剂量计：市场占有率分析、产业趋势与统计、成长预测（2025-2030 年）

剂量计市场规模预计在 2025 年为 39.1 亿美元，预计到 2030 年将达到 55.1 亿美元，预测期内（2025-2030 年）的复合年增长率为 7.1%。

主要亮点

• 剂量计在各行业有着广泛的应用，包括医疗保健和製造业。在製造业中，放射源和X光设备的使用日益需要剂量计来长期监测辐射暴露。被动剂量计，例如胶片徽章和热释光剂量计，通常用于製造业的常规监测。
• 旨在控制辐射和确保工人安全的政府法规正在推动工业领域对剂量计的需求。然而，设备的高成本、对电磁场的敏感性以及机械不稳定性可能会阻碍主动剂量计市场的成长。
• 心血管疾病、癌症和神经系统相关疾病的增加推动了对剂量计的需求，因为这些疾病需要准确的辐射监测。剂量计在核子医学和治疗放射性药物领域有着广泛的应用并展现出良好的前景。医护人员正在采用可穿戴剂量计来分析辐射水平。
• 旨在改进剂量计技术的持续研究和开发正在推动市场的发展。小型化和其他领域的进步使得使用更小的可穿戴剂量计进行即时监测成为可能，这些剂量计正应用于从核能设施到太空开发等各个行业。
• 此外，具有无线通讯功能的剂量计可以实现无缝资料传输和远端监控，而结合生物剂量测定和考虑遗传变异等技术的个人化剂量计方法可以解释个体对辐射敏感性的差异。
• 总体而言，由于辐射介导技术的使用增加、政府法规以及确保工人安全的需求等因素，预计各行业对剂量计的需求将会成长。然而，设备成本高和对环境因素的敏感度等因素可能会限制市场的成长。
• 2024 年 6 月，赛默飞世尔科技宣布推出 Thermo Scientific NetDose Pro 数位剂量计，这是一款可穿戴的连网辐射监测设备。这款紧凑型设备旨在追踪和告知员工包括医疗保健在内的各行各业的辐射暴露风险，并帮助公司遵守严格的监管要求。

剂量计市场的趋势

放射性物质在工业领域的广泛使用推动了市场

• 科学和工业领域广泛应用放射性同位素，以提高生产力并为材料和製程提供独特的见解。放射性同位素充当示踪剂，监测流体流动和过滤、检测洩漏以及测量製程设备上的引擎磨损和腐蚀。据核能总署（IAEA）称，世界各地有数十万台此类仪器在运作。据国际原子能机构称，世界各地有数十万台此类仪器在运作。
• 放射性同位素也用于研究各种材料的混合和流动、检查金属部件以及评估各个行业中焊接的完整性。工业伽马辐射检测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检中使用的X射线类似，但使用密封的钛胶囊内含有微小的放射性颗粒。
• 此外，放射性同位素也用作核子反应炉的燃料来发电，并在纸张生产中控制纸张、塑胶和金属板的厚度。它也用于製造夜光涂料和放射性发光物体。
• 印度近几十年来工业化迅速发展，导致辐射和有害气体的暴露增加。许多行业和医院都实施了剂量测定係统，以防止员工和医疗保健专业人员受到过度辐射。这些因素预计将推动印度市场的成长。
• 根据麻省理工学院发表的报导称，截至2024年1月，美国约有70家公司致力于开发先进核子反应炉，其中约有7家公司因其核能计划的性质而与监管机构合作。人们对标准水冷技术以外的替代核子反应炉技术的兴趣日益浓厚。

