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1738891

全球合成丁二烯和生物基丁二烯市場按產品類型、應用、最終用戶、區域範圍和預測

Global Synthetic and Biobased Butadiene Market By Product Type, By Application (Styrene Butadiene Rubber, Polybutadiene Rubber, Styrene Butadiene, Acrylonitrile Butadiene Styrene ), By End-User, By Geographic Scope And Forecast

出版日期: 2025年05月07日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

合成丁二烯和生物基丁二烯的市場規模與預測

2024 年合成和生物基丁二烯市場規模價值 250.9 億美元，預計到 2032 年將達到 361.9 億美元，2026 年至 2032 年的複合年成長率為 5.17%。

丁二烯（1,3-丁二烯）是一種無色、無腐蝕性氣體，略有氣味，在-4.5°C以下凝結成液體。其主要透過粗丁烯（C4）精製技術生產。

汽車和橡膠產業是合成和生物基丁二烯的主要消費者，佔全球供應量的75%以上。在這些產業中，丁二烯是橡膠化合物生產的關鍵原料，合成和生物基丁二烯通常與各種加工油、天然和合成彈性體混合。

加熱此混合物可生產不同類型的橡膠，例如聚丁二烯橡膠 (PBR)、苯乙烯丁二烯橡膠 (SBR)、丙烯腈丁二烯苯乙烯 (ABS)、苯乙烯丁二烯 (SB) 乳膠和己二腈。

合成丁二烯和生物基丁二烯廣泛用於生產SBR、PBR、聚合物、塑膠和乳膠。在輪胎製造業，這兩種丁二烯都被用作橡膠增強材料，因為它們能夠增強橡膠的補強性、回彈性、撕裂強度和導電性，並有助於改善輪胎的整體物理性能。

隨著人們對永續實踐的興趣日益濃厚，源自可再生資源的綠色丁二烯正逐漸成為合成丁二烯的替代品。然而，C4混合丁二烯和石油基丁二烯等原料價格的波動會影響市場動態。

此外，合成丁二烯生產過程中釋放的有毒化學物質所帶來的環境問題也構成了重大挑戰，可能會限制需求並增加更永續的生物基選擇的吸引力。

全球合成與生物基丁二烯市場動態

影響全球合成和生物基丁二烯市場的關鍵市場動態是：

關鍵市場促進因素

汽車產業的成長：汽車產業的成長是丁二烯市場的主要驅動力，因為丁二烯是生產合成橡膠的關鍵成分，而合成橡膠則廣泛應用於輪胎製造。汽車產量的成長，尤其是在新興經濟體，直接推動了對丁二烯的需求。全球轉向更大、更高性能輪胎的趨勢進一步加劇了這一趨勢，這需要更多的合成橡膠，也需要更多的丁二烯。

輪胎製造業的擴張：全球輪胎製造業的擴張導致丁二烯消費量增加。隨著輪胎製造商不斷創新，生產性能和耐用性更佳的輪胎，對丁二烯基合成橡膠的需求也日益成長。這一趨勢反映了汽車產業向更先進、更高品質產品的轉變。

建設活動增加：建設活動的增加對丁二烯的需求產生了正面影響。丁二烯用於生產各種建築材料，例如黏合劑、密封劑、防水產品等。隨著都市化和基礎建設的推進，全球建築業不斷擴張，對丁二烯基材料的需求也不斷成長。

消費品需求成長：消費品需求成長也促進了丁二烯市場的成長。丁二烯是生產塑膠、合成纖維和其他消費品的必需原料。隨著全球人口的成長和可支配收入的提高，消費品需求不斷成長，這反過來又增加了對丁二烯的需求。

永續性：人們對永續性的日益關注正在影響丁二烯市場。消費者和企業越來越重視環保產品，這導致生物基丁二烯的應用日益廣泛。傳統丁二烯的永續替代品符合減少工業生產對環境影響的整體趨勢。

嚴格的環境法規：嚴格的環境法規在塑造丁二烯市場方面也扮演關鍵角色。世界各國政府正在實施更嚴格的法規，以控制碳排放並促進可再生資源的使用。這些法規正在推動生物基丁二烯的應用，因為與合成丁二烯相比，生物基丁二烯提供了更永續的選擇。

