市场调查报告书
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到 2030 年光学分分类机市场预测 - 按类型、分选平台、容量、用途和地区进行的全球分析Optical Sorting Machinery Market Forecasts To 2030 - Global Analysis By Type, Sorting Platform (Automated Defect Removal Systems, Belt Sorter, Channel Sorter and Other Sorting Platforms), Capacity, Application and By Geography |
根据Stratistics MRC的数据,2023年全球色分类机市场规模为27.2亿美元,预计2030年将达到56.2亿美元,预测期内年复合成长率为10.9%。
光学分选是一种自动化技术,使用各种光学感测器对产品进行分选,包括雷射、相机、X 射线、高光谱成像、检测器和高级编程。近年来,智慧软体和感测技术的进步使得产量比率最大化和更好地了解加工操作的关键要素成为可能。色分类机的主要优势之一是其高性能以及用户友好且易于学习的软体,可提高产品品质并最大限度地减少浪费。
根据Nomura和Momose的统计,日本企业拥有的机械设备的平均使用寿命为16.7年,而Erumban(2008)估计荷兰机械设备的平均使用寿命为26年,这是相当长的。
食品、农业和製造业等行业越来越重视向消费者提供优质产品。光学分分类机利用先进的感测器和摄影机系统根据品质参数仔细检查和分选产品,发挥至关重要的作用。该技术确保只有无缺陷且安全的产品才能进入市场,满足严格的品质标准并增强消费者的信心。随着公司继续关注品管,色分类机的采用预计将增加并推动该市场的成长。
取得和安装这种先进技术的集中成本阻碍了预算有限的小型企业和组织采用它。庞大的初期成本不仅包括购买分类设备,还包括基础设施协调和培训。因此,许多潜在用户对投资色选解决方案犹豫不决,儘管它们提供了长期好处,例如改进的品管和减少废弃物。製造商和供应商必须解决成本问题并提供融资方案,以使色分类机可供更广泛的行业和企业使用。
随着对矿物的需求不断增加,采矿业越来越多地转向色分类机以提高矿石加工效率。这些机器可以准确、快速地从废石中识别有价值的矿物,减少能源和水的消耗,并提高整体资源回收率。由于强调永续采矿实践和资源保护,色选技术提供了引人注目的解决方案。随着采矿业务的扩大和流程的最佳化,该领域对色分类机的需求预计在预测期内将大幅成长。
儘管该技术在已开发国家越来越受欢迎,但预算限制、缺乏意识和工业现代化步伐缓慢要素可能会阻碍其在新兴市场的采用。在资本投资资源有限的地区,光学分选的潜在好处(例如提高产品品质和废弃物)可能无法完全实现。为了应对这一威胁,製造商和供应商必须提供适合发展中地区的独特需求和经济状况的产品,并投资于教育计划,以提高人们对色选技术优势的认识。
COVID-19 大流行对色分类机市场产生了一些负面影响。供应链中断和封锁扰乱了製造流程,导致分类机的生产和交付延迟。汽车和製造业等许多受疫情重创的产业都减少了资本支出,影响了分类技术的投资。此外,经济不确定性和企业预算削减推迟或取消了光学分类机的投资计画。这些要素共同减缓了市场成长,并为该行业带来了短期挑战。
预计雷射领域在预测期内将达到最高水准。雷射通常用作光源来照亮和分析通过分类系统的物体。雷射提供聚焦、强大的光束,提高物体侦测和分类的精确度和准确度。这使得色选机能够非常快速有效地根据颜色、形状、尺寸和其他特征来区分材料。此外,雷射对于雷射诱导萤光(LIF) 等用途至关重要,它可以识别和分类具有萤光特性的材料,例如塑胶和矿物。在快速发展的色分类机领域,雷射器不断推动分选技术的进步,使分选过程更加可靠和通用。
预计带式分类机市场在可预见的时期内将显着成长。带式分类机通常由配备感测器和摄影机的带式输送机结构。当材料和产品沿着输送机移动时,感测器和摄影机会撷取资料并分析关键属性,例如颜色、形状、尺寸和缺陷等级。基于此分析,带式分类机根据预先定义的标准准确地分类物品并将其分类到不同的滑槽和途径中。该技术广泛应用于食品加工、回收、采矿等多种行业,能够高精度地快速分类物料和产品,提高效率,降低劳动成本,并确保精确的品管,已经实现。
由于其先进的行业形势和对品管的高度重视,北美在色分类机市场中占据最大份额。该地区建立了食品加工、回收和采矿业,增加了对色分类机的需求。食品安全和废弃物管理方面严格的法规要求进一步推动了色选技术的采用。此外,北美受益于重大技术进步和领先製造商的成熟市场生态系统,在收益和创新方面为全球色分类机市场做出了重大贡献。
由于几个关键要素,预计亚太地区的色分类机市场年复合成长率最高。由于人口快速增长和都市化,该地区对加工食品的需求不断增加,因此需要高效的分类解决方案。此外,日益增长的环境问题正在推动回收业的发展,并推动光学分选技术的采用。此外,亚太地区正在经历重大工业化,工业现代化和品管成为当务之急,特别是在中国和印度等国家。该地区较低的劳动力成本使色分类机自动化成为一个有吸引力的提案,进一步推动了市场成长。
According to Stratistics MRC, the Global Optical Sorting Machinery Market is accounted for $2.72 billion in 2023 and is expected to reach $5.62 billion by 2030 growing at a CAGR of 10.9% during the forecast period. Optical sorting is an automated technique that sorts products using a variety of optical sensors, including lasers, cameras, X-rays, hyperspectral imaging, photodetectors, and sophisticated programming. The ability to maximize yield and better comprehend crucial elements of processing operations has been made possible in recent years due to the advancements in intelligent software and detection technology. One major benefit of optical sorter machines is that they offer higher performance with user-friendly and simple-to-learn software, better product quality, and minimal good product loss.
