市场调查报告书
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1511356
全球红外线热成像市场,到 2030 年的预测:按产品、按模式、波长范围、按应用、按最终用户、按地区Infrared Thermography Market Forecasts to 2030 - Global Analysis By Product (Thermal Binocular, Thermal Rifle Scopes and Other Products), Mode (Handheld, Fixed and Un-cooled), Wavelength Range, Application, End User and By Geography |
根据Stratistics MRC的数据,2023年全球热成像市场规模为4.6225亿美元,预计到2030年将达到7.1339亿美元,预测期内复合年增长率为7.5%。
红外线热成像 (IRT),也称为热感成像或红外线成像,是一种非接触式技术,用于可视化物体表面的热图案。它检测红外线辐射(热量)并将其转换为图像和视频以突出温差。 IRT 广泛应用于工业中,可以检测电气系统中的异常情况、监控建筑隔热材料、协助医疗诊断,并透过在与热相关的问题导致故障之前识别它们来支援预防性维护。
根据世界银行发展指标集显示,2020年捷克工业部门,包括建设业,贡献了该国GDP的31.49%。北约的一项研究估计,2021年美国将把国内生产总值的3.52%用于国防支出。
更采用预测性维护
预测性维护的采用极大地推动了红外线热成像市场的成长。红外线热成像技术可以透过捕捉热成像来帮助及早发现设备异常,并在潜在问题导致故障之前识别它们。这种主动方法减少了非计划性停机时间和维护成本,使其成为对製造、公共产业和运输等行业有吸引力的解决方案。随着越来越多的行业优先考虑业务效率和降低成本,预测性维护应用中对热成像的需求正在加速成长,有助于市场扩张。
技能和培训需求
技能和培训是红外线热成像 (IRT) 市场的限制因素,因为需要专业知识和能力才能有效操作和解释红外线热成像。熟练红外线热成像技术需要了解热传导原理、校准技术和各种红外线相机系统。技术人员还必须接受培训,能够准确分析热图像来诊断问题。这些高进入门槛限制了合格专业人员的可用性,并可能限制市场成长,因为公司在留住技术人员和投资持续培训专案方面面临挑战。
高级分析和人工智慧集成
热成像市场中先进分析和人工智慧的集合成为改进预测性维护、品管和安全性提供了重要机会。人工智慧演算法分析热图像以检测异常并高精度预测设备故障,从而减少停机时间和维护成本。进阶分析有助于即时监控和诊断,从而能够快速回应工业和基础设施应用中的热异常。这些技术还改进了对复杂热模式的解释,从而能够在製造过程、建筑检查和能源审核中实现自动且准确的缺陷识别。
环境和操作限制
环境和操作限制是指由于外部或情境因素而影响热图像的准确性和可用性的挑战。这些限制包括极端温度、湿度变化以及环境干扰(例如灰尘或烟雾),这些干扰会扭曲热量读数。此外,对精确校准和特定视角的需求使操作变得复杂,尤其是在动态和恶劣的环境中。这些因素可能会损害 IRT 设备的功能,导致潜在的误报并降低现场应用的可靠性。
COVID-19 大流行极大地推动了红外线热成像 (IRT) 市场的发展。随着温度筛检已成为检测和防止病毒传播的关键措施,对红外线热成像和系统的需求激增。这些设备迅速部署在公共场所、职场、机场、医疗机构等场所,以进行发烧检测。因此,市场加速创新并整合人工智慧等先进功能以提高准确性。随着 IRT 技术在健康监测领域的日益普及,其应用范围正在超越传统用途。
预计相机细分市场在预测期内将成为最大的细分市场
由于技术进步和各行业应用的增加,红外线热成像市场的相机领域正在显着成长。这些相机对于检测和测量物体发出的热辐射至关重要,可实现非接触式温度测量和红外线成像,以实现预测性维护、建筑诊断和工业检查。需求是由准确的温度监控、提高能源效率和预防性维护的需求所驱动的。此外,红外线摄影机与物联网和人工智慧技术的结合进一步增强了其能力并推动市场成长。
结构分析领域预计在预测期内复合年增长率最高
由于技术进步和对其应用的认识不断提高,红外线热成像市场的结构分析领域出现了显着增长。该领域的重点是使用红外线热成像技术来检测结构缺陷、评估建筑健康状况并识别基础设施中的潜在安全隐患。随着产业和政府优先考虑预防性维护和安全措施,对用于结构分析的红外线热成像的需求正在迅速增加。高解析度热成像和复杂软体解决方案的采用进一步推动了这一成长,使包括建筑、航太和公共产业在内的各个领域能够进行更准确和更全面的检查。
在北美地区,红外线热成像市场正在显着成长,因为它被应用于建筑诊断、汽车、航太和医疗保健等各个行业。推动这一成长的因素包括强调能源效率和安全的严格法规,以及提高热感摄影机的承受能力和性能的技术进步。此外,人们越来越认识到预防性维护和无损检测方法的好处正在推动市场需求。北美拥有许多主要市场参与者和活跃的研发活动,这也有助于红外线热成像市场的扩大。
由于多种因素,亚太地区红外线热成像市场正在经历显着成长。随着中国、印度和韩国等国家不断工业化,对包括热成像在内的无损检测技术的需求不断增加,以确保製造过程的效率和安全。在建筑诊断、医疗保健和汽车等领域越来越多地采用热像仪进行预测维护和能源诊断,这也推动了市场的扩张。
According to Stratistics MRC, the Global Infrared Thermography Market is accounted for $462.25 million in 2023 and is expected to reach $713.39 million by 2030 growing at a CAGR of 7.5% during the forecast period. Infrared Thermography (IRT), also known as thermal imaging or infrared imaging, is a non-contact technology used to visualize heat patterns on the surface of objects. It detects infrared radiation (heat) and converts it into an image or video, highlighting temperature differences. Widely utilized across industries, IRT can detect anomalies in electrical systems, monitor building insulation, assist in medical diagnostics, and support preventive maintenance by identifying heat-related issues before they lead to failures.
