到 2030 年汞分析儀市場預測：按類型、監測類型、樣本類型、應用、最終用戶和地區進行的全球分析

根據 Stratistics MRC 的數據，2024 年全球汞分析儀市場規模為 3.219 億美元，預計到 2030 年將達到 5.311 億美元，預測期內複合年成長率為 8.7%。

汞分析儀是用來檢測和測量空氣、水、土壤、工業排放等各種樣本中汞濃度的分析儀器。這些分析儀使用低溫蒸氣原子吸收光譜 (CVAAS) 和原子螢光光譜 (AFS) 等技術進行操作，以提供準確、靈敏的汞測量。它對於環境監測、公共衛生和監管合規至關重要，有助於追蹤汞污染水平並評估對生態系統和人類的影響。

根據美國國立衛生研究院的數據，自工業化前時代以來，美國中的汞排放量增加了三到十倍。

人們越來越意識到汞的健康風險

人們對汞健康風險的認知不斷提高，大大推動了市場的發展。由於汞暴露與神經病變、呼吸系統疾病和其他嚴重的健康問題有關，因此產業和監管機構越來越關注檢測和控制汞含量。這些日益成長的擔憂推動了對精確可靠的汞檢測設備的需求，從而導致分析儀技術的進步以及環境監測、醫療保健和工業應用等領域的採用增加。

維運複雜

汞分析儀複雜的操作和維護要求給市場帶來了重大挑戰。這些設備通常需要專業知識和培訓才能有效操作，這可能會導致用戶成本增加。此外，需要頻繁的維護和校準來確保準確性，從而導致潛在的停機和運作效率低下。這種複雜性可能會阻止中小型企業採用這些技術，從而限制整體市場的成長和可近性。

擴大工業化和都市化

工業化和都市化的不斷發展正在推動市場成長。隨著採礦、製造和發電等產業的增加，空氣、水和土壤的汞污染風險也隨之增加。都市化增加了廢棄物的產生，需要有效的汞檢測和管理。因此，對先進汞分析儀的需求不斷增加，推動了檢測技術的創新以及環境監測和監管合規性的廣泛採用。

缺乏熟練人才

熟練人力資源的有限性是市場面臨的主要挑戰。分析設備的正確操作和維護需要專門的培訓，缺乏合格的技術人員可能會導致使用不當、讀數不準確和停機時間增加。這種短缺也阻礙了汞檢測技術的採用，特別是在新興市場，最終減緩了市場成長並限制了有效的汞監測和監管。

COVID-19 的影響：

COVID-19 的爆發對汞分析儀市場造成了毀滅性影響，導致製造延誤、供應鏈中斷以及由於全球經濟放緩而導致某些行業的需求減少。許多行業暫時關閉，限制了對汞檢測技術的需求。然而，這場危機提高了人們對環境和公共衛生風險的認知，並促使人們重新關注空氣和水質。

X光螢光(XRF) 領域預計在預測期內規模最大

X光螢光（XRF）領域提供了一種無損、快速的方法來檢測各種材料中的汞含量，預計在預測期內將佔據最大的市場佔有率。這些分析儀能夠高精度測量微量汞，因此廣泛用於環境監測、工業應用和法規遵循。對高效、可攜式和準確汞檢測的需求不斷成長，推動了基於 XRF 的解決方案在市場上的採用。

化學和石化領域預計在預測期內複合年成長率最高

由於汞污染在生產過程中造成環境和安全風險，化學和石化領域預計在預測期內的複合年成長率最高。這些部門利用汞分析儀來監控和控制汞排放，確保遵守嚴格的環境法規。準確的檢測有助於防止接觸有毒物質、保護工人健康並保護生態系統。隨著這些產業變得更加工業化，對可靠的汞檢測解決方案的需求持續成長。

