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市場調査レポート
商品コード
1379079
フローケミストリー市場レポート:リアクター、用途、地域別、2023-2028年Flow Chemistry Market Report by Reactor (Continuous Stirred Tank Reactor, Plug Flow Reactor, Microreactor, Microwave System, and Others), Application (Pharmaceuticals, Chemicals, Academia and Research, Petrochemicals, and Others), and Region 2023-2028 |
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フローケミストリー市場レポート:リアクター、用途、地域別、2023-2028年 |
出版日: 2023年11月02日
発行: IMARC
ページ情報: 英文 143 Pages
納期: 2~3営業日
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世界のフローケミストリーの市場規模は2022年に17億米ドルに達しました。今後、IMARC Groupは、市場は2028年までに30億米ドルに達し、2022年から2028年の間に9.9%の成長率(CAGR)を示すと予測しています。持続可能性への注目の高まり、精密合成へのニーズの急増、モジュール式スケーラビリティ、自動化の拡大、製薬、化学、材料産業での製品採用の広がりなどが、市場を推進する主な要因の一部です。
フローケミストリーは、連続フローケミストリーとしても知られ、化学合成分野における先進的なアプローチです。一連の反応室や流路を反応物質が制御されながら移動し、そこで混合して化学変化を起こします。この方法は、反応条件の正確な制御、熱および物質移動の改善による安全性の向上、幅広い種類の生成物を迅速に生成する能力など、従来のバッチ処理と比較して多くの利点を提供します。その結果、フローケミストリーは医薬品、ファインケミカル、材料合成に応用され、より効率的でスケーラブルなプロセスを通じて様々な産業に革命をもたらす可能性を示しています。
持続可能で効率的な製造プロセスに対する需要の高まりは、反応制御の改善、廃棄物発生の削減、安全対策の強化を提供するフローケミストリーの採用へと産業界を向かわせ、これが主に市場成長の原動力となっています。これに加えて、反応速度論を加速し、収率を最適化するフローケミストリーシステムの能力は、高精度でハイスループットな合成が不可欠な医薬品や特殊化学品の分野で、その採用を後押ししており、市場拡大の明るい見通しを生み出しています。さらに、モジュール式で自動化されたフローシステムの台頭は、プロセスを合理化し、既存の生産ラインへの容易なスケールアップと統合を可能にしています。さらに、マイクロリアクター技術の継続的な進歩や、フローケミストリーの応用範囲を広げる新規触媒の探求は、費用対効果や環境に優しい生産への重点の高まりとともに、市場拡大の一助となっています。
持続可能性と効率性の要求
持続可能で環境に配慮した製造方法への世界のシフトが、フローケミストリーの採用に拍車をかけています。このアプローチは、廃棄物の削減、資源の節約、化学プロセスの環境への影響の最小化を重視する業界の高まりと合致しており、その需要を後押ししています。これに加えて、フローケミストリーは反応条件の精密な制御を可能にし、選択性、収率の向上、副生成物生成の低減につながります。さらに、プロセスの連続フロー的な性質は、リアルタイムでの調整を可能にし、より効率的な反応とエネルギー消費の最小化をもたらします。環境に優しい製品に対する規制の圧力や消費者の期待が高まるにつれ、産業界は競争力を維持しながらこれらの要求を満たすためにフローケミストリーに目を向け、市場の成長を強化しています。
精密でハイスループットな合成ニーズ
フローケミストリーは、特に医薬品、農薬、特殊化学品などの分野で、精密かつハイスループットの合成ニーズに対応しています。マイクロリアクターや流路を通る反応物の制御された流れは、効率的な混合を可能にし、より速い反応速度論とより高い収率をもたらします。このレベルの制御は、副反応のリスクを減らし、結果の再現性を高めるため、複雑な多段階合成に特に有利です。フローケミストリーは、さまざまな化合物を迅速に製造できるため、新製品の開発・最適化を迅速に行うことができ、そのため採用が増加しています。これと同時に、反応条件の体系的なスクリーニングのためのプラットフォームを提供することで、創薬やプロセス開発を迅速化するための製品採用が増加していることも、市場を前進させています。
モジュール式自動化と拡張性
モジュール式自動フローシステムの成長は、フローケミストリー市場の拡大に大きく寄与しています。これらのシステムはプラグアンドプレイ構成を提供し、既存の生産ラインへの容易な統合を可能にし、セットアップ時のダウンタイムを最小限に抑えます。また、モジュール式であるためカスタマイズが可能であり、さまざまな反応タイプや反応規模に対応できます。ラボスケールの実験から工業生産まで、この拡張性はフローケミストリーの重要な利点です。その結果、産業界は研究室でプロセスを開発・最適化し、大きな変更を加えることなく、より大規模な生産にシームレスに移行することができます。これにより、市場投入までの時間が短縮され、新規化学プロセスのスケールアップに伴うリスクが軽減されるため、市場拡大の好機がもたらされます。
The global flow chemistry market size reached US$ 1.7 Billion in 2022. Looking forward, IMARC Group expects the market to reach US$ 3.0 Billion by 2028, exhibiting a growth rate (CAGR) of 9.9% during 2022-2028. The rising focus on sustainability, surging need for precise synthesis, modular scalability, and expanding automation, widespread product adoption across pharmaceuticals, chemicals, and materials industries are some of the major factors propelling the market.
