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隔膜技術

市場調查報告書

商品編碼

1625006

2024 年至 2031 年工業過濾市場（按過濾介質、產品類型、最終用戶和地區劃分）

Industrial Filtration Market By Filtration Media, Product Type, End-User, Region for 2024-2031

出版日期: 2024年09月03日 | 出版商:

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

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簡介目錄

工業過濾市場評估，2024-2031

食品和飲料產業擴大採用過濾系統來預防心臟病、肥胖症和糖尿病。此外，有機農業的興起和農藥、化學肥料的廣泛使用促使人們對食品安全的擔憂日益加劇，從而推動了市場對過濾系統的需求。因此，食品和飲料產業採用過濾系統正呈指數級增長，市場規模將在 2023 年超過 352 億美元，到 2031 年將達到 592.7 億美元的估值。水處理產業採用活性碳過濾器去除氯和其他廢水對市場成長做出了重大貢獻。此外，政府和環保機構減少空氣和水污染排放的法規對工業過濾市場的發展產生了積極影響。因此，政府法規推動了市場成長，預計 2024 年至 2031 年期間的複合年增長率為 6.73%。

工業過濾市場：定義/概述

過濾是許多不同行業採用的重要分離技術，包括化學和石化、金屬和採礦以及製藥業。該過程透過在空氣或流體流中加入一層阻隔層來去除空氣或流體中的雜質。隨著世界人口不斷擴大和城鎮化進程加快，對清潔能源、純淨水、安全食品供應和先進醫療服務的需求日益增加。預計這一趨勢將推動過濾領域的市場成長。

過濾過程使用過濾介質從液體或氣體中去除懸浮固體顆粒，廣泛應用於化學、石化、汽車、金屬和採礦業。預計未來幾年，防止製造廠產生的灰塵和細小空氣顆粒釋放到周圍環境的需求將推動市場需求。領先的製造商越來越注重創新，以減少溫室氣體排放，提高過濾介質的性能和提高能源效率，這將進一步推動先進過濾系統的採用。

即使工人配備了個人防護設備和空氣過濾器，堅固耐用的工業過濾系統對於改善工業環境中的空氣品質至關重要。這些系統有助於延長機械壽命、提高產量並預防空氣傳播疾病。由於空氣清淨機、濾水器和空調等多種採用過濾技術的消費產品的開發，過濾設備市場預計將繼續成長。此外，對技術先進設備的需求以及為其供電所需能源的預期成長將進一步加劇多個行業的公用事業供應壓力。作為這些行業的關鍵技術，市場利益相關者不斷投資研究，以改進現有產品並開發先進的過濾介質，以滿足對增加容量和改善過濾性能日益增長的需求。

微濾、超濾等先進過濾技術如何推動工業過濾市場的發展？

變革性藥物和生命科學的進步大大延長了人類壽命並促進了健康而富有成效的生活方式。這項進步使得診斷和醫學研究等領域更加依賴微濾和超濾等先進過濾技術來確保產品的安全性和純度。因此，醫療保健行業的擴張預計將推動工業過濾市場的成長。此外，有機食品和健康食品的日益普及也推動了該市場的需求。根據路透社民意調查，約有 58% 的消費者喜歡有機食品而不是傳統食品，這鼓勵了食品加工產業融入有機原料。這些產品需要高純度和低殘留，這可以透過先進的過濾過程來實現。此外，食品製造商必須遵守嚴格的廢水處理法規，這進一步增強了市場成長前景。

在製造業、汽車業和化學等產業，對污染防治和排放的環境要求越來越高，推動了對高效過濾系統的需求。工作場所的健康和安全問題也推動了尖端過濾技術的採用，以確保空氣和水的清潔，保護員工和環境。水資源短缺是一個日益嚴重的問題，工業過濾系統對於提供飲用、工業過程和農業所需的清潔水至關重要。薄膜過濾、靜電沉降和納過濾等技術的進步正在提高工業過濾系統的效率、可靠性和性能，從而推動市場成長。快速的城市化和工業化，特別是在發展中國家，對有效的過濾系統的需求越來越大，以管理廢物、減少污染並確保工業過程的可持續性。