比最大的地區

由於嚴格的環境法規和人們對汞健康風險的認知不斷提高，預計北美地區在估計和預測期內將佔據最大的市場佔有率。該地區對環境保護、工業安全和公共衛生的關注增加了對先進汞檢測技術的需求。政府舉措和法律規範正在進一步推動市場發展，推動製造業、採礦業和環境監測等關鍵產業的採用。

複合年成長率最高的地區：

預計亞太地區在預測期內將實現最高成長率。人們對與汞接觸相關的健康風險的認知不斷提高，促使各行業（特別是食品加工和環境監測行業）投資於可靠的汞檢測技術。此外，該地區各國政府正在加強對汞排放的監管，以應對環境污染並保護公眾健康。這些法律規範是工業中採用汞分析儀以確保合規性的主要推動力。

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目錄

第1章執行摘要

第2章 前言

• 概述
• 相關利益者
• 調查範圍
• 調查方法
  • 資料探勘
  • 資料分析
  • 資料檢驗
  • 研究途徑
• 研究資訊來源
  • 主要研究資訊來源
  • 二次研究資訊來源
  • 先決條件

第3章市場趨勢分析

• 促進要素
• 抑制因素
• 機會
• 威脅
• 應用分析
• 最終用戶分析
• 新興市場
• COVID-19 的影響

第4章波特五力分析

• 供應商的議價能力
• 買方議價能力
• 替代品的威脅
• 新進入者的威脅
• 競爭公司之間的敵對關係

第5章全球汞分析儀市場：依類型

• X光螢光(XRF)
• 冷蒸氣原子吸收光譜 (CVAAS)
• 原子螢光光譜 (AFS)
• 感應耦合電漿等離子體質譜 (ICP-MS)
• 其他類型

第6章全球汞分析儀市場：依監測類型

• 監控類型
• 持續監控

第7章全球汞分析儀市場：依樣本類型

• 空氣
• 水
• 土壤

第8章全球汞分析儀市場：依應用分類

• 空氣品質監測
• 水泥製造
• 海鮮檢驗
• 發電廠
• 生物樣本檢測
• 金屬加工
• 其他用途

第9章全球汞分析儀市場：依最終用戶分類

• 環境署
• 化工/石化
• 礦業
• 醫療保健/製藥
• 食品/飲料
• 其他最終用戶

第10章全球汞分析儀市場：按地區

• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 歐洲
  • 德國
  • 英國
  • 義大利
  • 法國
  • 西班牙
  • 其他歐洲國家
• 亞太地區
  • 日本
  • 中國
  • 印度
  • 澳洲
  • 紐西蘭
  • 韓國
  • 其他亞太地區
• 南美洲
  • 阿根廷
  • 巴西
  • 智利
  • 南美洲其他地區
• 中東/非洲
  • 沙烏地阿拉伯
  • 阿拉伯聯合大公國
  • 卡達
  • 南非
  • 其他中東和非洲

第11章 主要進展

• 合約、夥伴關係、協作和合資企業
• 收購和合併
• 新產品發布
• 業務拓展
• 其他關鍵策略

第12章 公司概況

• Lumex Instruments
• Teledyne Leeman Labs
• Thermo Fisher Scientific
• PerkinElmer
• Finlay Minerals
• Milestone Inc.
• Koehler Instrument Company
• Horiba Scientific
• Hitachi High-Tech Analytical Science
• Agilent Technologies, Inc.
• HIRANUMA Co., Ltd.
• Bruker Corporation
• Metrohm AG
• Oxford Instruments
• Tekran Instruments Corporation

According to Stratistics MRC, the Global Mercury Analyzer Market is accounted for $321.9 million in 2024 and is expected to reach $531.1 million by 2030 growing at a CAGR of 8.7% during the forecast period. A Mercury Analyzer is an analytical instrument used to detect and measure mercury levels in various samples, including air, water, soil, and industrial emissions. These analyzers operate using techniques like cold vapor atomic absorption spectroscopy (CVAAS) or atomic fluorescence spectroscopy (AFS), providing accurate and sensitive mercury measurements. They are essential in environmental monitoring, public health, and regulatory compliance, helping to track mercury pollution levels and assess its impact on ecosystems and human health.

