工業用触媒市場：触媒タイプ、材料組成、用途、地域別、2024年～2031年

工業用触媒市場の評価、2024年～2031年

工業用触媒の分野では、技術の向上が技術革新の原動力となっています。ナノテクノロジーの統合や新素材の開発など、絶え間ない改良が触媒の性能を高めています。こうした進歩は、プロセス全体の効率を向上させながら、様々な産業の増大する需要を満たすために不可欠です。このように、技術的進歩とナノテクノロジーの統合は、2024年に259億3,000万米ドルを突破し、2031年には352億米ドルの評価額に達する市場規模の成長を押し上げています。

エネルギーコスト管理も市場成長の原動力となっています。エネルギー価格の高騰により、産業界はプロセスを合理化し、操業コストを削減する触媒を求めるようになっています。エネルギー使用を最適化し、プロセス効率を高めることで、これらの触媒はエネルギー価格高騰による生産費への影響を緩和するのに役立ちます。このように、エネルギーコスト管理とエネルギー価格高騰の緩和により、市場は2024年から2031年にかけてCAGR 4.30%で成長します。

工業用触媒市場：定義/概要

工業用触媒は、工業環境における数多くの化学プロセスで重要な役割を果たし、必要な活性化エネルギーを低下させることで反応を促進する不可欠な物質として機能します。必要なエネルギーを低減した代替反応経路を提供することで、触媒は石油精製、化学生産、医薬品合成を含む様々な工業プロセスの効率を大幅に向上させる。この効率は、これらのプロセスの費用対効果を向上させ、環境の持続可能性にも貢献します。一般的な工業用触媒には、白金、パラジウム、ニッケルなどの金属、金属酸化物、ゼオライトなど、さまざまな材料が含まれます。触媒の種類はそれぞれ、それが促進する反応に応じて特定の用途があります。例えば、石油精製では、触媒は複雑な炭化水素をガソリンやディーゼルなどの価値ある製品に変換するのに役立っています。この変換は、原料原油から高品質の燃料や石油化学製品を生産するために極めて重要です。

化学製造では、触媒はさまざまな化学反応を促進することで、不可欠な化合物の大量生産を可能にします。触媒は、反応条件を最適化し、収率を向上させ、副生成物を減少させることで、工業化学プロセスをより効率的でコスト効率の高いものにします。高純度の化学物質を安定的かつ経済的に生産する能力は、農業からエレクトロニクスまで幅広い産業にとって不可欠です。工業触媒の分野は、触媒の性能、耐久性、環境への影響の改善を目指した絶え間ない革新と研究が特徴です。研究者たちは、触媒の有効性を高めるための新しい材料や技術を積極的に探求しています。例えば、ナノテクノロジーの進歩や新規触媒組成の開発は、触媒反応において達成可能なことの限界を押し広げつつあります。こうした技術革新は、化学反応の効率を向上させるだけでなく、工業プロセスの環境フットプリントを最小化することも目的としています。

触媒の分野では、環境の持続可能性が重要視されています。産業界が環境負荷の低減に努める中、より環境に優しい製造プロセスをサポートする触媒の開発がますます重視されるようになっています。これには、再生可能な原料の使用を可能にし、エネルギー消費を削減し、廃棄物や排出物を最小限に抑える触媒が含まれます。工業用触媒の継続的な進化は、工業規模での多様な化学製造プロセスの効率と持続可能性を最適化する上で中心的な役割を果たします。触媒技術を進歩させることで、産業界はより優れた性能、運転コストの削減、環境負荷の低減を達成することができ、石油化学や化学品から医薬品に至るまで、幅広い分野での進歩を推進することができます。