According to World Bank collection of development indicator, the industrial sector including construction sector, of Czechia contributed 31.49 % in 2020 in the country's GDP. According to a survey conducted by NATO, in 2021, the United States is estimated to spend 3.52%of its gross domestic product on defense expenditures.
Rising adoption in predictive maintenance
The adoption of predictive maintenance is significantly boosting the growth of the infrared thermography market. Infrared thermography enables early detection of anomalies in equipment by capturing thermal images, which helps in identifying potential issues before they lead to failures. This proactive approach reduces unplanned downtime and maintenance costs, making it an attractive solution for industries such as manufacturing, utilities, and transportation. As industries increasingly prioritize operational efficiency and cost reduction, the demand for infrared thermography in predictive maintenance applications is accelerating, contributing to its market expansion.
Skill and training requirements
In the infrared thermography (IRT) market, skill and training requirements act as a restraint due to the specialized knowledge and competencies needed to operate and interpret thermal imaging equipment effectively. Proficiency in IRT demands an understanding of heat transfer principles, calibration techniques, and familiarity with various infrared camera systems. Technicians must also be trained to analyze thermal images accurately to diagnose issues. This high barrier to entry limits the pool of qualified professionals, thus potentially restricting market growth as companies face challenges in finding skilled personnel and investing in ongoing training programs.
Advanced analytics and AI integration
The integration of advanced analytics and AI in the infrared thermography market presents significant opportunities for enhancing predictive maintenance, quality control, and safety. AI algorithms can analyze thermal images to detect anomalies and predict equipment failures with high accuracy, reducing downtime and maintenance costs. Advanced analytics facilitate real-time monitoring and diagnostics, enabling swift responses to thermal anomalies in industrial and infrastructure applications. These technologies also improve the interpretation of complex thermal patterns, allowing for automated, precise defect identification in manufacturing processes, building inspections, and energy audits.