According to the National Institute of Health of the U.S., the mercury release in the atmosphere has increased three- to ten-fold as compared to the pre-industrialization era.

Market Dynamics:

Driver:

Growing awareness of mercury's health risks

Growing awareness of mercury's health risks has significantly boosted the market. As mercury exposure is linked to neurological damage, respiratory issues, and other severe health problems, industries and regulatory bodies are focusing more on detecting and controlling mercury levels. This heightened concern has driven demand for precise, reliable mercury detection instruments, leading to advancements in analyzer technologies and increased adoption across sectors like environmental monitoring, healthcare, and industrial applications.

Restraint:

Complex operation and maintenance

The complex operation and maintenance requirements of mercury analyzers pose a significant challenge in the market. These devices often require specialized knowledge and training to operate effectively, which can increase costs for users. Additionally, frequent maintenance and calibration are necessary to ensure accuracy, leading to potential downtime and operational inefficiencies. This complexity may deter small and medium-sized enterprises from adopting such technologies, limiting the market's overall growth and accessibility.

Opportunity:

Expanding industrialization and urbanization

Expanding industrialization and urbanization are fueling the growth of the market. As industries such as mining, manufacturing, and power generation increase, so does the risk of mercury contamination in air, water, and soil. Urbanization leads to higher waste generation, necessitating effective mercury detection and management. Consequently, the demand for advanced mercury analyzers is rising, driving innovations in detection technologies and their widespread adoption for environmental monitoring and regulatory compliance.

Threat:

Limited availability of skilled personnel

The limited availability of skilled personnel is a major challenge in the market. These analyzers require specialized training for proper operation and maintenance, and a shortage of qualified technicians can result in improper usage, inaccurate readings, and increased downtime. This shortage also hampers the widespread adoption of mercury detection technologies, particularly in developing regions, ultimately slowing market growth and limiting effective mercury monitoring and regulation.

Covid-19 Impact:

The COVID-19 pandemic had a disruptive impact on the Mercury Analyzer market, causing delays in manufacturing, supply chain disruptions, and reduced demand in certain sectors due to global economic slowdowns. Many industries temporarily halted operations, limiting the need for mercury detection technologies. However, the crisis also heightened awareness of environmental and public health risks, prompting renewed focus on air and water quality, which is expected to drive future demand for mercury analyzers.

The x-ray fluorescence (XRF) segment is expected to be the largest during the forecast period

The x-ray fluorescence (XRF) segment is expected to account for the largest market share during the projection period offering a non-destructive, rapid method for detecting mercury levels in various materials. These analyzers are widely used for environmental monitoring, industrial applications, and regulatory compliance due to their high precision and ability to measure trace amounts of mercury. The growing demand for efficient, portable, and accurate mercury detection is driving the adoption of XRF-based solutions in the market.

The chemical & petrochemical segment is expected to have the highest CAGR during the forecast period

The chemical & petrochemical segment is expected to have the highest CAGR during the extrapolated period as mercury contamination poses environmental and safety risks in production processes. These sectors utilize mercury analyzers to monitor and control mercury emissions, ensuring compliance with strict environmental regulations. Accurate detection helps prevent toxic exposure, safeguard worker health, and protect ecosystems. As industrialization in these sectors grows, the demand for reliable mercury detection solutions continues to rise.

Region with largest share:

North America region is estimated to account for the largest market share during the forecast period driven by stringent environmental regulations and increasing awareness of mercury's health risks. The region's focus on environmental protection, industrial safety, and public health has led to a higher demand for advanced mercury detection technologies. Government initiatives and regulatory frameworks further boost the market, with key sectors like manufacturing, mining, and environmental monitoring driving adoption.