石油化学製品ニーズの増加と環境基準の遵守は、工業用触媒市場の成長をどのように促進するか？

プラスチックやその他の材料に対する世界の需要の高まりにより、精製プロセスにより効率的な工業用触媒が必要となるためです。この需要は、これらのプロセスの効率と有効性を高める高度な触媒の開発を後押ししています。環境基準の順守厳しい規制が、よりクリーンで環境に優しい産業活動を支援する触媒の開発を導いています。このような規制により、産業界は環境持続可能性の目標に沿った技術の採用を余儀なくされ、排出物や廃棄物を削減する触媒の使用が促進されます。

医療用化合物の合成における特殊触媒のニーズの高まりが需要を牽引しているため、医薬品ブームが市場の拡大に寄与しています。医薬品セクターの成長は、複雑な医薬品や治療法の開発をサポートする触媒の大きな市場を生み出しています。再生可能エネルギーへの注目も重要な推進力です。バイオ燃料のような持続可能なエネルギー・ソリューションのための触媒の調査は、再生可能エネルギー源を求める広範な動きの一環として進んでいます。この動向は、よりクリーンで持続可能なエネルギーの生産を促進する触媒の開発につながっています。

製油所の操業拡大が、精製・水素化処理用途の触媒需要を押し上げています。石油・ガス・インフラへの投資の増加が、精製製品の品質と収率を高める効率的な触媒の必要性を高めています。グリーンケミストリーへの世界のシフトも大きな要因です。持続可能な製造方法が重視され、環境に配慮した化学生産をサポートするエコフレンドリー触媒の需要が高まっています。新興国の工業化は、触媒の需要をさらに押し上げています。インド、中国、ブラジルのような国々で産業が急成長しているため、石油化学から自動車部品まで、さまざまな製造セクターで触媒のニーズが拡大しています。

自動車産業の拡大、特に電気自動車の台頭は、触媒コンバーターやバッテリー材料に使用される触媒の需要を生み出しています。この分野の成長は技術革新を促進し、高性能触媒の必要性を高めています。特殊化学品は、エレクトロニクス、医薬品、その他のハイテク産業で重要な役割を担っているため、需要が急増しています。こうした化学物質の生産には特殊な触媒が必要とされるため、こうした需要が工業用触媒市場の成長に寄与しています。触媒分析技術の向上により、触媒の挙動に関する理解が深まり、より効率的で効果的な触媒の開発につながっています。この進歩は、生産プロセスの最適化と市場の拡大に不可欠です。化学製品製造の世界化は、触媒サプライヤーに世界中の多様な市場に対応する新たな機会をもたらしています。化学製造の相互関係が深まるにつれて、多用途で高性能な触媒の必要性が高まっています。

複雑な触媒設計は工業用触媒市場の成長をどのように阻害するか？

触媒設計の複雑さは、工業用触媒市場の成長にとって大きな課題であり抑制要因です。効果的な触媒を作るには、特定の工業プロセスに合わせた科学的・工学的考察の微妙なバランスが必要です。この複雑さは、触媒活性、選択性、安定性など、いくつかの重要な要素を最適化する必要がある一方で、多様な用途の固有の要件に対応する必要があることから生じています。

触媒の設計プロセスは本質的に複雑で、高度な材料科学と化学工学が関わっています。望ましい性能特性を達成するためには、多くの場合、広範な研究開発（R&D）努力、専門的な専門知識、高度なモデリング技術が必要となります。これらの要因は、開発期間の長期化とコストの上昇を招き、新しい触媒技術の迅速な商業化と普及の障壁となり得る。

触媒設計の詳細な性質は、スケーラビリティと統合性に関連する課題も提起します。先進的な触媒ソリューションを導入しようとする業界は、こうした複雑な技術を理解し、効果的に展開することに苦労する可能性があります。標準化と相互運用性の欠如は、新しい触媒を既存の工業プロセスに統合することをさらに複雑にし、採用のさらなる障害となって市場の成長を制限する可能性があります。

石油精製、石油化学、化学といった最終用途産業への依存。これらのセクターは工業用触媒の需要と密接に関連しており、その経済業績の変動や消費者需要のシフトは、触媒のニーズに直接的な影響を与える可能性があります。これらの最終用途産業における景気後退や市況の変化は、触媒需要の減少につながり、市場全体の成長に影響を与える可能性があります。

