔有率。在該行業中,HBr被用作鑽井液的關鍵成分,以提高鑽井效率並防止設備腐蝕。 HBr 在石油、天然氣行業中至關重要,尤其是在困難的鑽井作業中,因為它能夠減少地層損害並控制井孔穩定性。此外,由於全球對石油、天然氣的高需求,該行業繼續廣泛使用 HBr,使其成為最常見的化學品用途。
溴化氫(HBr)市場在水處理領域中表現出最高的年複合成長率。 HBr 是水處理行業中使用的許多製程的關鍵成分,包括 pH 調節、消毒和腐蝕控制。由於對水質問題的日益關注、法規的收緊以及對永續水資源管理的日益重視,水處理用途中對 HBr 的需求正在增加。此外,海水淡化、工業污水處理、市政水處理等產業對高效水處理解決方案的需求不斷蔓延,推動了該市場的穩定擴張。
歐洲佔據溴化氫(HBr)市場的最大佔有率。歐洲擁有多元化的工業基礎,是氫溴酸的重要消費國,包括德國、英國和法國。 HBr 有多種用途,包括化學、電子、製藥和建築業。此外,歐洲嚴格的環境法規正在推動環保阻燃劑和水處理等綠色產品中對 HBr 的需求。該地區對永續性和創新的關注也有助於其與北美一起成為 HBr 市場的關鍵參與者。
預計亞太地區(APAC)的溴化氫(HBr)市場年複合成長率最高。亞太地區正在經歷快速的工業化、都市化和經濟成長,包括中國、印度、日本和韓國等國家。因此,HBr 在建築、農業、電子和汽車製造等多個行業都有很高的需求。此外,韓國和台灣等國家不斷成長的半導體產業以及對清潔水和永續農業的日益關注也推動了該地區的氫溴酸需求。由於製造和技術能力的擴大以及環保意識的提高,亞太地區是 HBr 市場的高成長地區。
According to Stratistics MRC, the Global Hydrogen Bromide Market is accounted for $4.57 billion in 2023 and is expected to reach $7.29 billion by 2030 growing at a CAGR of 6.9% during the forecast period. The chemical reaction between bromine and hydrogen results in hydrogen bromide (HBr), a water-soluble gas that can also be created as an aqueous solution. It functions as both a catalyst and a reducing agent in reactions. Moreover, hydrobromic acid, a potent acid that is mainly used in industry, is created when hydrogen bromide is combined with water. Any chemical compound can have desirable properties added to it using hydrobromic acid. Inorganic bromides, organ bromines, terephthalic acid, zinc, sodium, and calcium bromides are also produced using it.
According to ILO, however, bromine produces a more marked toxic action. AIHA reported that for humans, 40 to 60 ppm bromine is dangerous for short exposure Henderson and Haggard 1943.
Hydrogen bromide is primarily consumed by the chemical industry. Many different chemical compounds, including pharmaceuticals, flame retardants, and specialty chemicals, are synthesized using HBr. Additionally, the development of new chemical processes that use HBr as a raw material, as well as economic growth and consumer demand for chemical products, all have an impact on this sector's demand.
Environmental effects from HBr production and bromine extraction can be significant. These include the production of waste byproducts and the emissions of brominated compounds, which may contribute to the destruction of the ozone layer. Furthermore, investments in cleaner, more sustainable production techniques are required as a result of increased environmental awareness and stricter regulations, which could raise production costs.
Cutting-edge materials and procedures are necessary for the ongoing advancements in semiconductor technology. The use of HBr in semiconductor fabrication goes beyond just conventional etching. Moreover, it provides chances for cooperation with semiconductor firms to create new substances and procedures that improve the functionality and effectiveness of microchips and electronic gadgets, promoting advancements in computing, communications, and electronics.
Due to the market's reliance on bromine, which is primarily obtained from natural brine deposits, supply disruptions due to elements like geopolitical unrest and environmental regulations in bromine-producing regions are a risk. Additionally, the availability and cost of bromine are put at risk when there is sudden supply chain interruptions brought on by political conflicts or disputes in these regions. The extraction of bromine may also be restricted in these areas due to changing environmental regulations, which would concentrate the supply chain and increase supply risks for HBr producers.