石油和天然氣、製藥、食品和飲料以及發電等主要終端用戶領域的擴張，增加了對工業過濾系統的需求，以保持產品品質、運營效率和法規遵從性。隨著產業注重流程最佳化和產品質量，它們需要先進的過濾解決方案來去除流體和氣體中的污染物、顆粒和雜質。由於空氣和水淨化需要高效的過濾系統，太陽能和風能等再生能源的日益普及也推動了市場的發展。工業化和城鎮化的成長是工業過濾市場的主要驅動力，並得到工業運營的擴大、過濾業務的資金支持以及先進技術解決方案的開發的支持。確保員工健康至關重要，因此各行各業都要求在其設施內使用工業過濾系統，從而進一步刺激了市場需求。使用工業過濾系統的主要產業包括水泥、製藥、造紙和石油。

工業4.0和物聯網技術在過濾系統中的出現實現了即時監控、預測性維護和遠端操作，從而提高了系統性能並促進了市場擴展。世界各地普遍存在環境法規和標準，以減輕工業排放的影響。這些準則鼓勵使用無害材料、重塑製造技術、節約實踐並促進再利用以減少污染。北美和歐洲等發展中地區率先頒布了環境法，要求大型工業設施獲得營運和維護許可證，以防止污染。亞太地區和中東及非洲的新興國家也正在製定環境排放標準，增加了對工業過濾的需求。

高額的初始投資和經濟衰退如何限制工業過濾市場的成長？

安裝現代客製化過濾解決方案所需的高昂前期成本可能會阻礙中小型企業 (SME) 採用這些系統。高昂的前期成本，加上持續的營運和維護成本（如消耗品、能源使用和過濾器更換），增加了整體擁有成本，使得一些企業無法獲得過濾解決方案。經濟衰退和不確定性對市場擴張構成威脅。在經濟困難時期，工業界可能會削減新項目和過濾基礎設施的支出。他們努力遵守與排放、水質和工作場所安全相關的嚴格且不斷變化的法規。

在清潔水和可靠能源有限的地區，物流課題可能會阻礙工業過濾系統的部署，從而阻礙這些地區的市場成長。此外，工業過濾系統可能面臨其他廢棄物管理和污染防治技術的競爭，如化學處理方法、再生能源和催化轉換器，這可能會影響市場佔有率。一些傳統或保守的行業由於惰性、無知或不願改變長期存在的做法，在採用先進的過濾技術方面進展緩慢，從而限制了這些行業的市場擴張。流行病、自然災害或地緣政治動盪造成的供應鏈中斷可能會影響製造過濾系統所需的設備、零件和原材料的供應，從而促使延誤和成本增加。

儘管技術不斷進步，但一些工業過濾系統的性能限制意味著它們無法滿足在某些地點或操作條件下使用的可靠性、效率或靈活性所需的標準。與過濾技術相關的環境問題，例如廢棄物的產生和過濾介質的處理，可能會影響消費者的偏好和監管態度，進而影響市場動態。

一個關鍵的課題是超濾和離心過濾等工業過濾過程的大量能源消耗。隨著全球能源成本的上升，這一因素將對製造商的獲利能力產生決定性的影響，為過濾的替代處理流程創造機會，抑制市場成長。需要極少工業過濾的發電廠擴大採用再生能源，這將進一步減少市場需求。原物料價格波動和不可預測的供應限制了市場的成長，而高資本支出、較長的回購週期和不斷上升的生命週期成本阻礙了工業空氣過濾市場的發展。此外，工業過濾系統需要不斷維護，缺乏持續運作的自清潔能力，進一步阻礙了市場擴張。所有這些因素都成為工業過濾市場成長的主要阻礙因素。

The food and beverage industry is installing filtration systems to prevent heart disease, obesity, and diabetes, while the rise of organic farming and the extensive use of pesticides and fertilizers are increasing food safety concerns, driving the demand for filtration systems in the market. Thus, the adoption of filtration systems in the food and beverage industry is surging the growth of market size surpassing USD 35.2 Billion in 2023 to reach a valuation of USD 59.27 Billion by 2031. The adoption of activated carbon filters in the water treatment industry to remove chlorine and other effluents has significantly contributed to market growth. Additionally, government and environmental agency regulations to reduce air and water pollution emissions have positively impacted the development of the industrial filtration market. Thus, government regulations are enabling the growth of market to grow at a CAGR of 6.73% from 2024 to 2031.