加えて、触媒の失活と再生がさらなる課題となります。触媒は時間の経過とともに、被毒、汚損、熱劣化などの要因によって失活し、その効果が低下します。触媒の交換や再生のプロセスは、特に大量生産や連続運転を行う産業にとっては、コスト高で複雑なものとなる可能性があります。触媒のメンテナンスに関連する経済的・操業的負担は、先進的な触媒や高度に特殊化した触媒への投資を躊躇させる場合もあります。

目次

第1章 イントロダクション

• 市場の定義
• 市場セグメンテーション
• 調査手法

第2章 エグゼクティブサマリー

• 主な調査結果
• 市場概要
• 市場ハイライト

第3章 市場概要

• 市場規模と成長の可能性
• 市場動向
• 市場促進要因
• 市場抑制要因
• 市場機会
• ポーターのファイブフォース分析

第4章 工業用触媒市場：触媒タイプ別

• 不均一系触媒
• 均一系触媒

第5章 工業用触媒市場：材料組成別

• 金属触媒
• ゼオライト触媒
• 化学化合物

第6章 工業用触媒市場：用途別

• 化学合成
• 環境触媒
• 重合
• 精製

第7章 地域分析

• 北米
• 米国
• カナダ
• メキシコ
• 欧州
• 英国
• ドイツ
• フランス
• イタリア
• アジア太平洋
• 中国
• 日本
• インド
• オーストラリア
• ラテンアメリカ
• ブラジル
• アルゼンチン
• チリ
• 中東・アフリカ
• 南アフリカ
• サウジアラビア
• アラブ首長国連邦

第8章 市場力学

• 市場促進要因
• 市場抑制要因
• 市場機会
• COVID-19の市場への影響

第9章 競合情勢

• 主要企業
• 市場シェア分析

第10章 企業プロファイル

• BASF SE（Germany）
• Johnson Matthey Plc（United Kingdom）
• Clariant AG（Switzerland）
• UOP（Honeywell）（USA）
• W. R. Grace and Co.（USA）
• Evonik Industries AG（Germany）
• CRI Catalyst Company（China）
• Sinopec Corp.（China）
• LyondellBasell Industries Holdings NV（Netherlands）
• Albemarle Corporation（USA）
• INEOS（UK）
• JGC Catalysts and Chemicals Co., Ltd.（Japan）
• Univation Technologies LLC（USA）
• China National Petroleum Corporation（China）
• Axens（France）

第11章 市場の展望と機会

• 新興技術
• 今後の市場動向
• 投資機会

第12章 付録

• 略語リスト
• 出典と参考文献

Industrial Catalyst Market Valuation - 2024-2031

Technological upgrades are fueling innovation in the field of industrial catalysts. Continuous improvements, including the integration of nanotechnology and the development of new materials, are enhancing catalyst performance. These advancements are essential for meeting the growing demands of various industries while improving overall process efficiency. Thus, the technological advancements and integration of nanotechnology surge the growth of market size surpassing USD 25.93 Billion in 2024 reaching a valuation of USD 35.2 Billion by 2031.

Energy cost management is also driving market growth. Soaring energy prices have incentivized industries to seek catalysts that streamline processes and reduce operational costs. By optimizing energy use and increasing process efficiency, these catalysts help mitigate the impact of high energy prices on production expenses. Thus, energy cost management and mitigation of high energy prices enable the market to grow at a CAGR of 4.30% from 2024 to 2031.

