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市场调查报告书
商品编码
1445464
剂量计 - 市场占有率分析、产业趋势与统计、成长预测(2024 - 2029)Dosimeter - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029) |
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价格
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简介目录
剂量计市场规模预计到 2024 年为 36.5 亿美元,预计到 2029 年将达到 51.5 亿美元,在预测期内(2024-2029 年)CAGR为 7.11%。
主要亮点
- 剂量计在各行业都有多种应用,包括医疗和製造业。在製造业中,放射源或 X 光机的使用增加了对剂量计长期监测辐射暴露的需求。被动剂量计,例如薄膜徽章和热释光剂量计,通常用于製造业的日常监测。
- 旨在控制排放和确保劳动安全的政府法规进一步支持了工业领域对剂量计的需求。然而,该设备的高成本及其对电磁场的敏感性以及机械不稳定性是阻碍主动剂量计市场成长的因素。
- COVID-19 大流行导致对剂量计的需求增加,特别是在使用紫外线的消毒环境中。剂量计用于测量参与消毒活动的工人的紫外线暴露量,以确保他们的安全。此外,某些参与疫情应对工作的产业,例如个人防护装备(PPE)的製造,可能需要剂量计来监测辐射暴露程度。
- 整体而言,在辐射介导技术的使用增加、政府法规以及工人安全需求等因素的推动下,各行业对剂量计的需求预计将会成长。然而,市场成长可能会受到设备成本高及其对环境因素敏感度等因素的限制。
剂量计市场趋势
工业领域放射性物质应用的增加推动了市场
- 科学和工业已经发现放射性同位素的许多应用,可以提高生产力并提供对材料和工艺的独特见解。放射性同位素用作示踪剂,用于监测流体流动和过滤、检测洩漏以及测量引擎磨损和製程设备的腐蚀。国际原子能总署 (IAEA) 估计,全世界有数十万个此类仪器正在运行,测量材料吸收的辐射量。
- 放射性同位素也用于研究各种材料的混合和流速、检查金属零件以及评估各行业焊接的完整性。工业伽马射线照相利用辐射的穿透力来有效地筛选材料。它的工作原理与机场安全检查中使用的 X 射线类似,但在密封的钛胶囊中装有一小粒放射性物质。
- 此外,放射性同位素也用作核反应器的燃料,以发电并在製造过程中控制纸张、塑胶和金属板的厚度。它们也用于製造发光涂料和具有辐射发光的物体。
- 印度近几十年来经历了快速的工业化,导致辐射和有害气体增加。许多行业和医院正在安装剂量测量系统,以防止员工和医疗保健专业人员过度暴露于辐射。预计这些因素将推动印度市场的成长。
- 截至2022年5月,全球在建核反应器有53座,其中中国以15座位居第一,印度紧追在后,当时在建有8座核反应炉。
亚太地区预计将出现显着成长
- 亚太地区预计将主导全球剂量计市场,这主要是由于各个最终用户行业越来越多地采用辐射。由于人们日益关注核电发电以满足不断增长的能源需求,以及中国、日本和印度等新兴国家对人身安全的严格监管,预计该地区的收入将显着增长。
- 埃克森美孚预计,2040年,亚太地区核能需求将达到22兆BTU,占45兆BTU。中国核能协会报告称,2022年前5个月,中国核电产能年增4.5%,高峰达1,663亿度。
- 据世界核能协会称,到2030年,中国有望超越美国,成为世界领先的核能生产国。在研究期间,中国核电厂建设的不断增加预计将增加剂量计的需求。例如,2022年,中国批准在南方新增两座核电设施,耗资116.2亿美元,使核准的核电厂总数达到10座,创十年来最高。
- 中国等国家将核安研发纳入国家科技规划,成立国家核能与辐射安全监管研究发展中心,进行辐射环境监测与技术审查关键技术研究,提升安全水准。预计这些倡议将在研究期间推动中国剂量计的需求。
- 日本是世界上人口老化最严重的国家之一,其中很大一部分年龄在65岁以上,预计到2060年将大幅上升。根据世界银行的数据,日本65岁以上人口比例从2021年的24%增加到2021年的29% ,成长了26%。人口老化可能会推动对医疗保健解决方案的需求,而老年人口癌症发生率的上升将影响医疗产业的剂量计市场。因此,预计未来几年剂量计产业将在日本各地扩展。