橡膠製品需求不斷成長：輪胎、皮帶、軟管、密封件等橡膠製品的需求不斷成長，進一步推動了丁二烯市場的發展。由於這些產品對汽車和製造業等各行各業都至關重要，橡膠製品消費量的增加導致丁二烯需求的增加。

主要挑戰

原油價格波動：由於丁二烯是一種石化衍生物，原油價格波動對丁二烯市場影響重大。丁二烯的生產與原油成本密切相關，原油價格波動會影響製造商的生產成本和盈利。當原油價格上漲時，丁二烯的生產成本也會上升，這可能會導致最終產品價格上漲，從而降低製造商的利潤率。反之，如果原油價格下跌，生產成本可能會下降，但市場價格下跌也會導致盈利下降。

環境問題：環境問題是丁二烯產業面臨的另一個主要挑戰。合成丁二烯的生產嚴重依賴石化燃料，導致大量的碳排放和其他污染物。隨著全球環境法規的日益嚴格以及公眾對氣候變遷意識的不斷增強，該行業面臨越來越大的壓力，需要減輕其對環境的影響。這包括解決排放，並尋找更永續的生產方法，以符合新的監管標準和消費者期望。

與生物基丁二烯的競爭：生物基丁二烯的興起對合成丁二烯構成了競爭威脅。生物基丁二烯源自可再生生質能資源，提供了更永續且符合環保目標的替代方案。然而，轉型並非沒有挑戰。目前，生物基丁二烯的生產成本高於合成丁二烯。這是由於技術相對不成熟，以及生質能原料和製造流程成本高。

原料供給能力有限：原料供應有限使生物基丁二烯的生產更加複雜。適合生產丁二烯的生質能不僅受到地理限制，而且供應也不穩定。這種限制影響了供應鏈的可靠性，並使生產商難以擴大生物基丁二烯的生產規模。

技術挑戰：技術挑戰在生物基丁二烯的開發中也扮演關鍵角色。將生質能轉化為丁二烯的製程複雜，且尚處於技術進步的早期階段。需要進行大量的研發工作，以提高此類轉化製程的效率和產量，並使生物基丁二烯與合成替代品具有競爭力。

市場滲透：生物基丁二烯的市場滲透需要在多個領域進行大量投資。建立強勁的市場需要對基礎設施、消費者教育以及技術進步進行投資。開發必要的生產設施並向市場宣傳生物基丁二烯的優勢需要大量資金。這項投資對於克服應用障礙和建立市場地位至關重要。

主要趨勢

轉向現場生產：許多製造商現在將丁二烯生產直接納入其下游業務，以降低供應鏈風險並降低成本。現場生產丁二烯使企業能夠更好地控制生產流程，降低運輸成本，並最大限度地減少供應鏈中斷。

高純度丁二烯日益受到關注：隨著高性能產品需求的不斷成長，對高純度丁二烯的需求也日益成長。這一趨勢推動了精製技術的進步，使生產商能夠滿足高性能應用的嚴格要求。精製工藝的改進有助於實現各行各業專業應用所需的品質和性能特徵。

與石化價值鏈的整合：丁二烯生產也正致力於與更廣泛的石化價值鏈進行整合。生產商正在探索與其他石化產品進行整合的機會，以提高盈利並減少浪費。建構一個更互聯的生產系統，可以幫助企業最佳化資源利用率，提高營運效率，並充分利用石化產業的協同效應。

更加重視永續性。隨著人們對環境問題的日益關注，永續性已成為行業關注的焦點。人們越來越重視採用生物基丁二烯作為傳統合成丁二烯的更永續的替代品。這種轉變反映了更廣泛的環境目標和消費者對更環保產品的偏好。隨著對永續性的日益重視，採用生物基丁二烯與減少碳排放和推廣可再生資源的努力一致。