Region with highest CAGR:

Asia Pacific is expected to register the highest growth rate over the forecast period. Growing awareness about the health risks associated with mercury exposure is prompting industries, especially food processing and environmental monitoring sectors, to invest in reliable mercury detection technologies. Additionally, Governments in the region are enforcing stricter regulations regarding mercury emissions to combat environmental pollution and protect public health. This regulatory framework is a significant driver for the adoption of mercury analyzers in industries to ensure compliance.

Key players in the market

Some of the key players in Mercury Analyzer Market include Lumex Instruments, Teledyne Leeman Labs, Thermo Fisher Scientific, PerkinElmer, Finlay Minerals, Milestone Inc., Koehler Instrument Company, Horiba Scientific, Hitachi High-Tech Analytical Science, Agilent Technologies, Inc., HIRANUMA Co., Ltd., Bruker Corporation, Metrohm AG, Oxford Instruments and Tekran Instruments Corporation.

Key Developments:

In February 2024, Lumex Instruments introduced the Light 915M2 mercury analyzer, the successor to their popular mercury analyzer, Light-915 mercury analyzer. The new Light-915M2 operates into Lumex's proprietary Zeeman atomic absorption spectrometry (AAS) technology with significant improvements and developments to enhance industrial mercury monitoring.

In February 2024, Finlay Minerals announced the successful application of its proprietary RA-915M device for a mercury detection survey in polymetallic deposits located in British Columbia. This achievement was part of the 2023 field operations, which included bio-geochemical sampling and soil mercury (Hg) vapor analysis.

Types Covered:

• X-ray Fluorescence (XRF)
• Cold Vapor Atomic Absorption Spectroscopy (CVAAS)
• Atomic Fluorescence Spectroscopy (AFS)
• Inductively Coupled Plasma Mass Spectrometry (ICP-MS)
• Other Types

Monitoring Types Covered:

• Monitoring Type
• Continuous Monitoring

Sample Types Covered:

• Air
• Water
• Soil

Applications Covered:

• Air Quality Monitoring
• Cement Manufacturing
• Seafood Testing
• Power Plants
• Biological Sample Testing
• Metal Processing
• Other Applications

End Users Covered:

• Environmental Agencies
• Chemical & Petrochemical
• Mining Industry
• Healthcare & Pharmaceuticals
• Food & Beverage
• Other End Users

Regions Covered:

• North America
  • US
  • Canada
  • Mexico
• Europe
  • Germany
  • UK
  • Italy
  • France
  • Spain
  • Rest of Europe
• Asia Pacific
  • Japan
  • China
  • India
  • Australia
  • New Zealand
  • South Korea
  • Rest of Asia Pacific
• South America
  • Argentina
  • Brazil
  • Chile
  • Rest of South America
• Middle East & Africa
  • Saudi Arabia
  • UAE
  • Qatar
  • South Africa
  • Rest of Middle East & Africa

What our report offers:

• Market share assessments for the regional and country-level segments
• Strategic recommendations for the new entrants
• Covers Market data for the years 2022, 2023, 2024, 2026, and 2030
• Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
• Strategic recommendations in key business segments based on the market estimations
• Competitive landscaping mapping the key common trends
• Company profiling with detailed strategies, financials, and recent developments
• Supply chain trends mapping the latest technological advancements

Free Customization Offerings:

All the customers of this report will be entitled to receive one of the following free customization options:

• Company Profiling
  • Comprehensive profiling of additional market players (up to 3)
  • SWOT Analysis of key players (up to 3)
• Regional Segmentation
  • Market estimations, Forecasts and CAGR of any prominent country as per the client's interest (Note: Depends on feasibility check)
• Competitive Benchmarking
  • Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances

Table of Contents

1 Executive Summary

2 Preface

• 2.1 Abstract
• 2.2 Stake Holders
• 2.3 Research Scope
• 2.4 Research Methodology
  • 2.4.1 Data Mining
  • 2.4.2 Data Analysis
  • 2.4.3 Data Validation
  • 2.4.4 Research Approach
• 2.5 Research Sources
  • 2.5.1 Primary Research Sources
  • 2.5.2 Secondary Research Sources
  • 2.5.3 Assumptions

3 Market Trend Analysis

• 3.1 Introduction
• 3.2 Drivers
• 3.3 Restraints
• 3.4 Opportunities
• 3.5 Threats
• 3.6 Application Analysis
• 3.7 End User Analysis
• 3.8 Emerging Markets
• 3.9 Impact of Covid-19

4 Porters Five Force Analysis

• 4.1 Bargaining power of suppliers
• 4.2 Bargaining power of buyers
• 4.3 Threat of substitutes
• 4.4 Threat of new entrants
• 4.5 Competitive rivalry

5 Global Mercury Analyzer Market, By Type

• 5.1 Introduction
• 5.2 X-ray Fluorescence (XRF)
• 5.3 Cold Vapor Atomic Absorption Spectroscopy (CVAAS)
• 5.4 Atomic Fluorescence Spectroscopy (AFS)
• 5.5 Inductively Coupled Plasma Mass Spectrometry (ICP-MS)
• 5.6 Other Types

6 Global Mercury Analyzer Market, By Monitoring Type

• 6.1 Introduction
• 6.2 Monitoring Type
• 6.3 Continuous Monitoring

7 Global Mercury Analyzer Market, By Sample Type

• 7.1 Introduction
• 7.2 Air
• 7.3 Water
• 7.4 Soil

8 Global Mercury Analyzer Market, By Application

• 8.1 Introduction
• 8.2 Air Quality Monitoring
• 8.3 Cement Manufacturing
• 8.4 Seafood Testing
• 8.5 Power Plants
• 8.6 Biological Sample Testing
• 8.7 Metal Processing
• 8.8 Other Applications

9 Global Mercury Analyzer Market, By End User

• 9.1 Introduction
• 9.2 Environmental Agencies
• 9.3 Chemical & Petrochemical
• 9.4 Mining Industry
• 9.5 Healthcare & Pharmaceuticals
• 9.6 Food & Beverage
• 9.7 Other End Users

10 Global Mercury Analyzer Market, By Geography

• 10.1 Introduction
• 10.2 North America
  • 10.2.1 US
  • 10.2.2 Canada
  • 10.2.3 Mexico
• 10.3 Europe
  • 10.3.1 Germany
  • 10.3.2 UK
  • 10.3.3 Italy
  • 10.3.4 France
  • 10.3.5 Spain
  • 10.3.6 Rest of Europe
• 10.4 Asia Pacific
  • 10.4.1 Japan
  • 10.4.2 China
  • 10.4.3 India
  • 10.4.4 Australia
  • 10.4.5 New Zealand
  • 10.4.6 South Korea
  • 10.4.7 Rest of Asia Pacific
• 10.5 South America
  • 10.5.1 Argentina
  • 10.5.2 Brazil
  • 10.5.3 Chile
  • 10.5.4 Rest of South America
• 10.6 Middle East & Africa
  • 10.6.1 Saudi Arabia
  • 10.6.2 UAE
  • 10.6.3 Qatar
  • 10.6.4 South Africa
  • 10.6.5 Rest of Middle East & Africa

11 Key Developments

• 11.1 Agreements, Partnerships, Collaborations and Joint Ventures
• 11.2 Acquisitions & Mergers
• 11.3 New Product Launch
• 11.4 Expansions
• 11.5 Other Key Strategies