Industrial Filtration Market: Definition/ Overview

Filtration is a critical separation technique employed across various industries such as chemicals and petrochemicals, metals and mining, and pharmaceuticals. This process involves removing impurities from air and fluids by incorporating a barrier layer within the airflow or fluid flow. With the global population expanding and urbanization accelerating, the demand for clean energy, pure water, safe food supplies, and advanced medical services is on the rise. This trend is expected to drive market growth in the filtration sector.

The filtration process, which involves removing suspended solid particles from liquids or gases using filter media, is widely used in the chemical, petrochemical, automotive, metals, and mining industries. The need to prevent the release of dust and minute airborne particles generated within manufacturing plants into the surrounding environment is expected to drive market demand in the coming years. Major manufacturers are increasingly focusing on innovations aimed at reducing greenhouse gas emissions, enhancing performance, and improving energy efficiency in filter media, which is likely to further encourage the adoption of advanced filtration systems.

Robust and heavy-duty industrial filtration systems are essential in industrial environments to improve air quality, even when personnel are equipped with body protection and air filters. These systems help extend machinery lifespans, increase production output, and prevent airborne diseases. The market for filtration equipment is expected to continue growing in the coming years, driven by the development of various consumer products such as air purifiers, water filters, and air conditioners that incorporate filtration technology. Furthermore, the future increase in demand for technologically advanced devices and the energy required to power them will further strain utility supplies across multiple industries. As an essential technology for these industries, market stakeholders are continuously enhancing their existing products and investing in research to develop advanced filtration media that cater to the growing needs for increased capacity and improved filtration performance.

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How the Advanced Filtration Technologies Such as Microfiltration and Ultrafiltration Foster the Growth of the Industrial Filtration Market?

Transformative pharmaceutical and life science advancements have significantly extended human life expectancy and promoted a healthy, productive lifestyle. This progress has led to an increase in reliance on advanced filtration technologies like microfiltration and ultrafiltration in sectors such as diagnostics and medical research to ensure product safety and purity. Consequently, the healthcare industry's expansion is expected to drive the growth of the industrial filtration market. Additionally, the rising popularity of organic and healthy food products is boosting demand in this market. According to a Reuters poll, about 58% of consumers prefer organic food over conventional options, prompting food processing industries to integrate organic raw materials. These products require high purity and low residual content, achievable through advanced filtration processes. Moreover, food manufacturers must comply with stringent effluent treatment regulations, further enhancing market growth prospects.

Stricter environmental requirements for pollution control and emissions in industries like manufacturing, automotive, and chemicals are increasing the need for efficient filtering systems. Health and safety concerns in the workplace are also driving the adoption of cutting-edge filtration technologies to ensure clean air and water, protecting both employees and the environment. The growing issue of water scarcity is another factor, as industrial filtration systems are essential for providing clean water for drinking, industrial processes, and agriculture. Technological advancements, including membrane filtration, electrostatic precipitation, and nanofiltration, are improving the efficiency, reliability, and performance of industrial filtration systems, propelling market growth. The surge in urbanization and industrialization, especially in developing nations, is creating a greater demand for effective filtration systems to manage waste, reduce pollution, and ensure the sustainability of industrial processes. Rising energy costs and environmental concerns are prompting industries to adopt energy-efficient filtration systems that optimize resource use and lower operating costs.