生物技術進步：生物技術的發展在生物基丁二烯的開發中發揮關鍵作用。正在進行的研究和開發正在改進將生質能轉化為丁二烯的製程。這些生物技術創新正在提高生物基生產方法的效率和產量，使其比傳統的合成丁二烯更具競爭力。

開發新原料：該產業也正在探索生質能原料多元化，以支持生物基丁二烯的生產。增加原料種類可以幫助生產者減少對特定作物的依賴，並確保更永續、更穩定的供應。這種多元化解決了與原料供應相關的問題，並有助於建立更具韌性的供應鏈。

與汽車產業的合作：為了提升汽車的永續性，汽車製造商對用於輪胎生產的生物基丁二烯的興趣日益濃厚。此類合作將推動生物基丁二烯的需求，並支持其融入汽車供應鏈，從而符合產業更廣泛的永續性目標。

加強建模和模擬的應用。先進的建模和模擬工具正被用於最佳化丁二烯的生產流程。這些工具有助於改善生產流程、降低成本並提高產品品質。先進的建模和模擬技術有助於更好地預測丁二烯的生產結果、簡化操作流程並提高整體效率。

The automotive and rubber industries are the major consumers of both synthetic and biobased butadiene, using over 75% of the global supply. In these industries, butadiene is crucial for creating rubber compounds, which involve mixing synthetic and biobased butadiene with various processing oils, and natural and synthetic elastomers.

This blend is then heated to produce various rubber types, including polybutadiene rubber (PBR), styrene-butadiene rubber (SBR), acrylonitrile butadiene styrene (ABS), and styrene-butadiene (SB) latex, as well as adiponitrile.

Synthetic and biobased butadiene are widely used in the production of SBR, PBR, polymers, plastics, and latex. In the tire manufacturing industry, both types of butadiene are utilized as rubber-reinforcing agents due to their ability to enhance reinforcement, resilience, tear strength, and conductivity, contributing to the overall physical properties of tires.

Amid the growing interest in sustainable practices, green butadiene, derived from renewable sources, is emerging as an alternative to synthetic butadiene. However, the volatility in raw material prices, such as C4 mixed and oil butadiene feedstocks, impacts market dynamics.

Additionally, the environmental concerns associated with the release of toxic chemicals during the manufacturing process of synthetic butadiene pose a significant challenge, potentially limiting its demand and boosting the appeal of more sustainable biobased options.

Global Synthetic and Biobased Butadiene Market Dynamics

The key market dynamics that are shaping the global synthetic and biobased butadiene market include:

Key Market Drivers

Growing Automotive Industry: The growing automotive industry is a major driver for the butadiene market, as butadiene is a crucial component in the production of synthetic rubber used extensively in tire manufacturing. The rise in automotive production, particularly in developing economies, directly fuels the demand for butadiene. This trend is further amplified by the global shift towards larger and higher-performance tires, which require more synthetic rubber and, consequently, more butadiene.

Expansion of Tire Manufacturing: The expansion of tire manufacturing globally is leading to increased consumption of butadiene. As tire manufacturers continue to innovate and produce tires that offer enhanced performance and durability, the need for butadiene-based synthetic rubber grows. This trend is reflective of the broader shift in the automotive sector towards advanced and high-quality products.

Rise in Construction Activity: The rise in construction activity is positively impacting the demand for butadiene. Butadiene is utilized in the production of various construction materials, such as adhesives, sealants, and waterproofing products. As the global construction industry expands, driven by increased urbanization and infrastructure development, the demand for these butadiene-based materials rises.

Increasing Demand for Consumer Goods: The increasing demand for consumer goods also contributes to the growing butadiene market. Butadiene is an essential ingredient in the production of plastics, synthetic fibers, and other consumer products. With the global population on the rise and disposable incomes increasing, there is a heightened demand for consumer goods, which in turn boosts the need for butadiene.

Sustainability: The growing emphasis on sustainability, is influencing the butadiene market. Consumers and businesses are increasingly prioritizing environmentally friendly products, leading to a rise in the adoption of biobased butadiene. This sustainable alternative to conventional butadiene aligns with the broader trend towards reducing the environmental impact of industrial processes.