According to Nomura and Momose, the average service lifespan of machinery and equipment owned by Japanese businesses is 16.7 years, whereas Erumban (2008) estimated the average service lifespan of machinery and equipment in the Netherlands to be 26 years, which is significantly longer.
Industries such as food, agriculture, and manufacturing increasingly prioritize delivering high-quality products to consumers. Optical sorting machinery plays a pivotal role by utilizing advanced sensors and camera systems to meticulously inspect and sort products based on quality parameters. This technology ensures that only defect-free and safe items reach the market, meeting stringent quality standards and enhancing consumer confidence. As businesses continue to focus on quality control, the adoption of optical sorting machinery is expected to rise, driving the growth of this market.
Acquiring and installing this advanced technology can be capital-intensive, deterring smaller businesses and organizations with limited budgets from adoption. The substantial upfront costs encompass not only the purchase of sorting equipment but also infrastructure adjustments and training. As a result, many potential users may hesitate to invest in optical sorting solutions, even though they offer long-term benefits such as improved quality control and reduced waste. Manufacturers and providers need to address cost concerns and offer financing options to make optical sorting machinery more accessible to a wider range of industries and businesses.
As the demand for minerals continues to rise, the mining industry is increasingly turning to optical sorters to enhance ore processing efficiency. These machines can accurately and rapidly identify valuable minerals from waste rock, reducing energy and water consumption and improving overall resource recovery rates. With the emphasis on sustainable mining practices and resource conservation, optical sorting technology offers a compelling solution. As mining operations expand and seek to optimize their processes, the demand for optical sorting machinery in this sector is expected to see considerable growth over the forecast period.
While the technology is gaining traction in developed countries, factors such as budget constraints, lack of awareness, and a slower pace of industrial modernization can hinder its adoption in emerging markets. The potential benefits of optical sorting such as improved product quality and reduced waste may not be fully realized in regions where resources for capital investment are limited. To address this threat, manufacturers and providers need to tailor their offerings to the specific needs and economic conditions of developing regions and invest in educational initiatives to raise awareness about the advantages of optical sorting technology.