The hydrogen bromide (HBr) market is significantly impacted by the COVID-19 pandemic. Production and distribution were initially hampered by supply chain disruptions, labor shortages, and lockdown procedures, which led to short-term supply problems and potential price changes. Furthermore, the demand for goods based on HBr fluctuated due to decreased economic activity and uncertainty in a number of industries. However, certain market segments experienced increased demand as the pandemic highlighted the need for energy storage options and semiconductor technologies that rely on HBr.
The market for hydrogen bromide (HBr) is anticipated to hold the largest share in the oil and gas drilling segment. In this industry, HBr is used as a crucial component in drilling fluids to increase drilling efficiency and prevent corrosion on equipment. HBr is essential in the oil and gas industry, especially in difficult drilling operations, due to its capacity to reduce formation damage and control wellbore stability. Moreover, this industry continues to use HBr extensively due to the high global demand for oil and gas, making it the chemical's most common use.
The market for hydrogen bromide (HBr) shows the highest CAGR in the water treatment segment. HBr is a crucial ingredient in many processes used in the water treatment industry, including pH regulation, disinfection, and corrosion inhibition. The demand for HBr in water treatment applications has increased as a result of rising concerns about water quality, escalating regulations, and a growing emphasis on sustainable water management. Additionally, the demand for efficient water treatment solutions is widespread across industries, including desalination, industrial wastewater treatment, and municipal water treatment, which is fueling this market's steady expansion.
The European region holds the largest market share for hydrogen bromide (HBr). Due to its diverse industrial base, Europe, which includes nations like Germany, the United Kingdom, France, and others, is a significant consumer of HBr. HBr is used in a variety of applications in the chemical, electronic, pharmaceutical, and construction industries. Furthermore, the strict environmental regulations in Europe fuel the demand for HBr in green products like eco-friendly flame retardants and water treatment. The region's emphasis on sustainability and technological innovation also helps to explain why it is a significant player alongside North America in the HBr market.
The Asia-Pacific (APAC) region is anticipated to have the highest CAGR in the hydrogen bromide (HBr) market. APAC is experiencing rapid industrialization, urbanization, and economic growth and includes nations like China, India, Japan, and South Korea. As a result, HBr is increasingly in demand in a variety of industries, including construction, agriculture, electronics, and auto manufacturing. Moreover, the demand for HBr in this region has also been boosted by the developing semiconductor industry in nations like South Korea and Taiwan, as well as the increasing focus on clean water and sustainable agriculture. APAC is a high-growth region in the HBr market due to the expansion of manufacturing and technological capabilities as well as rising environmental awareness.
Some of the key players in Hydrogen Bromide Market include: Linde Plc, Bhavika Chemicals Corporation, Praxair Technology, Air Liquide, Tata Chemicals Ltd, Matheson Tri-Gas, Inc, Chevron Phillips Chemical Company Llc, Gulf Resources, Inc, Chemtura Corporation, Lanxess, Sontara Organo Industries, Showa Denko K.K, Albemarle Corporation, Neogen Chemical Ltd, Tosoh Corporation, Triveni Interchem Private Limited and Verni Gas Corporation.
In June 2023, Air Liquide has signed a long-term Power Purchase Agreement (PPA) with the China Three Gorges Renewables and China Three Gorges Corporation Jiangsu Branch, subsidiaries of China Three Gorges, one of China's largest producers and retailers of renewable electricity, to purchase a total of 200 MW of renewable power per year in China.
In April 2023, Linde announced that it has signed a long-term agreement with ExxonMobil for the off-take of carbon dioxide associated with Linde's new clean hydrogen production in Beaumont, Texas. Linde previously announced that it will build, own and operate an on-site complex to supply clean hydrogen and nitrogen to OCI Global's (Euronext: OCI) new world-scale blue ammonia plant.
In January 2023, Tata Chemicals Europe signs offtake agreement with Vertex Hydrogen. Under the new offtake agreement, Vertex will supply TCE with hydrogen as the manufacturer continues to decarbonise its operations in the UK with a target of achieving "net zero" manufacturing by 2030.