- 此外,韩国作为全球最先进和工业化的国家之一,为癌症、心臟和血管疾病提供具有竞争力的一流治疗方法。 2022 年 11 月,生物标靶放射治疗公司 TAE Life Sciences (TLS) 宣布与 HDX Corporation (HDX) 合作,将 TLS 的标靶放射治疗引入韩国。有关放射治疗的不断增加的倡议预计将推动该地区的市场成长。
剂量计行业概况
剂量计市场适度分散,主要参与者包括 Fortive Corporation、Mirion Technologies Inc.、Thermo Fisher Scientific Inc.、Arrow-Tech Inc. 和 Fuji Electric。这些市场参与者正在采取合作伙伴关係和收购等策略来增强他们的产品并获得可持续的竞争优势。
2023 年 1 月,Mirion Technologies Inc. 推出了一项新技术,将 Spot 的辐射技术与 Spot 敏捷移动机器人整合在一起,使工作人员能够在安全距离内测量和侦测辐射。这项创新技术透过 Mirion 背包得以实现,它允许整合各种类型的感测器和输入,包括机器人控制器介面、RDS-32 测量仪、数据分析模组和 SPIR-Explorer 感测器(一种全整合式感测器)。一台用于剂量测定和光谱测量的侦测器。
额外的好处:
- Excel 格式的市场估算 (ME) 表
- 3 个月的分析师支持
目录
第 1 章:简介
- 研究假设和市场定义
- 研究范围
第 2 章:研究方法
第 3 章:执行摘要
第 4 章:市场洞察
- 市场概况
- 产业吸引力-波特五力分析
- 供应商的议价能力
- 买家的议价能力
- 新进入者的威胁
- 替代产品的威胁
- 竞争激烈程度
- 产业价值链分析
- COVID-19 对市场的影响
第 5 章:市场动态
- 市场驱动因素
- 整个医疗领域对辐射和监测设备的需求不断增长
- 工业领域放射性物质的应用不断增加
- 市场限制
- 产品精度高、政府监管严格、成本高
第 6 章:市场细分
- 按类型
- 电子个人剂量计 (EPD)
- 热释光剂量计 (TLD)
- 光激发光剂量计 (OSL)
- 底片徽章剂量计
- 其他类型
- 按应用
- 积极的
- 被动的
- 按最终用户产业
- 卫生保健
- 油和气
- 矿业
- 核电厂
- 工业的
- 製造业
- 其他最终用户产业
- 按地理
- 北美洲
- 欧洲
- 亚太地区
- 世界其他地区
第 7 章:竞争格局
- 公司简介
- Fortive Corporation
- Mirion Technologies Inc.
- Thermo Fisher Scientific Inc.
- Arrow-Tech Inc.
- Fuji Electric Co. Ltd
- ATOMTEX
- Tracerco Limited
- Automess - Automation and Measurement GmbH
- SE International Inc.
- Radiation Detection Company, Inc.
第 8 章:投资分析
第 9 章:市场的未来
简介目录
Product Code: 67250
The Dosimeter Market size is estimated at USD 3.65 billion in 2024, and is expected to reach USD 5.15 billion by 2029, growing at a CAGR of 7.11% during the forecast period (2024-2029).
Key Highlights
- Dosimeters have found diverse applications in various industries, including the medical and manufacturing sectors. In the manufacturing sector, the use of radioactive sources or X-ray machines has increased the need for dosimeters to monitor radiation exposure over an extended period. Passive dosimeters, such as film badges and thermoluminescent dosimeters, are commonly used for routine monitoring in the manufacturing industry.