Flow chemistry, also known as continuous-flow chemistry, is an advanced approach within the field of chemical synthesis. It involves the controlled movement of reactants through a series of reaction chambers or channels, where they mix and undergo chemical transformations. This method offers numerous advantages over traditional batch processing, such as precise control over reaction conditions, enhanced safety due to improved heat and mass transfer, and the ability to rapidly generate a wide range of products. As a result, flow chemistry finds applications in pharmaceuticals, fine chemicals, and materials synthesis, showcasing its potential to revolutionize various industries through more efficient and scalable processes.
The increasing demand for sustainable and efficient manufacturing processes has led industries to adopt flow chemistry as it offers improved reaction control, reduced waste generation, and enhanced safety measures, primarily driving its market growth. In addition to this, the ability of flow chemistry systems to accelerate reaction kinetics and optimize yields is propelling its employment across the thriving pharmaceuticals and specialty chemicals sectors where precise and high-throughput synthesis is essential, creating a positive outlook for market expansion. Moreover, the rise of modular and automated flow systems has streamlined processes, enabling easier scale-up and integration into existing production lines, which, in turn, is presenting lucrative opportunities for market growth. Furthermore, ongoing advancements in microreactor technologies and the exploration of novel catalysts broadening the scope of flow chemistry applications, along with the growing emphasis on cost-effectiveness and environmentally friendly production, are aiding in market expansion.
Sustainability and efficiency demands
The global shift towards sustainable and environmentally conscious manufacturing practices has spurred the adoption of flow chemistry. This approach aligns with the industry's growing emphasis on reducing waste, conserving resources, and minimizing the environmental impact of chemical processes, impelling its demand. Besides this, flow chemistry enables precise control over reaction conditions, leading to improved selectivity, yield, and reduced byproduct formation. Moreover, the continuous-flow nature of the process allows for real-time adjustments, resulting in more efficient reactions and minimized energy consumption. As regulatory pressures and consumer expectations for eco-friendly products increase, industries are turning to flow chemistry to meet these demands while maintaining competitiveness, thus strengthening the market growth.
Precise and high-throughput synthesis needs
Flow chemistry addresses the need for precise and high-throughput synthesis, particularly in sectors such as pharmaceuticals, agrochemicals, and specialty chemicals. The controlled flow of reactants through microreactors or channels allows for efficient mixing, resulting in faster reaction kinetics and higher yields. This level of control is especially advantageous for complex multi-step syntheses, as it reduces the risk of side reactions and enhances the reproducibility of results. Industries are drawn to flow chemistry's ability to rapidly produce a wide range of compounds, enabling quicker development and optimization of new products, thereby contributing to its increasing adoption. Concurrent with this, the increasing product adoption to expedite drug discovery and process development by providing a platform for systematic screening of reaction conditions is propelling the market forward.
Modular automation and scalability
The growth of modular and automated flow systems has significantly contributed to the expansion of the flow chemistry market. These systems offer plug-and-play configurations, enabling easy integration into existing production lines and minimizing downtime during setup. In confluence with this, the modular nature also allows for customization, ensuring compatibility with various reaction types and scales. This scalability, from lab-scale experimentation to industrial production, is a key advantage of flow chemistry. As a result, industries can develop and optimize processes in the laboratory and seamlessly transfer them to larger-scale production without major modifications. This accelerates time-to-market and reduces the risk associated with scaling up novel chemical processes, presenting lucrative opportunities for market expansion.
IMARC Group provides an analysis of the key trends in each segment of the global flow chemistry market report, along with forecasts at the global, regional, and country levels for 2023-2028. Our report has categorized the market based on reactor and application.
Continuous Stirred Tank Reactor
Plug Flow Reactor
Microreactor
Microwave System
Others
Continuous stirred tank reactor dominates the market
The report has provided a detailed breakup and analysis of the market based on the reactor. This includes continuous stirred tank reactor, plug flow reactor, microreactor, microwave system, and others. According to the report, continuous stirred tank reactor represented the largest segment.