Stringent Environmental Regulations: Stringent environmental regulations are also playing a significant role in shaping the butadiene market. Governments around the world are implementing stricter regulations to curb carbon emissions and promote the use of renewable resources. These regulations are driving the adoption of biobased butadiene, as it offers a more sustainable option compared to its synthetic counterpart.

Increasing Demand for Rubber Products: The growing demand for rubber products, such as tires, belts, hoses, and seals, further drives the butadiene market. As these products are integral to various industries, including automotive and manufacturing, the increasing consumption of rubber products translates to a higher demand for butadiene.

Key Challenges

Fluctuating Crude Oil Prices: Fluctuating crude oil prices significantly impact the butadiene market, given that butadiene is a petrochemical derivative. The production of butadiene is closely tied to the cost of crude oil, and any volatility in oil prices can affect the production costs and profitability of manufacturers. When crude oil prices rise, the cost of producing butadiene also increases, which can lead to higher prices for end products and potentially reduced profit margins for manufacturers. Conversely, a decline in crude oil prices might decrease production costs but could also lead to reduced profitability if market prices drop.

Environmental Concerns: Environmental concerns are another critical challenge facing the butadiene industry. The production of synthetic butadiene relies heavily on fossil fuels, leading to significant carbon emissions and other pollutants. As environmental regulations tighten globally and public awareness of climate change grows, the industry is under increasing pressure to mitigate its environmental impact. This includes addressing emissions and seeking more sustainable production methods to align with new regulatory standards and consumer expectations.

Competition from Biobased Butadiene: The rise of biobased butadiene presents a growing competitive threat to synthetic butadiene. Biobased butadiene, derived from renewable biomass sources, offers a more sustainable alternative that aligns with environmental goals. However, this shift is not without its challenges. The production costs for biobased butadiene are currently higher than those for synthetic butadiene. This is due to the relatively undeveloped technology and the higher costs associated with biomass feedstock and production processes.

Limited Feedstock Availability: Limited feedstock availability further complicates the production of biobased butadiene. Biomass suitable for butadiene production is not only geographically constrained but also inconsistent in supply. This limitation can affect the reliability of the supply chain, making it challenging for producers to scale up biobased butadiene production.

Technological Challenges: Technological challenges also play a significant role in the development of biobased butadiene. The process of converting biomass into butadiene is complex and still in the early stages of technological advancement. Improving the efficiency and yield of these conversion processes requires substantial research and development efforts to make biobased butadiene more competitive with synthetic alternatives.

Market Penetration: Market penetration for biobased butadiene necessitates considerable investments in several areas. Establishing a robust market involves not only advancing technology but also investing in infrastructure and consumer education. Significant capital is required to develop the necessary production facilities and to educate the market about the benefits of biobased butadiene. This investment is crucial for overcoming barriers to adoption and building a viable market presence.

Key Trends

Shift Towards On-Site Production: Many manufacturers are now integrating butadiene production directly into their downstream operations to mitigate supply chain risks and lower costs. By producing butadiene on-site, companies can better control their production processes, reduce transportation costs, and minimize supply chain disruptions, thereby enhancing overall efficiency and cost-effectiveness.

Increasing Focus on High-Purity Butadiene: As demand for high-performance products grows, so does the need for butadiene with superior purity levels. This trend is driving advancements in purification technologies, enabling producers to meet the stringent requirements of high-performance applications. Enhanced purification processes help in achieving the desired quality and performance characteristics essential for specialized uses in various industries.

Integration with Petrochemical Value Chain: The integration of butadiene production with the broader petrochemical value chain is also gaining traction. Producers are exploring opportunities to link their operations with other petrochemical products to boost profitability and reduce waste. By creating a more interconnected production system, companies can optimize resource utilization, enhance operational efficiencies, and capitalize on synergies within the petrochemical sector.

Growing Emphasis on Sustainability: Sustainability has become a central focus within the industry, driven by increasing environmental concerns. There is a growing emphasis on adopting biobased butadiene as a more sustainable alternative to conventional synthetic butadiene. This shift reflects broader environmental goals and consumer preferences for greener products. As sustainability becomes a key consideration, the adoption of biobased butadiene aligns with efforts to reduce the carbon footprint and promote renewable resources.