Industrial Catalyst Market: Definition/ Overview

Industrial catalysts play a critical role in numerous chemical processes within industrial settings, serving as essential substances that expedite reactions by lowering the activation energy required. By offering an alternative reaction pathway with reduced energy requirements, catalysts significantly enhance the efficiency of a variety of industrial processes, including petroleum refining, chemical production, and pharmaceutical synthesis. This efficiency improves the cost-effectiveness of these processes and contributes to their environmental sustainability. Common industrial catalysts encompass a range of materials, including metals like platinum, palladium, and nickel, as well as metal oxides and zeolites. Each type of catalyst has specific applications depending on the reaction it facilitates. For instance, in petroleum refining, catalysts are instrumental in converting complex hydrocarbons into valuable products such as gasoline and diesel. This transformation is crucial for producing high-quality fuels and petrochemical products from raw crude oil.

In chemical manufacturing, catalysts enable the large-scale production of essential compounds by facilitating various chemical reactions. They help optimize reaction conditions, improve yield, and reduce by-products, making industrial chemical processes more efficient and cost-effective. The ability to produce high-purity chemicals consistently and economically is vital for industries ranging from agriculture to electronics. The field of industrial catalysis is characterized by continuous innovation and research aimed at improving catalyst performance, durability, and environmental impact. Researchers are actively exploring new materials and technologies to enhance the effectiveness of catalysts. For example, advancements in nanotechnology and the development of novel catalyst compositions are pushing the boundaries of what is achievable in catalysis. These innovations not only aim to improve the efficiency of chemical reactions but also seek to minimize the environmental footprint of industrial processes.

Environmental sustainability is a growing focus within the field of catalysis. As industries strive to reduce their environmental impact, there is an increasing emphasis on developing catalysts that support greener manufacturing processes. This includes catalysts that enable the use of renewable feedstocks, reduce energy consumption, and minimize waste and emissions. The ongoing evolution of industrial catalysts is central to optimizing the efficiency and sustainability of diverse chemical manufacturing processes on an industrial scale. By advancing catalyst technology, industries can achieve better performance, lower operational costs, and reduced environmental impact, driving progress in sectors ranging from petrochemicals and chemicals to pharmaceuticals and beyond.

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How do the Increasing Petrochemicals Needs and Adherence to Environmental Standards Foster the Growth of Industrial Catalyst Market?

Surging petrochemical needs surge the growth of industrial catalysts, as the rising global demand for plastics and other materials necessitates more efficient industrial catalysts for refining processes. This demand is pushing the development of advanced catalysts that enhance the efficiency and effectiveness of these processes. Adherence to environmental standards, with stringent regulations guiding the development of catalysts that support cleaner and greener industrial operations. These regulations compel industries to adopt technologies that align with environmental sustainability goals, promoting the use of catalysts that reduce emissions and waste.

The pharmaceutical boom is contributing to the market's expansion, as the increasing need for specialized catalysts in the synthesis of medical compounds drives demand. The pharmaceutical sector's growth is creating a significant market for catalysts that support the development of complex drugs and treatments. The focus on renewable energy is another key driver. Research into catalysts for sustainable energy solutions, such as biofuels, is advancing as part of the broader push for renewable energy sources. This trend is leading to the development of catalysts that facilitate the production of cleaner and more sustainable energy options.

Growing refinery operations are boosting demand for catalysts in refining and hydroprocessing applications. Increased investments in oil and gas infrastructure are driving the need for efficient catalysts that enhance the quality and yield of refined products. The global shift towards green chemistry is also a significant factor. The emphasis on sustainable manufacturing practices is increasing the demand for eco-friendly catalysts that support environmentally responsible chemical production. Industrialization in emerging economies is further fueling the demand for catalysts. Rapid industrial growth in countries like India, China, and Brazil is expanding the need for catalysts across various manufacturing sectors, from petrochemicals to automotive components.