The COVID-19 pandemic negatively impacted the optical sorting machinery market in several ways. Supply chain disruptions and lockdowns disrupted manufacturing processes, leading to delays in the production and delivery of sorting machinery. Many industries hit hard by the pandemic, such as automotive and manufacturing, reduced capital expenditures, affecting investment in sorting technology. Furthermore, economic uncertainties and reduced budgets for businesses postponed or canceled planned investments in optical sorters. These factors collectively slowed market growth and created short-term challenges for the industry.
The laser segment is anticipated to be the largest during the forecast period. They are commonly used as light sources to illuminate and analyze the objects passing through the sorting system. Lasers provide a focused and intense light beam that enhances the accuracy and precision of object detection and classification. This enables optical sorters to distinguish between materials based on their color, shape, size, and other characteristics with exceptional speed and efficiency. Moreover, lasers are integral in applications like laser-induced fluorescence (LIF), where they can identify and sort materials with fluorescent properties, such as plastics and minerals. In the rapidly evolving optical sorting machinery landscape, lasers continue to drive advancements in sorting technology, improving the sorting process's reliability and versatility.
The belt sorter segment is expected to grow significantly in the market over the foreseeable period. It typically consists of a conveyor belt equipped with sensors and cameras. As materials or products move along the conveyor, the sensors and cameras capture data and analyze key attributes like color, shape, size, and defect levels. Based on this analysis, the belt sorter precisely diverts items into different chutes or pathways, segregating them based on predefined criteria. This technology finds extensive use in various industries, including food processing, recycling, and mining, where it enhances efficiency, reduces labor costs, and ensures accurate quality control by rapidly sorting materials or products with a high degree of accuracy.
North America commands the largest share in the optical sorting machinery market due to its advanced industrial landscape and a strong focus on quality control. The region's well-established food processing, recycling, and mining industries drive the demand for optical sorters, ensuring that products meet stringent quality and safety standards. Stringent regulatory requirements in food safety and waste management have further propelled the adoption of optical sorting technology. Moreover, North America benefits from substantial technological advancements and a mature market ecosystem with leading manufacturers, making it a significant contributor to the global optical sorting machinery market, both in terms of revenue and innovation.
The Asia Pacific region is anticipated to have the highest CAGR in the optical sorting machinery market due to several key factors. The region's burgeoning population and urbanization have increased the demand for processed food, which necessitates efficient sorting solutions. Additionally, growing environmental concerns have boosted the recycling industry, driving the adoption of optical sorting technology. Furthermore, Asia Pacific is witnessing substantial industrialization, particularly in countries like China and India, where industries are modernizing and prioritizing quality control. The lower labor costs in the region make automation through optical sorting machinery an attractive proposition, further propelling market growth.
Some of the key players in Optical Sorting Machinery Market include: Binder+Co AG, Buhler AG, Cimbria, CP Manufacturing, EMS Turnkey Waste Recycling Solutions, Fowler Westrup, Greefa, Key Technology, Llgaier Werke GmbH, National Recovery Technologies, National Recovery Technologies, LLC, Newtec A/S, Raytec Vision, Satake Corporation, Sesotec, The Allgaier Group and Tomra Systems ASA.
In September 2023, Buhler, the Swiss technology group, and NRGene Technologies Ltd, an Israeli genomics company, announced a strategic collaboration today in the field of black soldier fly (BSF) genetics and processing. The two companies are combining their expertise to provide solutions and services to this rapidly evolving industry.
In August 2023, Buhler, one of the world's leading processing technology groups, and Entocycle, an insect technology company, have joined forces to drive adoption of large-scale black soldier fly (BSF) farms. The companies will provide solutions and expertise to serve customers in this segment, covering the multiple steps of the journey, from concept and basic engineering to execution of BSF facilities worldwide.
In March 2023, at Binder+Co AG, two superlative BIVITEC screening machines have made their way to their place of use. The largest expansion wave screens ever built have 35 square meters of screen area per screen deck. They are explosion-proof, equipped with extinguishing water equipment and integrated vibration range monitoring and work down to -40°C. BIVITEC screening machines are designed to screen 470 m³ of wood chips per hour.