The expansion of key end-user sectors such as oil and gas, pharmaceuticals, food and beverage, and power generation is increasing the demand for industrial filtration systems to maintain product quality, operational efficiency, and regulatory compliance. Industries are placing greater emphasis on process optimization and product quality, necessitating advanced filtration solutions to remove pollutants, particles, and impurities from fluids and gases. The growing adoption of renewable energy sources like solar and wind power also boosts the market, as efficient filtration systems are needed to purify air and water. The growth of industrialization and urbanization is a major driver of the industrial filtration market, supported by expanding industrial operations, financial backing for filtration businesses, and the development of advanced technology solutions. Ensuring employee health is crucial, leading industries to mandate the use of industrial filtration systems in their facilities, further boosting market demand. The main industries using industrial filtration systems include cement, pharmaceuticals, paper, and petroleum.

The emergence of Industry 4.0 and IoT technologies in filtration systems enables real-time monitoring, predictive maintenance, and remote operation, enhancing system performance and driving market expansion. Environmental regulations and standards are gaining traction globally to mitigate the impact of industrial emissions. These guidelines promote the use of non-toxic materials, reconfigured manufacturing techniques, and conservation practices, encouraging reuse and reducing pollution. Developed regions like North America and Europe were pioneers in enacting environmental legislation, requiring large-scale industrial installations to obtain permits for pollution control operations and maintenance. Developing countries in the Asia Pacific, the Middle East, and Africa are also establishing environmental emission standards, increasing the demand for industrial filtration.

How the High Initial Investment and the Economic Downturns are Constraining the Growth of Industrial Filtration Market?

The high initial expenditure required for installing modern and tailored filtration solutions can discourage small and medium-sized enterprises (SMEs) from adopting these systems. In addition to the high upfront costs, ongoing operational and maintenance expenses, such as consumables, energy use, and filter replacements, raise the total cost of ownership, making filtration solutions less affordable for some businesses. Economic downturns and uncertainties pose a threat to market expansion, as industries may reduce spending on new projects and filtration infrastructure during difficult economic conditions. The complex regulatory landscape presents another hurdle, with businesses struggling to comply with stringent and constantly evolving regulations related to emissions, water quality, and workplace safety. This necessitates continuous adaptation of filtration systems, increasing operational complexity and costs.

In regions with restricted access to clean water or reliable energy sources, logistical challenges can hinder the deployment of industrial filtration systems, impeding market growth in these areas. Additionally, industrial filtration systems may face competition from other technologies for waste management and pollution control, such as chemical treatment methods, renewable energy sources, and catalytic converters, which could impact their market share. The slow adoption of advanced filtration technologies in some traditional or conservative industries due to inertia, ignorance, or reluctance to change long-standing practices also restricts market expansion within these segments. Supply chain disruptions caused by pandemics, natural disasters, or geopolitical unrest can affect the availability of equipment, parts, and raw materials needed for manufacturing filtration systems, leading to delays and increased costs.

Performance limitations of some industrial filtration systems, despite technological advancements, prevent them from meeting required standards of reliability, efficiency, or flexibility, restricting their use in certain locations or operating conditions. Environmental concerns related to filtration technologies, such as waste generation or filter media disposal, may influence consumer preferences or regulatory attitudes, affecting market dynamics.

A significant challenge is the substantial energy consumption of industrial filtration processes like ultrafiltration and centrifugal filtration. With rising global energy costs, this factor critically affects manufacturers' profit potential and creates opportunities for alternative treatment processes over filtration, restraining market growth. The increasing adoption of renewable energy sources in power plants, which require minimal industrial filtration, further reduces market demand. Fluctuating raw material prices and unpredictable supplies limit market growth, the high capital investments, longer repurchase cycles, and rising life-cycle costs hamper the development of the industrial air filtration market. Moreover, industrial filtration systems require constant maintenance, and the absence of self-cleaning capabilities means they cannot handle continuous operations, further hindering market expansion. All these factors collectively act as significant restraints on the growth of the industrial filtration market.

Category-Wise Acumens

How the Need for Wastewater Treatment and Discharge of Precarious Water Escalates the Growth of Liquid Filers Segment?