The expansion of the automotive industry, particularly with the rise of electric vehicles, is creating demand for catalysts used in catalytic converters and battery materials. This sector's growth is driving innovation and increasing the need for high-performance catalysts. Specialty chemicals are experiencing a surge in demand, driven by their critical role in electronics, pharmaceuticals, and other high-tech industries. This demand is contributing to the growth of the industrial catalysts market, as specialized catalysts are required to produce these chemicals. Enhanced catalyst analysis techniques are improving the understanding of catalyst behavior, leading to the development of more efficient and effective catalysts. This advancement is crucial for optimizing production processes and expanding the market. The globalization of chemical production is opening up new opportunities for catalyst suppliers to serve diverse markets worldwide. As chemical manufacturing becomes more interconnected, the need for versatile and high-performance catalysts grows.

How does the Complex Catalyst Design Impede the Growth of the Industrial Catalyst Market?

The complexity involved in catalyst design represents a significant challenge and restraint for the growth of the industrial catalysts market. Crafting effective catalysts requires a nuanced balance of scientific and engineering considerations tailored to specific industrial processes. This complexity emerges from the need to optimize several critical factors, including catalytic activity, selectivity, and stability while accommodating the unique requirements of diverse applications.

The catalyst design process is inherently intricate, involving advanced materials science and chemical engineering. Achieving the desired performance characteristics often necessitates extensive research and development (R&D) efforts, specialized expertise, and sophisticated modeling techniques. These factors contribute to prolonged development timelines and elevated costs, which can be a barrier to the rapid commercialization and widespread adoption of new catalyst technologies.

The detailed nature of catalyst design also poses challenges related to scalability and integration. Industries seeking to implement advanced catalyst solutions may struggle with understanding and deploying these complex technologies effectively. The lack of standardization and interoperability further complicates the integration of new catalysts into existing industrial processes, creating additional obstacles to adoption and potentially limiting market growth.

The dependence on end-use industries, such as refining, petrochemicals, and chemicals. These sectors are closely linked to the demand for industrial catalysts, and fluctuations in their economic performance or shifts in consumer demand can directly impact catalyst needs. Economic downturns or changes in market conditions within these end-use industries may lead to reduced demand for catalysts, affecting overall market growth.

In Addition, the deactivation and regeneration of catalysts present further challenges. Over time, catalysts can become deactivated due to factors such as poisoning, fouling, or thermal degradation, which reduces their effectiveness. The process of replacing or regenerating catalysts can be costly and complex, particularly for industries with high-volume or continuous operations. The financial and operational burdens associated with catalyst maintenance may deter some businesses from investing in advanced or highly specialized catalysts.

Category-Wise Acumens

How the Advancements of Metal Oxides and Zeolites Enhance the Growth of Heterogeneous Catalyst Segment?

The heterogeneous catalysts segment shows significant growth in the industrial catalyst market driven by the presence of a different phase compared to the reactants they interact with. These catalysts are primarily employed in gas-phase or liquid-solid reactions, where they facilitate chemical transformations by providing a surface on which the reactions occur. In addition, the development of advanced materials such as metal oxides and zeolites. These materials are prized for their ability to enhance catalytic performance through improved efficiency, selectivity, and durability. Innovations in nanotechnology are also contributing to the evolution of heterogeneous catalysts, enabling the creation of nanoscale catalytic materials that offer exceptional performance characteristics. The integration of these advanced materials aims to address the increasing demand for sustainable and high-performance solutions across various industrial applications.

Heterogeneous catalysts are favored for their robustness and cost-effectiveness. Their operational advantages include lower maintenance and operational costs compared to other types of catalysts, making them an attractive option for many industries. For example, sulfated zirconia, sulfonated silica materials, sulfonated carbon materials, and sulfonated Metal-Organic Framework (MOF) materials are commonly used in heterogeneous catalysis due to their effective catalytic properties and stability. The use of heterogeneous catalysts is widespread across multiple applications, reflecting their versatility and ease of use. The production of biodiesel, where heterogeneous catalysts are increasingly adopted due to their ability to facilitate the transesterification process efficiently. The rising focus on renewable energy sources and sustainable practices drives the demand for biodiesel, boosting the growth of the industrial catalyst market segment.