The rising demand for continuous stirred tank reactor (CSTR) flow chemistry owing to its unique attributes that cater to the evolving requirements of chemical industries represents one key factor fueling the market growth. CSTR flow chemistry provides a balanced approach between the benefits of traditional batch processing and the advantages of continuous flow systems. Its ability to maintain a steady-state operation while allowing for efficient mixing and reaction control is particularly valuable. Moreover, the versatility of CSTR flow systems accommodates a wide range of reactions and reaction conditions, making them suitable for various applications, including fine chemicals, pharmaceuticals, and petrochemicals, contributing to the market's growth. Additionally, the inherent safety benefits of continuous flow are propelling the adoption of CSTR flow chemistry, aiding in market expansion. As industries strive for improved efficiency, safety, and product quality, the demand for CSTR flow chemistry continues to rise as a dependable and adaptable technology.
Pharmaceuticals
Chemicals
Academia and Research
Petrochemicals
Others
Chemicals hold the largest share of the market
A detailed breakup and analysis of the market based on the application has also been provided in the report. This includes pharmaceuticals, chemicals, academia and research, petrochemicals, and others. According to the report, chemicals accounted for the largest market share.
The expanding demand for flow chemistry in the flourishing chemical industry due to its potential to revolutionize traditional chemical manufacturing processes is acting as another significant growth-inducing factor. Concurrent with this, the pursuit of operational excellence and cost efficiency is strengthening the market growth. Furthermore, flow chemistry's ability to optimize reaction conditions, minimize waste, and enhance yields aligning with the industry's goals to maximize resource utilization and reduce production costs is creating a favorable market outlook. In line with this, its capability to perform hazardous reactions safely and efficiently within confined systems enhancing workplace safety and regulatory compliance is impelling the market growth. Moreover, the advent of modular and automated flow systems streamlines process development and scale-up, enabling quicker time-to-market for new products. As the chemical industry navigates increasing sustainability pressures, flow chemistry offers a greener approach by reducing environmental impact through efficient resource utilization and minimized waste generation, contributing to the market's growth.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
North America exhibits a clear dominance, accounting for the largest flow chemistry market share
The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, North America accounted for the largest market share.
The North America flow chemistry market is mainly propelled by the region's commitment to innovation and sustainability. In addition to this, the robust product demand from the bolstering pharmaceutical sector to streamline drug discovery processes and efficient production methodologies is positively impacting the market growth. Moreover, the rising emphasis on green chemistry and the flow chemistry's capacity to reduce waste and environmental impact is contributing to its increasing demand. Concurrent with this, the presence of advanced research facilities in North America and rising collaborations between academia and industry fosters continuous technological advancements, driving the adoption of flow chemistry. Apart from this, regulatory support for safer and more efficient processes is promoting the implementation of continuous flow systems. As industries in North America prioritize efficiency, environmental consciousness, and technological advancement, the flow chemistry market will continue to show remarkable growth.
The global flow chemistry market features a dynamic and competitive landscape shaped by a mix of established players and innovative startups. Prominent companies hold substantial market share due to their comprehensive product portfolios and years of experience in developing flow chemistry systems. These established players focus on continuous innovation, expanding their offerings with advanced features such as automation, integration with analytical tools, and modular designs for scalability. Concurrently, emerging startups launch novel solutions, often specializing in unique reactor designs or specialized applications. The market's competitiveness is further amplified by collaborations and partnerships between industry players, academia, and research institutions. The pursuit of sustainability and diverse applications across pharmaceuticals, chemicals, and materials sectors has led to a dynamic landscape characterized by innovation, partnerships, and a drive to cater to the evolving demands of various industries.
AM Technology
Chemtrix BV
Corning Incorporated
Ehrfeld Mikrotechnik GmbH
FutureChemistry Holding B.V.
HEL Ltd.
Lonza Group AG
Milestone Srl
Parr Instruments Company
Syrris Ltd (Asahi Glassplant Inc.)
ThalesNano Inc
In July 2023, H.E.L Group partnered with IIT Kanpur to harness the institute's sustainable energy for establishing cutting-edge testing labs focused on innovative chemistry, battery storage, and thermal studies.
In June 2023, H.E.L Group launched the BioXplorer 400XL and BioXplorer 400P automated parallel bioreactors, expanding their range for seamless cell line screening, process development, and diverse research in bioprocessing and flow chemistry.
In March 2023, Corning Incorporated and NARD Institute, Ltd. initiated an application-qualified Advanced-Flow reactor lab at NARD's Japanese facility.