Advancements in Biotechnology: Advancements in biotechnology are playing a crucial role in the development of biobased butadiene. Ongoing research and development are leading to improved processes for converting biomass into butadiene. These biotechnological innovations are enhancing the efficiency and yield of biobased production methods, making them more competitive with traditional synthetic butadiene.

Development of New Feedstocks: The industry is also exploring a diverse range of biomass feedstocks to support biobased butadiene production. By expanding the types of feedstocks used, producers can reduce reliance on specific crops and ensure a more sustainable and stable supply. This diversification helps address issues related to feedstock availability and contributes to a more resilient supply chain.

Collaboration with Automotive Industry: Automakers are increasingly interested in biobased butadiene for tire production as part of their efforts to enhance vehicle sustainability. This collaboration is driving demand for biobased butadiene and supporting its integration into the automotive supply chain, aligning with the industry's broader sustainability goals.

Increasing Use of Modeling and Simulation: Advanced modeling and simulation tools are being utilized to optimize butadiene production processes. These tools help in refining production techniques, reducing costs, and improving product quality. By leveraging sophisticated modeling and simulation, manufacturers can better predict outcomes, streamline operations, and enhance overall efficiency in butadiene production.

Global Synthetic and Biobased Butadiene Market Regional Analysis

Here is a more detailed regional analysis of the global synthetic and biobased butadiene market:

Asia Pacific

Asia Pacific substantially dominates the global synthetic and biobased butadiene market. The rapidly expanding domestic automotive, footwear, and construction industries are significantly driving the demand for butadiene.

As businesses strive to meet this growing demand, there is a notable shift towards providing sustainably produced styrene-butadiene rubber (SBR), reflecting a broader trend towards environmental responsibility.

The robust automotive industry in the Asia-Pacific region, particularly in countries like China, India, and Japan, further amplifies this demand.

These nations are home to some of the world's largest automotive markets, with increasing vehicle production and rising demand for high-performance tires leading to higher butadiene consumption.

Additionally, Asia-Pacific's prominence in tire manufacturing is underscored by significant investments from global tire giants in butadiene production facilities. This strategic investment has reinforced the region's position as a key supplier of butadiene-based synthetic rubber.

Rapid industrialization in countries such as China and India is contributing to an increased demand for butadiene-based products across various sectors, including construction, chemicals, and consumer goods.

The expanding middle class in the region, driven by rising disposable incomes, has further fueled demand for consumer goods, indirectly boosting butadiene consumption. Concurrently, government support for bio-based materials is gaining traction as a response to environmental concerns.

This support is fostering the growth of the bio-based butadiene segment, reflecting a commitment to sustainability within the industry. Collectively, these factors highlight the dynamic growth and evolving landscape of the butadiene market in the Asia-Pacific region.

North America

North America is anticipated to witness the fastest growth in the global synthetic and biobased butadiene market during the forecast period.

The region's strong automotive industry relies heavily on butadiene to produce high-quality tires that meet performance standards.

Additionally, North America is a major hub for chemical production, equipped with a well-established infrastructure for both butadiene manufacturing and its various downstream applications.

This infrastructure supports a wide range of chemical products and reinforces the region's critical role in the global butadiene market.

There is also a growing emphasis on sustainability within North America, which is fueling interest in biobased butadiene as a more environmentally friendly alternative to traditional synthetic butadiene.

As environmental concerns become more prominent, the shift towards sustainable materials is gaining momentum. The region's leadership in research and development, particularly in bio-based technologies, is expected to play a crucial role in accelerating the commercialization of biobased butadiene.

This focus on innovation and sustainability is anticipated to drive advancements in production technologies and broaden the market for biobased alternatives, aligning with the region's broader environmental goals.

Global Synthetic and Biobased Butadiene Market: Segmentation Analysis

The Global Synthetic and Biobased Butadiene Market is segmented based on Product Type, Application, End-User, And Geography.