As industries continue to seek catalysts that offer high performance, sustainability, and cost-effectiveness, the heterogeneous catalyst segment is poised to maintain its dominant position in the market. The ongoing advancements in catalyst materials and technology, and the expanding use of heterogeneous catalysts in various industrial processes, are expected to drive significant growth in this segment. This growth is further supported by the broader trends of increasing environmental regulations and the push for greener manufacturing processes, which align with the benefits offered by heterogeneous catalysts.

How the Effectivity of Metal-based Catalysts and Advanced Nanotechnology Surge the Growth Metal Catalyst Segment?

The metal catalyst segment dominates the industrial catalyst market. Metal-encompassing catalysts are primarily made from metallic elements like platinum, palladium, and nickel. These metals serve as essential active sites that drive and accelerate chemical reactions across a range of industrial applications. The effectiveness of metal-based catalysts is largely attributed to their ability to facilitate reactions with high efficiency and selectivity. A significant trend within this segment is the increasing application of nanostructured metals. By leveraging advanced nanotechnology, these metals are engineered at the nanoscale to enhance their catalytic properties. Nanostructured metal catalysts offer superior surface area and reactivity, leading to improved catalytic performance and greater efficiency in various processes. This advancement addresses the growing demand for catalysts that deliver high performance and offer durability and longevity in demanding industrial environments.

The surge in demand for metal-based catalysts is largely driven by their critical roles in key industrial sectors. In petrochemical refining, these catalysts are instrumental in transforming crude oil into valuable products like gasoline and diesel. In chemical synthesis, metal catalysts are essential for producing a wide range of chemicals used in everyday products and industrial applications. In addition, to the environmental processes, metals such as platinum and palladium are employed in catalytic converters to reduce vehicle emissions and mitigate pollution. The continuous advancements in metal catalyst technology are contributing significantly to the growth and evolution of the industrial catalysts market. Innovations in catalyst design, such as the development of more efficient and durable metal-based catalysts, are addressing the evolving needs of industries. These advancements support the overall market by enhancing the performance of industrial processes, reducing operational costs, and aligning with sustainability goals. As industries increasingly seek catalysts that combine high efficiency with environmental responsibility, the metals segment remains a cornerstone of the industrial catalysts market. The focus on nanostructured metals and the ongoing evolution of catalyst technology underscore the segment's critical role in driving market growth and advancing industrial processes.

Country/Region-wise Acumens

How does the Increasing Investment in Research and Development and Growing Demand for Innovative Catalysts Surge the Growth of the Industrial Catalyst Market in North America?

North America dominates the industrial catalysts market, bolstered by its advanced industrialization, well-established petrochemical sector, and substantial investments in research and development. The region's industrial prowess is reflected in its extensive infrastructure and technological advancements, which support a diverse range of catalytic applications across various industries. The commitment to sustainable practices and adherence to stringent environmental regulations. The region's focus on reducing environmental impact has led to increased demand for innovative catalyst technologies that enhance process efficiency while minimizing emissions and waste. This alignment with environmental standards is pivotal in shaping market trends and driving the development of advanced catalyst solutions.

The presence of leading market players in North America further strengthens the region's position. These key industry players are at the forefront of technological innovation, continuously advancing catalyst technology to meet evolving industrial needs. Their substantial investments in research and development foster the creation of cutting-edge catalysts that enhance performance and efficiency across applications such as petrochemical refining, chemical production, and automotive emissions control. In petrochemical refining, North America leverages its mature industrial landscape to deploy sophisticated catalysts that optimize the transformation of crude oil into valuable products. The chemical industry benefits from advanced catalysts that enable the production of essential compounds with improved efficiency and reduced operational costs. In the automotive sector, the adoption of high-performance catalysts in catalytic converters helps reduce vehicle emissions, contributing to cleaner air and regulatory compliance.

How the Increasing Demand for Petrochemicals and Robust Manufacturing Industry Escalates the Growth of Industrial Catalyst Market in Asia Pacific?