Environmental and operational limitations
Environmental and operational limitations refer to the challenges affecting the accuracy and usability of infrared imaging due to external and situational factors. These limitations include extreme temperatures, varying humidity, and environmental interferences like dust or smoke, which can distort thermal readings. Additionally, the need for precise calibration and specific viewing angles complicates operation, especially in dynamic or harsh environments. These factors can impair the functionality of IRT equipment, leading to potential misinterpretations and reducing reliability in field applications.
The COVID-19 pandemic significantly boosted the infrared thermography (IRT) market. As temperature screening became a key measure to detect and prevent the spread of the virus, demand for infrared thermographic cameras and systems surged. These devices were rapidly deployed in public places, workplaces, airports, and healthcare facilities for fever detection. Consequently, the market saw accelerated innovation and the integration of advanced features like AI for enhanced accuracy. This increased adoption of IRT technology for health monitoring has also expanded its applications beyond traditional uses.
The cameras segment is expected to be the largest during the forecast period
The camera segment in the infrared thermography market has been experiencing notable growth due to advancements in technology and increasing applications across various industries. These cameras are crucial for detecting and measuring thermal radiation emitted by objects, enabling non-contact temperature measurement and thermal imaging for predictive maintenance, building diagnostics, and industrial inspections. The demand is driven by the need for accurate temperature monitoring, energy efficiency improvements, and preventive maintenance practices. Moreover, the integration of infrared cameras with IoT and AI technologies further enhances their capabilities, propelling market growth.
The structural analysis segment is expected to have the highest CAGR during the forecast period
The structural analysis segment within the infrared thermography market has experienced notable growth due to advancements in technology and increased awareness of its applications. This segment focuses on using infrared thermography to detect structural defects, assess building integrity, and identify potential safety hazards in infrastructure. As industries and governments prioritize preventive maintenance and safety measures, demand for infrared thermography in structural analysis has surged. The adoption of high-resolution thermal cameras and sophisticated software solutions has further fuelled this growth, allowing for more accurate and comprehensive inspections across various sectors such as construction, aerospace, and utilities.
The North American region has seen significant growth in the infrared thermography market due to increasing adoption across various industries such as building diagnostics, automotive, aerospace, and healthcare. Factors driving this growth include stringent regulations emphasizing energy efficiency and safety, alongside technological advancements improving the affordability and performance of infrared cameras. Moreover, rising awareness about preventive maintenance and the benefits of non-destructive testing methods has bolstered market demand. North America's strong presence of key market players and robust research and development activities further contribute to the region's expansion in the infrared thermography market.
The Asia-Pacific region has experienced significant growth in the infrared thermography market due to several factors. Increasing industrialization across countries like China, India, and South Korea has spurred demand for non-destructive testing techniques, including thermography, to ensure operational efficiency and safety in manufacturing processes. The rising adoption of infrared cameras in sectors such as building diagnostics, healthcare, and automotive for predictive maintenance and energy audits has further fuelled market expansion.
Key players in the market
Some of the key players in Infrared Thermography market include Allied Vision Technologies GmbH, Amprobe Test Tools, Axis Communications AB, Dahua Technology, Fluke Corporation, Hikvision, Infrared Cameras Inc., Jenoptik AG, Micro-Epsilon, NEC Corporation, OPGAL Optronics Industries Ltd., Photonis Technologies SAS, Raytheon Technologies Corporation, Seek Thermal, SKF, Teledyne FLIR LLC, Testo SE & Co. KGaA and Zhejiang Dali Technology Co.,Ltd.
In June 2024, Jenoptik secured a new order from the Traffic Department of Kuwait, a division of the country's Ministry of the Interior. Together with its local partner First Joint Group, Jenoptik will equip Kuwait with more than 100 traffic enforcement systems to increase safety at intersections in the country. The systems are able to detect red light, speeding and moving vehicle offenses, such as illegal turns.
In June 2024, Raytheon, an RTX business, was awarded a $506 million contract from NASA to design and build the Landsat Next Instrument Suite (LandIS), which includes three next generation space instruments, with an option for an additional instrument. The instrument suite will perform Earth observation from three identical observatories from Low-Earth orbit. Through multispectral imaging technology, LandIS will collect images of the Earth's surface every six days, detecting natural and human-induced changes.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.