Liquid filters segment is showing significant growth in the industrial filtration market. The need to treat wastewater worldwide has become imperative due to its role as a primary cause of water pollution. Untreated wastewater not only contaminates water bodies but also impacts agriculture by introducing toxic water into farmlands. This contamination degrades soil quality and results in the production of toxic crops and vegetables. Additionally, the discharge of hazardous water from various industries further deteriorates the water quality of nearby rivers, posing severe health risks to local populations. Consequently, governments are enforcing stringent regulations to mitigate water pollution, mandating that all industries implement wastewater treatment systems at their outlets.

In recent years, the liquid segment of the industrial filtration market has garnered a significant share, driven by the universal requirement for treating wastewater and processing water across industries. As environmental technologies advance, there is an increasing installation of innovative systems in wastewater treatment plants specifically designed to handle industrial water, thereby boosting the demand for liquid-type filtration. Liquid filtration involves the removal of suspended solid particles, impurities, and pollutants from a fluid stream. This process is straightforward, entailing the passage of process liquid-often in the form of slurries and suspensions-through a permeable filter medium. The medium's tiny, microscopic pores allow only the filtrate to pass through, effectively trapping and retaining the unwanted particles on the other side. This method is essential for purification, clarification, separation, and particle removal in a variety of applications and industries.

The growing emphasis on environmental protection and sustainability further drives the adoption of liquid filtration systems. Industries are increasingly recognizing the importance of complying with regulatory standards and implementing efficient wastewater treatment solutions to reduce their environmental footprint. As a result, the liquid filtration market is poised for continued growth, fueled by advancements in filtration technology and the ongoing need for effective water pollution control measures.

How the Concern of Cross Contamination Propel the Growth of the Petrochemicals Segment?

The petrochemicals segment is witnessing significant growth in the industrial filtration market. Chemical processes often produce pollutants that react with the materials of collection equipment, potentially causing damage to both the equipment and the surrounding environment. These toxins pose significant risks to workers' health and safety as well. Additionally, there is a concern about cross-contamination with other materials, which can degrade the quality of the final products. Given the crucial role that industrial filtration plays in mitigating these issues, the demand for effective filtration solutions is expected to rise during the forecast period.

In the petrochemical industry, industrial filtration is essential for removing contaminants and impurities from feedstocks and final products, including plastics, synthetic fibers, fertilizers, and chemicals. The process ensures that the end products meet stringent quality standards and are safe for use. The growing global demand for refined petroleum products and petrochemicals, coupled with substantial investments in downstream oil and gas production, is driving the market demand for industrial filtration systems.

As the petrochemical industry continues to expand, the need for reliable and efficient filtration systems becomes more critical. These systems help maintain the integrity of production processes, enhance product quality, and ensure compliance with environmental regulations. Furthermore, advancements in filtration technology are enabling the development of more robust and effective solutions, which can handle the complex and demanding requirements of modern petrochemical operations.

Country/Region Wise Acumens

How the Stringent Regulations by the Government and Robust Healthcare Infrastructure is Surging the Growth of the Industrial Filtration Market in North America?

North America is substantially dominating the industrial filtration market driven by substantial investments from industries across various regions to comply with stringent regulations imposed by agencies such as the Environmental Protection Agency (EPA) and the World Health Organization (WHO). These regulations mandate the implementation of advanced filtration systems to control emissions and maintain air and water quality, thereby promoting market expansion. Additionally, the flourishing healthcare and power generation industries in these regions further bolster the demand for industrial filtration solutions.

In North America, the industrial filtration market is experiencing notable growth. Investments by regional industries to meet rigorous safety regulations in the United States and Canada play a critical role in this expansion. The implementation of stringent environmental protection standards in these countries is anticipated to increase the demand for industrial filtration products. This is particularly evident in sectors such as healthcare and automotive, where maintaining clean and safe environments is paramount.