亚太地区预计将实现强劲成长

• 预计亚太地区将主导全球剂量计市场，这主要是由于各个终端用户产业对辐射的应用越来越多。由于核能发电以满足日益增长的能源需求，以及中国、日本和印度等新兴经济体制定了严格的人类安全法规，预计该地区的收益将大幅成长。
• 埃克森美孚预测，2040年亚太地区的核能需求将达到22兆BTU，占比达45兆BTU。中国核能产业协会报告称，预计2023年中国核能发电将达到4.4兆瓦时，占全国发电量的5%，并将进一步增加，满足人口对清洁能源的需求。
• 据世界核能协会称，中国预计在2030年超越美国成为世界最大的核能发电。中国核能发电厂的建设正在增加，预计这将在预测期内推动剂量计的需求。例如，中国将于2024年开始建造三座核子反应炉，并计画在2025年至2030年间再建造23座核子反应炉。
• 中国也将核能安研究纳入国家科技规划，建立了国家核能与辐射安全监管研发中心，进行辐射环境监测和技术审查关键技术研究，并提升核安水平。预计这些倡议将在预测期内推动中国对剂量计的需求。
• 日本是世界上老化最快的社会之一，相当一部分人口年龄在65岁以上。根据2023年的国家统计数据，每10人中就有1人年龄超过80岁，65岁以上的人口占总人口的29.5%。根据国家社会安全与人口问题研究所的资料，到2040年，65岁以上人口预计将占总人口的34.8％。人口老化推动了对医疗保健解决方案的需求，老年人口癌症发生率的增加将影响医疗保健产业对剂量计的需求。因此，预计未来几年剂量计市场将在日本各地扩大。
• 根据国际能源总署和世界核能协会发布的消息，截至2024年4月，16个国家正在建造约60座核子反应炉，未来还计划兴建110核子反应炉。在建设活动方面，亚洲处于领先地位。约有30个国家正在规划或已经启动核子反应炉计画。

剂量计行业概况

剂量计市场由 Fortive Corporation、Mirion Technologies Inc.、Thermo Fisher Scientific Inc.、Arrow-Tech Inc. 和 Fuji Electric 等主要公司主导。这些公司正在采取联盟和收购等策略来增强其产品供应并获得永续的竞争优势。

• 2024 年 4 月，Mirion Medical 的子公司 Mirion Dosimetry Services 推出了具有增强辐射暴露监测功能的无线剂量计 InstadoseVUE。先进的无线技术提供稳定的连接、更快的资料传输和长电池寿命。它还有一个电子显示屏，因此您可以即时检查情况。此剂量计可以随时随地监测辐射计量，无需传统的徽章返回流程并简化了合规性。
• 2023 年 5 月，IBA 在奥地利维也纳举行的欧洲放射肿瘤学和治疗放射学学会 (ESTRO) 年会上展示了其在放射治疗品质保证方面的最新创新。

其他福利：

• Excel 格式的市场预测 (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

第二章调查方法

第三章执行摘要

第四章 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
  • 替代品的威胁
  • 竞争对手之间的竞争强度
• 产业价值链分析
• 新冠肺炎疫情和其他宏观经济因素的后续影响将影响市场

第五章 市场动态

• 市场驱动因素
  • 医疗领域对辐射和监测设备的需求不断增加
  • 扩大放射性物质在工业领域的应用
• 市场限制
  • 产品精度高、政府监管严格、高成本

第六章 市场细分

• 按类型
  • 电子个人剂量计 (EPD)
  • 热释光剂量计 (TLD)
  • 光释光剂量计 (OSL)
  • 底片徽章剂量计
  • 其他类型
• 按应用
  • 活动型
  • 被动型
• 按最终用户产业
  • 卫生保健
  • 石油和天然气
  • 矿业
  • 核能
  • 工业
  • 製造业
  • 其他最终用户产业
• 按地区
  • 北美洲
  • 欧洲
  • 亚洲
  • 澳洲和纽西兰
  • 拉丁美洲
  • 中东和非洲

第七章 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.

第八章投资分析

第九章：市场的未来

The Dosimeter Market size is estimated at USD 3.91 billion in 2025, and is expected to reach USD 5.51 billion by 2030, at a CAGR of 7.1% during the forecast period (2025-2030).