Synthetic and Biobased Butadiene Market, By Product Type

Synthetic Butadiene
Bio-based Butadiene

Based on Product Type, the Global Synthetic and Biobased Butadiene Market is bifurcated into Synthetic Butadiene and Bio-based Butadiene. Synthetic butadiene dominates the global synthetic and biobased butadiene market owing to its well-established production processes and lower cost compared to bio-based alternatives. Its dominance is underpinned by its extensive applications across various industries. Synthetic butadiene is a key ingredient in the production of synthetic rubber, which is essential for the automotive, tire, and construction sectors. Beyond rubber, it is also used in the manufacturing of plastics, resins, and other chemical products, highlighting its versatility and widespread industrial use.

Synthetic and Biobased Butadiene Market, By Application

Styrene Butadiene Rubber (SBR)
Polybutadiene Rubber (PBR)
Styrene Butadiene (SBL)
Acrylonitrile Butadiene Styrene (ABS)

Based on the Application, the Global Synthetic and Biobased Butadiene Market is bifurcated into Styrene Butadiene Rubber (SBR), Polybutadiene Rubber (PBR), Styrene Butadiene (SBL), Acrylonitrile Butadiene Styrene (ABS). Styrene-butadiene rubber (SBR) segment dominates the global synthetic and biobased butadiene market owing to its excellent balance of properties, such as abrasion resistance, hysteresis, and processing characteristics. Its versatility extends beyond tires, finding applications in footwear, adhesives, and various other rubber products. The growth of the automotive sector, particularly in emerging economies, is a significant driver for SBR demand. Additionally, the rising need for high-performance tires further boosts the market for this material, underscoring its importance across multiple industries.

Synthetic and Biobased Butadiene Market, By End-User

Tire Manufacturing
Automotive
Footwear
Construction
Chemical Industry

Based on End-User, the Global Synthetic and Biobased Butadiene Market is bifurcated into Tire Manufacturing, Automotive, Footwear, Construction, and Chemical Industry. The Tire Manufacturing segment shows significant growth in the global synthetic and biobased butadiene market. Butadiene is a crucial ingredient in the production of synthetic rubber, which plays a vital role in tire manufacturing. It imparts essential properties such as elasticity, durability, and traction to the rubber. The growth of global vehicle production, particularly in developing economies, is a key driver for the tire manufacturing industry and, by extension, for butadiene demand. Additionally, the trend towards larger and higher-performance tires is further increasing consumption of butadiene, highlighting its significance in meeting the evolving needs of the automotive sector.

Synthetic and Biobased Butadiene Market, By Geography

North America
Europe
Asia Pacific
Rest of the World

Based on Geography, the Global Synthetic and Biobased Butadiene Market is classified into North America, Europe, Asia Pacific, and the Rest of the World. Asia Pacific substantially dominates the global synthetic and biobased butadiene market. The rapidly expanding domestic automotive, footwear, and construction industries are significantly driving the demand for butadiene. As businesses strive to meet this growing demand, there is a notable shift towards providing sustainably produced styrene-butadiene rubber (SBR), reflecting a broader trend towards environmental responsibility. The robust automotive industry in the Asia-Pacific region, particularly in countries like China, India, and Japan, further amplifies this demand. These nations are home to some of the world's largest automotive markets, with increasing vehicle production and rising demand for high-performance tires leading to higher butadiene consumption.

Key Players

The "Global Synthetic and Biobased Butadiene Market" study report will provide valuable insight with an emphasis on the global market including some of the major players such as BASF SE, Eni, Royal Dutch Shell, TPC Group, Evonik Industries AG, INEOS Group, Exxon Mobil, LyondellBasell Industries, Repsol, SABIC, Genomatica, Lanxess, Yeochun NCC.

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 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.

Global Synthetic and Biobased Butadiene Market Recent Developments
In August 2023, Evonik Industries AG announced the partnership with a leading provider of bio-based feedstock to develop a new process for producing biobased butadiene.
In June 2023, INEOS Group Ltd. began building on a new butadiene production in Antwerp, Belgium. The facility is slated to open in 2025.