- The demand for dosimeters in the industrial sector is further supported by government regulations that aim to control emissions and ensure labor safety. However, the high cost of the device and its sensitivity to electromagnetic fields, and mechanical instability are factors that can hinder the growth of the active dosimeter market.
- The COVID-19 pandemic led to an increased demand for dosimeters, particularly in disinfection settings where UV light is used. Dosimeters are used to measure the UV exposure of workers involved in disinfection activities to ensure their safety. In addition, certain industries involved in pandemic response efforts, such as the manufacture of personal protective equipment (PPE), may require dosimeters to monitor radiation exposure levels.
- Overall, the demand for dosimeters is expected to grow in various industries, driven by factors such as the increasing use of radiation-mediated technology, government regulations, and the need for worker safety. However, the market growth may be limited by factors such as the high cost of the device and its sensitivity to environmental factors.
Dosimeter Market Trends
Rising Application of Radioactive Substances Across the Industrial Sector Drives the Market
- Science and industry have found numerous applications for radioisotopes that improve productivity and provide unique insights into materials and processes. Radioisotopes serve as tracers to monitor fluid flow and filtration, detect leaks, and gauge engine wear and corrosion of process equipment. The International Atomic Energy Agency (IAEA) estimates that several hundred thousand such gauges are operating worldwide, measuring the amount of radiation absorbed in materials.
- Radioisotopes are also used to study the mixing and flow rates of various materials, inspect metal parts, and assess the integrity of welds across a range of industries. Industrial gamma radiography utilizes the penetrating power of radiation to screen materials effectively. It works similarly to X-rays used in airport security checks but with a small pellet of radioactive material in a sealed titanium capsule.
- In addition, radioisotopes are used as fuel in nuclear reactors to generate power and control the thickness of paper, plastic, and metal sheets during manufacturing. They are also used for manufacturing luminescent paints and objects that exhibit radio-luminance.
- India has seen rapid industrialization in recent decades, leading to increased radiation and harmful gases. Dosimetry systems are being installed to prevent excessive radiation exposure to employees and healthcare professionals in many industries and hospitals. These factors are expected to propel the growth of the market in India.
- As of May 2022, there were 53 nuclear reactors under construction globally, with China ranking first with 15 units and India following closely with eight reactors under construction at the time.
Asia Pacific is Expected to Witness Significant Growth
- The Asia-Pacific region is expected to dominate the global dosimeter market, primarily due to the increasing adoption of radiation across various end-user industries. The region is anticipated to witness significant growth in terms of revenue, driven by the growing focus on nuclear power for electricity generation, to meet the rising energy demands, and stringent regulations for human safety in emerging countries such as China, Japan, and India.
- Exxon Mobil estimates that in 2040, nuclear energy demand in the Asia-Pacific region will reach 22 quadrillion BTUs, accounting for 45 quadrillion BTUs. China Nuclear Energy Association reported that China's nuclear power production capacity increased by 4.5% YoY during the first five months of 2022, reaching a peak of 166.3 billion kWh.
- According to the World Nuclear Association, China is on track to become the world's leading producer of nuclear energy by 2030, surpassing the United States. The increasing construction of nuclear power plants in China is expected to boost dosimeter demand over the study period. For instance, in 2022, China approved the construction of two additional nuclear power facilities in the country's south, with an expenditure of USD 11.62 billion, bringing the total number of approved atomic power plants to ten, the highest in a decade.
- Countries like China have included R&D in nuclear safety in their national planning for scientific and technological programs, established a National Research and Development Center for Nuclear and Radiation Safety Regulation, and conducted research on key technologies of radiation environment monitoring and technical review to enhance safety. These initiatives are expected to drive dosimeter demand in China during the study period.