The healthcare industry, with its need for sterile and contaminant-free environments, relies heavily on advanced filtration systems to ensure the safety of patients and medical staff. Similarly, the automotive industry demands high-quality filtration solutions to maintain air quality and reduce emissions from manufacturing processes. These requirements drive the adoption of industrial filtration systems, contributing to market growth in the region.

The United States market, in particular, is poised for significant growth due to several factors. The adoption of cutting-edge technology and a growing consumer preference for smart, innovative, and user-friendly devices are key drivers of this trend. As industries and consumers alike seek more efficient and advanced filtration solutions, the demand for these products is expected to rise. This technological adoption encompasses not only the industrial sector but also consumer products, such as air purifiers and water filtration systems, which are becoming increasingly popular. Moreover, the focus on sustainability and environmental responsibility is prompting industries to invest in advanced filtration technologies that enhance energy efficiency and reduce environmental impact. This aligns with the broader global trend towards greener and more sustainable industrial practices, further supporting the growth of the industrial filtration market.

How the Increasing Investments in the Manufacturing Sector and Strict Regulations for Pollution Control is Expected to Drive the Industrial Filtration Market in the Asia Pacific?

Asia Pacific is expected to witness the fastest growth in the industrial filtration market. The industrial filtration market in the Asia Pacific region is experiencing significant growth, driven by rising investments in the manufacturing sector aimed at controlling hazardous particle emissions and increasingly stringent air pollution control requirements. The region is known for its aggressive enforcement of government air pollution regulations, which has further bolstered the demand for advanced filtration systems.

One of the key factors contributing to the growth of the industrial filtration market in this area is the region's highly polluting power generation industry. Coal, which accounts for 26.86% of total electricity output, plays a significant role in the region's energy mix. The reliance on coal for power generation has led to increased emissions of harmful pollutants, necessitating the implementation of robust air filtration systems to mitigate environmental and health impacts. Government initiatives and regulatory frameworks aimed at reducing air pollution have been particularly rigorous in the Asia Pacific region. These regulations mandate industries to adopt advanced filtration technologies to comply with emission standards, thereby creating substantial opportunities for the industrial filtration market. As a result, manufacturers are increasingly investing in the development and deployment of innovative filtration solutions to meet these regulatory requirements and enhance air quality.

The projected period is expected to see continued growth in the industrial filtration market, driven by the ongoing need to address air pollution challenges. The focus on improving air quality and reducing emissions from industrial processes will likely lead to increased adoption of filtration systems across various sectors, including power generation, manufacturing, and transportation. Furthermore, the region's commitment to environmental sustainability and public health is expected to drive further investments in the industrial filtration market. As governments continue to enforce stricter air pollution controls and promote the use of cleaner technologies, the demand for efficient and effective filtration systems will continue to rise.

Competitive Landscape

The industrial filtration market is a semi-consolidated landscape, with the top 10 companies holding a significant share (over 50%) of the market, Selecting the right filtration partner depends on your specific needs. Consider factors like the type of filtration required (air, liquid), industry application, desired level of automation, budget, and the company's reputation for quality, innovation, and customer service.

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 filtration market include:

Mann+Hummel, Donaldson Company, Parker Hannifin, 3M, Eaton, Danaher, Alfa Laval, Camfil, Ahlstrom-Munksjo, Pentair.

Latest Developments

In June 2023, Metso inked a contract with Sinosteel Corporation to provide seven Larox FFP2512 pressure filtering units for Tosyali's iron concentrator facility development in Algeria.
In May 2023, ANDRITZ obtained an order from Swedish pulp and paper business BillerudKorsnas to deliver a LimeDry lime mud filter for the re-causticizing plant at their Frovi/Rockhammar pulp mill in Rebro, Sweden.
In March 2021, BHS-Sonthofen provided the United States with a system of two indexing belt filters for producing intermediates for a tear-resistant plastic.
In August 2019, Mann + Hummel announced the acquisition of Hardy Filtration, a Canadian-based air filtration company. Mann Hummer's subsidiary, Tri-Dim Filter Corporation, will benefit from the acquisition as it expands its global manufacturing capability.