Asia Pacific is anticipated to witness the fastest growth in the industrial catalysts market, driven by its robust industrialization, escalating demand for petrochemicals, and thriving manufacturing sector. The region's rapid economic growth, particularly in powerhouse economies like China and India, fuels the demand for catalysts across a wide array of industries. This dynamic growth is characterized by significant advancements in infrastructure and industrial capacities, which are crucial for the widespread use of industrial catalysts.

The burgeoning chemical and food processing industries in Asia Pacific drives the market growth. As these sectors expand, there is an increased need for efficient and effective catalysts to enhance production processes and ensure high-quality output. The rising demand for industrial catalysts in these industries is supported by the region's emphasis on improving operational efficiencies and product quality. Government initiatives in Asia Pacific are also pivotal in shaping the industrial catalysts market. Favorable policies aimed at reducing environmental pollution and promoting sustainable practices are accelerating the adoption of advanced catalyst technologies. These policies address environmental concerns and encourage industries to adopt cleaner and more efficient processes, further boosting market growth.

Investments in research and development are a significant factor in the region's dominance. Asia Pacific is experiencing an influx of investment in developing new catalyst technologies, which enhance their performance, durability, and environmental compatibility. The presence of key market players in the region also contributes to its leading position, as these companies are at the forefront of innovation and technological advancements in catalyst development. The evolving regulatory landscape in Asia Pacific, with a focus on environmental sustainability, further supports the growth of the industrial catalysts market. As regulations become stricter, industries are increasingly turning to advanced catalysts to meet compliance requirements and reduce their environmental footprint.

Competitive Landscape

The Industrial Catalyst Market is characterized by a complex interplay of global conglomerates, regional players, and specialized chemical companies. The industry is highly specialized, requiring significant R&D investments and deep technical expertise.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the industrial catalyst market include:

• BASF SE
• Johnson Matthey Plc
• Clariant AG
• UOP (Honeywell)
• W. R. Grace and Co.
• Evonik Industries AG
• CRI Catalyst Company
• Sinopec Corp.
• LyondellBasell Industries Holdings NV
• Albemarle Corporation
• INEOS
• JGC Catalysts and Chemicals Co., Ltd.
• Univation Technologies LLC
• China National Petroleum Corporation
• Axens

Latest Developments:

• In January 2023, Evonik Industries AG announced the expansion of its product and service range by integrating its alkoxides business into the Catalysts Business Line.
• In January 2023, Cisco announced the launch of Catalyst [E9300 Rugged Series Switches]. Industrial catalyst switches are typically used in oil pipelines and substations.
• In December 2022, NUST MISIS scientists created a new solar catalyst to quickly treat industrial wastewater.

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Industrial Catalyst Market, By Type of Catalyst

• Heterogeneous Catalysts
• Homogeneous Catalysts

5. Industrial Catalyst Market, By Material Composition

• Metal Catalysts
• Zeolite Catalysts
• Chemical Compounds

6. Industrial Catalyst Market, By Application

• Chemical Synthesis
• Environmental Catalysis
• Polymerization
• Refining

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

8. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

9. Competitive Landscape

• Key Players
• Market Share Analysis

10. Company Profiles

• BASF SE (Germany)
• Johnson Matthey Plc (United Kingdom)
• Clariant AG (Switzerland)
• UOP (Honeywell) (USA)
• W. R. Grace and Co. (USA)
• Evonik Industries AG (Germany)
• CRI Catalyst Company (China)
• Sinopec Corp. (China)
• LyondellBasell Industries Holdings NV (Netherlands)
• Albemarle Corporation (USA)
• INEOS (UK)
• JGC Catalysts and Chemicals Co., Ltd. (Japan)
• Univation Technologies LLC (USA)
• China National Petroleum Corporation (China)
• Axens (France)

11. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

12. Appendix

• List of Abbreviations
• Sources and References