- Japan has one of the world's aging populations, with a significant portion being over 65 years, expected to rise substantially by 2060. According to the World Bank, the proportion of Japan's population over 65 years increased from 24% in 2021 to 29% in 2021, a 26% increase. The aging population is likely to drive demand for healthcare solutions, and the rise in cancer incidence in the geriatric population will affect the medical sector market for dosimeters. Hence, it is projected that the dosimeter industry will expand throughout Japan in the coming years.
- Additionally, South Korea, being one of the most advanced and industrialized countries globally, offers competitive first-world treatments for cancer, cardiac, and vascular diseases. In November 2022, TAE Life Sciences (TLS), a biological-targeted radiation therapy company, announced a partnership with HDX Corporation (HDX) to bring TLS's targeted radiation therapy to South Korea. Rising initiatives regarding radiation therapy are expected to drive market growth in the region.
Dosimeter Industry Overview
The Dosimeter Market is moderately fragmented, with major players such as Fortive Corporation, Mirion Technologies Inc., Thermo Fisher Scientific Inc., Arrow-Tech Inc., and Fuji Electric Co. Ltd. These players in the market are adopting strategies such as partnerships and acquisitions to enhance their product offerings and gain sustainable competitive advantage.
In January 2023, Mirion Technologies Inc. introduced a new technology that integrates Spot's radiation technology with the Spot agile, mobile robot, enabling workers to measure and detect radiation from a safe distance. This innovative technology is facilitated through the Mirion backpack, which allows for the integration of various types of sensors and inputs, including the Robot Controller Interface, RDS-32 Survey Meter, Data Analyst module, and SPIR-Explorer sensor, an all-in-one detector for dosimetry and spectroscopy measurements.
Additional Benefits:
- The market estimate (ME) sheet in Excel format
- 3 months of analyst support
TABLE OF CONTENTS
1 INTRODUCTION
- 1.1 Study Assumptions and Market Definition
- 1.2 Scope of the Study
2 RESEARCH METHODOLOGY
3 EXECUTIVE SUMMARY
4 MARKET INSIGHTS
- 4.1 Market Overview
- 4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitute Products
- 4.2.5 Intensity of Competitive Rivalry
- 4.3 Industry Value Chain Analysis
- 4.4 Impact of COVID-19 on the Market
5 MARKET DYNAMICS
- 5.1 Market Drivers
- 5.1.1 Growing Demand for Radiation and Monitoring Devices Across the Medical Sector
- 5.1.2 Rising Application of Radioactive Substances Across the Industrial Sector
- 5.2 Market Restraints
- 5.2.1 Product Accuracy, Stringent Government Regulations, and High Costs
6 MARKET SEGMENTATION
- 6.1 By Type
- 6.1.1 Electronic Personal Dosimeter (EPD)
- 6.1.2 Thermo Luminescent Dosimeter (TLD)
- 6.1.3 Optically Stimulated Luminescence Dosimeters (OSL)
- 6.1.4 Film Badge Dosimeter
- 6.1.5 Other Types
- 6.2 By Application
- 6.2.1 Active
- 6.2.2 Passive
- 6.3 By End-user Industry
- 6.3.1 Healthcare
- 6.3.2 Oil and Gas
- 6.3.3 Mining
- 6.3.4 Nuclear Plants
- 6.3.5 Industrial
- 6.3.6 Manufacturing
- 6.3.7 Other End-user Industries
- 6.4 By Geography
- 6.4.1 North America
- 6.4.2 Europe
- 6.4.3 Asia Pacific
- 6.4.4 Rest of the World
7 COMPETITIVE LANDSCAPE
- 7.1 Company Profiles
- 7.1.1 Fortive Corporation
- 7.1.2 Mirion Technologies Inc.
- 7.1.3 Thermo Fisher Scientific Inc.
- 7.1.4 Arrow-Tech Inc.
- 7.1.5 Fuji Electric Co. Ltd
- 7.1.6 ATOMTEX
- 7.1.7 Tracerco Limited
- 7.1.8 Automess - Automation and Measurement GmbH
- 7.1.9 SE International Inc.
- 7.1.10 Radiation Detection Company, Inc.
