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市场调查报告书
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1640370

美国气体感测器:市场占有率分析、产业趋势、统计、成长预测(2025-2030)

United States Gas Sensors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

美国气体感测器市场预计在预测期内复合年增长率为 4.94%

美国气体感测器-市场-IMG1

主要亮点

  • 推动气体感测器市场的主要趋势是无线功能的开发和小型化,再加上改进的通讯功能,可用于连接各种设备和机器,而不会影响安全距离内有毒和可燃性气体的检测。
  • 气体感测器在智慧城市中用于各种环境监测应用,包括气象站、公共场所、小城市和建筑自动化。预计这种广泛的使用将在预测期内促进市场成长。暖气、通风和空调 (HVAC) 系统在建筑物中用于各种功能,例如环境监测和气体成分的浓度调节,预计将产生巨大的需求并推动市场成长。
  • 在能源使用方面,基于电池的物联网感测器可以长时间运作,主要是在室外条件下。人们希望气体感测器能够在感测器的整个使用寿命期间持续工作。据信可以混合能源来源(包括太阳能电池板)来补充电池。一些气体感测技术(例如声学和光学方法)消耗的能量较少,因为感测器不需要温度补偿并且可以在测量间隔之间断电。其他技术,如电化学、MOS 和催化,都有预热时间。因此,关闭这些感测器将对其性能和提供准确测量的能力产生重大影响。
  • 感测技术的另一个重要要素是连结性。越来越多的用户重视透过标准类比或数位输出、云端连接或无线监控成功读取和收集资料的能力。使用者可以即时远端监测气体浓度,并从相容的智慧型手机或 PC 接收重要读数和更新。对云端基础的追踪和资料登录感兴趣的用户通常会选择 Aranet4 PRO 室内空气品质监测仪。 Aranet4 是一款先进、现代、无线支援功能的小工具,可透过 iOS 或 Android 应用程式准确检测二氧化碳、相对湿度、温度和气压。
  • 借助 RFID 和蓝牙等各种创新技术,无线气体感测器具有多种优势,例如准确性、可靠性以及易于电子整合。因此,它在过去几年中变得非常流行。无线技术主要部署在物联网应用中,支援透过 Wi-Fi、3G 或 4G 行动资料网路或本地无线网路直接连接。许多无线设备都具有内建智慧功能,只需按一下按钮即可自动识别它们并连结到无线楼宇网路。
  • 美国政府处于应对气候变迁的最前线。作为这场斗争的一部分,该国在减少温室气体排放方面拥有先进技术和方法的记录。根据美国环保署 (EPA) 的数据,石油和天然气产业是美国最大的甲烷排放工业来源,排放排放164 个国家的总和还要多。石油和天然气作业也会排放有害空气污染物,例如苯和形成烟雾的挥发性有机化合物 (VOC)。
  • 2021年11月,美国政府发起了一项大幅减少石油和天然气产业排放的倡议。美国正在全球推动类似倡议,包括与欧盟 (EU) 合作主导《全球甲烷承诺》,旨在到 2030 年将甲烷排放较 2020 年水准减少 30%。
  • 研究人员正在引入先进技术来设计和製造气体感测器,以满足许多新的要求和应用。研究领域包括可穿戴气体感测器、能源采集气体感测器和行动电话气体感测器。
  • 疫情期间,气体感测器公司开发新产品以维持现金流。例如,AerNos, Inc. 打算专注于其针对智慧家庭市场的奈米气体感测器技术和功能。对于危险气体和室内空气品质监测应用,AerNos 推出了具有突破性气体感测功能的嵌入式解决方案。 AerNos 智慧家庭气体感知器模组的应用包括暖通空调、通风、智慧空气净化系统中的自动空气净化,以及透过智慧家庭产品向消费者提供空气品质警报。

美国气体感测器市场趋势

加强各行业的安全卫生监管

  • 美国政府工业卫生学家会议 (ACGIH) 建议 8 小时长时间工作的基准值25 ppm,而美国职业安全健康研究所 (NIOSH) 估计建议的暴露限值为 35 ppm。
  • 美国环保署 (EPA) 已确定泵浦、阀门和连接器等洩漏设备是化学製造和精製排放挥发性有机化合物 (VOC) 和挥发性有害空气污染物 (VHAP) 的主要来源。该机构还估计,设备洩漏每年排放约 9,357 吨 HAP 和 70,367 吨 VOC。
  • 洩漏检测和修復 (LDAR) 计划已在许多州实施计划 (SIP)、国家有害空气污染物排放标准 (NESHAP)、新源绩效标准 (NSPS)、资源节约和回收法案 (RCRA) 以及其他法规中实施州或当地要求强制执行。有近 25 项联邦标准要求设施实施 LDAR 计画。
  • 此外,根据美国政府在2050年实现温室气体(GHG)净零排放的策略,美国环保署(EPA)已美国,根据《清洁空气法案》,我们宣布了提案法规。
  • 据贝克休斯公司称,去年11月最后一周,美国有784座石油和天然气钻井钻机在运作。这比上个月有所增加,反映出儘管基准油价下跌,但到年终石油需求预计会增加。由于安全法规的收紧,石油钻井平台的显着增加将推动所研究的市场。