12 Company Profiling

• 12.1 Lumex Instruments
• 12.2 Teledyne Leeman Labs
• 12.3 Thermo Fisher Scientific
• 12.4 PerkinElmer
• 12.5 Finlay Minerals
• 12.6 Milestone Inc.
• 12.7 Koehler Instrument Company
• 12.8 Horiba Scientific
• 12.9 Hitachi High-Tech Analytical Science
• 12.10 Agilent Technologies, Inc.
• 12.11 HIRANUMA Co., Ltd.
• 12.12 Bruker Corporation
• 12.13 Metrohm AG
• 12.14 Oxford Instruments
• 12.15 Tekran Instruments Corporation

List of Tables

• Table 1 Global Mercury Analyzer Market Outlook, By Region (2022-2030) ($MN)
• Table 2 Global Mercury Analyzer Market Outlook, By Type (2022-2030) ($MN)
• Table 3 Global Mercury Analyzer Market Outlook, By X-ray Fluorescence (XRF) (2022-2030) ($MN)
• Table 4 Global Mercury Analyzer Market Outlook, By Cold Vapor Atomic Absorption Spectroscopy (CVAAS) (2022-2030) ($MN)
• Table 5 Global Mercury Analyzer Market Outlook, By Atomic Fluorescence Spectroscopy (AFS) (2022-2030) ($MN)
• Table 6 Global Mercury Analyzer Market Outlook, By Inductively Coupled Plasma Mass Spectrometry (ICP-MS) (2022-2030) ($MN)
• Table 7 Global Mercury Analyzer Market Outlook, By Other Types (2022-2030) ($MN)
• Table 8 Global Mercury Analyzer Market Outlook, By Monitoring Type (2022-2030) ($MN)
• Table 9 Global Mercury Analyzer Market Outlook, By Monitoring Type (2022-2030) ($MN)
• Table 10 Global Mercury Analyzer Market Outlook, By Continuous Monitoring (2022-2030) ($MN)
• Table 11 Global Mercury Analyzer Market Outlook, By Sample Type (2022-2030) ($MN)
• Table 12 Global Mercury Analyzer Market Outlook, By Air (2022-2030) ($MN)
• Table 13 Global Mercury Analyzer Market Outlook, By Water (2022-2030) ($MN)
• Table 14 Global Mercury Analyzer Market Outlook, By Soil (2022-2030) ($MN)
• Table 15 Global Mercury Analyzer Market Outlook, By Application (2022-2030) ($MN)
• Table 16 Global Mercury Analyzer Market Outlook, By Air Quality Monitoring (2022-2030) ($MN)
• Table 17 Global Mercury Analyzer Market Outlook, By Cement Manufacturing (2022-2030) ($MN)
• Table 18 Global Mercury Analyzer Market Outlook, By Seafood Testing (2022-2030) ($MN)
• Table 19 Global Mercury Analyzer Market Outlook, By Power Plants (2022-2030) ($MN)
• Table 20 Global Mercury Analyzer Market Outlook, By Biological Sample Testing (2022-2030) ($MN)
• Table 21 Global Mercury Analyzer Market Outlook, By Metal Processing (2022-2030) ($MN)
• Table 22 Global Mercury Analyzer Market Outlook, By Other Applications (2022-2030) ($MN)
• Table 23 Global Mercury Analyzer Market Outlook, By End User (2022-2030) ($MN)
• Table 24 Global Mercury Analyzer Market Outlook, By Environmental Agencies (2022-2030) ($MN)
• Table 25 Global Mercury Analyzer Market Outlook, By Chemical & Petrochemical (2022-2030) ($MN)
• Table 26 Global Mercury Analyzer Market Outlook, By Mining Industry (2022-2030) ($MN)
• Table 27 Global Mercury Analyzer Market Outlook, By Healthcare & Pharmaceuticals (2022-2030) ($MN)
• Table 28 Global Mercury Analyzer Market Outlook, By Food & Beverage (2022-2030) ($MN)
• Table 29 Global Mercury Analyzer Market Outlook, By Other End Users (2022-2030) ($MN)

Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.