Key Highlights

• Dosimeters have diverse applications in various industries, including the medical and manufacturing sectors. In the manufacturing sector, using 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.
• Government regulations, which aim to control emissions and ensure labor safety, boost the demand for dosimeters in the industrial sector. However, the device's high cost, sensitivity to electromagnetic fields, and mechanical instability can hinder the growth of the active dosimeter market.
• The demand for dosimeters is propelled by the increasing prevalence of cardiovascular diseases, cancer, and neurology-related conditions, necessitating precise radiation monitoring. Dosimetry equipment finds extensive applications in nuclear medicine and therapeutic radiopharmaceuticals, presenting lucrative prospects. Healthcare practitioners are embracing wearable dosimeters to analyze radiation levels, while the rising use of imaging devices mandates robust radiation exposure monitoring.
• Market growth is further fueled by continuous research and development efforts aimed at enhancing dosimeter technology. Advancements such as miniaturization enable real-time monitoring with smaller, wearable dosimeters, catering to diverse industries from nuclear facilities to space exploration.
• Additionally, dosimeters equipped with wireless communication capabilities facilitate seamless data transfer and remote monitoring, while personalized dosimetry approaches consider individual variations in radiation sensitivity, incorporating techniques like biodosimetry and accounting for genetic variability.
• 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, market growth may be limited by factors such as the high cost of the device and its sensitivity to environmental factors.
• In June 2024, Thermo Fisher Scientific announced the launch of the Thermo Scientific NetDose Pro digital dosimeter, a wearable, connected device for monitoring radiation. This compact instrument is designed to track and inform radiation exposure risk for personnel in a variety of industries, such as healthcare, and help companies adhere to stringent regulatory requirements.

Dosimeter Market Trends

The Rising Application of Radioactive Substances Across the Industrial Sector is Driving the Market

• Science and industry have 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. According to the International Atomic Energy Agency (IAEA), several hundred thousand such gauges are operating worldwide. They are used to measure 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 similar 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 to manufacture 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 January 2024, approximately 70 companies in the United States were working on advanced nuclear reactors, of which around 7 companies were working with regulators due to the nature of the nuclear project, based on an article published by MIT. The interest in alternative nuclear reactor technology, besides the standard water-cooled technology, has increased.

Asia-Pacific is Expected to Witness Significant Growth

• Asia-Pacific 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 revenue growth, 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 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 in 2023, China's nuclear power generation reached 440,000 gigawatt-hours, accounting for 5% of the nation's electricity output, and it is expected to increase further to meet the population's clean energy demand.
• 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 forecast period. For instance, in 2024, China started the construction of 3 nuclear reactors, and the country has planned the additional construction of 23 nuclear reactors from 2025 to 2030.
• China also 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 forecast period.
• Japan has one of the world's largest aging populations, with a significant portion being over 65 years old; this population is expected to rise substantially by 2060. According to the 2023 national statistics, 1 out of 10 people were aged 80 or above, while 29.5% of the population was 65 or above. Those aged above 65 are expected to account for 34.8% of the population by 2040, based on data provided by the National Institute of Population and Social Security Research. The aging population is likely to drive demand for healthcare solutions, and the rise in cancer incidence in the geriatric population will affect the demand for dosimeters from the healthcare sector. Hence, the dosimeter market is expected to expand across Japan in the coming years.
• As of April 2024, based on the information published by the IEA and World Nuclear Association, there were about 60 nuclear reactors under construction in 16 countries, along with 110 nuclear reactors planned for the future. Asia is leading the race in terms of construction activities. About 30 countries are planning or starting a nuclear reactor program.

Dosimeter Industry Overview

The dosimeter market is semi-consolidated, with the presence of major players such as Fortive Corporation, Mirion Technologies Inc., Thermo Fisher Scientific Inc., Arrow-Tech Inc., and Fuji Electric Co. Ltd. These players are adopting strategies such as partnerships and acquisitions to enhance their product offerings and gain sustainable competitive advantage.

• April 2024: Mirion Dosimetry Services, a Mirion Medical company, unveiled the InstadoseVUE wireless dosimeter, offering enhanced radiation exposure monitoring. Advanced wireless technology allows it to ensure stable connectivity, faster data transmission, and prolonged battery life. The device features an electronic display for real-time insights and status updates. The dosimeter simplifies compliance with its anytime, anywhere dose monitoring, eliminating the need for traditional badge return processing.
• May 2023: IBA presented the latest innovations from its radiation therapy Quality Assurance offering at the European Society for Therapeutic Radiology and Oncology (ESTRO) Annual Meeting held in Vienna, Austria.

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 After-effects and Other Macroeconomic Factors 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 Restraint
  • 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
  • 6.4.4 Australia and New Zealand
  • 6.4.5 Latin America
  • 6.4.6 Middle East and Africa

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.

8 INVESTMENT ANALYSIS

9 FUTURE OF THE MARKET