无线化和小型化趋势的扩展

  • 物联网 (IoT) 和 5G 无线通讯网路等通讯平台的进步正在推动智慧气体感测器网路的发展,用于即时监测化学品安全和个人健康。此应用场景需要结合气体感测器的小外形规格、超低功耗、优异的灵敏度、低成本和高智慧等特性。
  • 市场相关人员正在利用这些技术来整合气体感测器,以提高性能和易于操作。空气品质感测器部署在都市区,用于无线节点网路应用。碳奈米材料、金属氧化物和混合复合材料等功能性材料可实现化学感测技术。
  • 整合到低功耗感测器系统中的低成本感测器在无线感测器网路中运行,用于以高时间和空间分辨率监测室外有毒气体和颗粒物的城市空气品质。固定感测器网路、地面车辆移动感测和无人机 (UAV) 正在用于补充智慧、永续城市和物联网 (IoT) 应用中昂贵的空气品质站。
  • 无线气体感测应用现在可以在固定安装中实现长期、可靠的运作和最低的营运成本。它概述了操作员扩展气体检测范围和提高工厂安全性的选项。客户的标准要求是增加覆盖范围并减少现场人数以确保安全。
  • 根据 CTIA 的数据,美国无线用户连线数正在急剧增长,去年达到近 4.99 亿连线数,比前两年增加了近 3,000 万用户。

美国气体感测器产业概况

由于向市场供应产品的主要公司数量有限,美国气体感测器市场被部分分割。该市场似乎适度集中,参与企业采取产品创新、併购和收购等策略来保持竞争力。该市场的主要企业包括霍尼韦尔国际公司、艾默生电气公司、MSA 安全公司、费加罗美国公司和安费诺先进感测器公司。

  • 2022 年 9 月 - 英思科公司推出适用于 Ventis Pro5 多气体监测仪的新型光电离检测器感测器。
  • 2022 年 2 月 - Crowncon 检测仪器有限公司推出 T4 的新型感测器。 Crowncon 检测仪器有限公司扩展了其广受欢迎的 T4 多种气体检测仪的感测器技术。借助新的 MPS 和 LLO2 感测器以及双毒性感测器,T4(现为 T4x)可携式气体检测仪的功能得到了显着扩展。

其他好处

  • Excel 格式的市场预测 (ME) 表
  • 3 个月分析师支持

目录

第一章简介

  • 研究假设和市场定义
  • 调查范围

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
    • 新进入者的威胁
    • 买方议价能力
    • 供应商的议价能力
    • 替代品的威胁
    • 竞争公司之间敌对关係的强度
  • 产业价值链分析
  • 评估 COVID-19 对产业的影响

第五章市场动态

  • 市场驱动因素
    • 为了遵守政府法规,对汽车气体感测器的需求不断增加
    • 提高对主要行业职业事故的认识
  • 市场限制因素
    • 阻碍新客户引进的技术(营运)问题
    • 成本上升,产品缺乏差异化

第六章 市场细分

  • 按类型
    • 有线
    • 无线的
  • 依气体类型
    • 一氧化碳
    • 二氧化碳
    • 氮氧化物
    • 其他(氨、甲烷等)
  • 依技术
    • 电化学
    • 光电离检测器(PID)
    • 固体/金属氧化物半导体
    • 催化型
    • 红外线的
    • 半导体
  • 按用途
    • 医疗用途
    • 建筑自动化
    • 工业的
    • 饮食
    • 运输/物流
    • 其他的

第七章 竞争格局

  • 公司简介
    • Figaro Engineering Inc.
    • Honeywell International Inc.
    • Emerson Electric Co.
    • MSA Safety Incorporated
    • Amphenol Advanced Sensors
    • AMS AG
    • Trolex Ltd
    • Sensirion AG
    • Robert Bosch GmbH
    • City Technology Ltd
    • Renesas Electronics Corporation

第八章投资分析

第九章 市场机会及未来趋势

简介目录
Product Code: 52033

The United States Gas Sensors Market is expected to register a CAGR of 4.94% during the forecast period.

United States Gas Sensors - Market - IMG1

Key Highlights

  • The major trend driving the gas sensors market is the development of wireless capabilities and miniaturization, coupled with improved communication capabilities that enable their integration into various devices and machines without compromising the detection of toxic or flammable gases at safe distances.
  • Gas sensors are used in smart cities for various environmental monitoring applications like monitoring air quality across weather stations, public places, small cities, and building automation. Such widespread use is anticipated to boost the market's growth over the forecast period. Heating, ventilation, and air conditioning (HVAC) systems are utilized in buildings for various functions, such as environmental monitoring and regulating the concentration of a gaseous component, which has generated a significant amount of demand and is anticipated to propel the market's growth.
  • Regarding energy usage, IoT-ready sensors based on batteries can run for extended periods, primarily in outdoor conditions. It would be preferable for gas sensors to continue operating until the transducer's lifetime expires. Mixing energy sources, including solar panels, would be feasible to replenish the batteries. Some gas sensing technologies use less energy since the transducers do not require temperature correction and can be turned off between measurement intervals, such as acoustic and optical approaches. Other technologies, including electrochemical, MOS, and catalytic, have a pre-heating time. Therefore, turning off these transducers would severely impact their performance and ability to produce accurate measurement readings.
  • Another critical factor in sensing technologies is connectivity. More users emphasize their ability to successfully read and gather data through standard analog or digital outputs, cloud connectivity, or wireless monitoring. Customers can obtain critical readings and updates from a compatible smartphone or PC remotely monitoring gas concentrations in real time. Users interested in cloud-based tracking and data logging often select the Aranet4 PRO Indoor Air Quality Monitor - a sleek, modern, wireless-enabled gadget capable of precisely detecting CO2, relative humidity, temperature, and barometric pressure via the Aranet4 iOS or Android app.
  • Wireless gas sensors offer several advantages, such as accuracy and reliability, with the help of various innovative technologies, such as RFID and Bluetooth, and the potential to make electronic devices easy to integrate. As a result, they gained significant traction in the past few years. Wireless technology is primarily deployed for IoT applications, allowing direct connection over Wi-Fi, 3G or 4G mobile data networks, or local wireless networks. Many wireless devices consist of built-in intelligence that automatically identifies and links to the wireless building network by pushing a button that adds the device to the network.
  • The US government is at the forefront of the fight against climate change. The country has a strong record of advancing technologies and techniques to reduce greenhouse gas emissions as part of this fight. According to the United States Environmental Protection Agency (EPA), in the United States, the oil and gas industry is the largest industrial source of methane emissions, which emits more methane than the total emissions of all greenhouse gases from 164 countries combined. Oil and natural operations also emit toxic air pollutants such as benzene and smog-forming volatile organic compounds (VOCs).
  • In November 2021, the US government launched an initiative to reduce emissions from the oil and gas industry significantly. Through actions, the United States is catalyzing similar efforts worldwide, working in partnership with the European Union to lead a Global Methane Pledge to reduce overall methane emissions by 30% below 2020 levels by 2030.
  • Researchers are implementing advanced technologies for designing to manufacture gas sensors in response to many new and emerging requirements and applications. Some of the research sectors include wearable gas sensors, energy-harvesting gas sensors, and gas sensors in mobile phones.
  • During the pandemic, gas sensor firms have developed new products to maintain the cash flow. For instance, AerNos, Inc. intends to highlight its nano gas sensor technologies and capabilities targeted at the Smart Home market. For applications involving the monitoring of dangerous gases and indoor air quality, AerNos is introducing embeddable solutions with ground-breaking gas-sensing capabilities. Applications for the Smart Home gas sensor module from AerNosinclude automated air purification in HVAC, ventilation, and intelligent air purification systems and providing consumer air quality warnings from Smart Home products.

US Gas Sensors Market Trends

Increasing Health and Safety Regulations in Various Industries

  • The American Conference of Governmental Industrial Hygienists (ACGIH) provided a threshold limit of 25 ppm for an 8-hour long workday, whereas the National Institute for Occupational Safety and Health (NIOSH) estimated a recommended exposure limit of 35 ppm.
  • The US Environmental Protection Agency (EPA) determined that leaking equipment, such as pumps, valves, and connectors, are the prime source of emissions of volatile organic compounds (VOCs) and volatile hazardous air pollutants (VHAPs) from chemical manufacturing facilities and petroleum refineries. The agency also estimated that around 9,357 metric tons per year of HAPs and 70,367 metric tons per year of VOCs had been emitted from equipment leaks.
  • Leak detection and repair (LDAR) programs are required by many State Implementation Plans (SIPs), National Emission Standards for Hazardous Air Pollutants (NESHAP), New Source Performance Standards (NSPS), the Resource Conservation and Recovery Act (RCRA), and other state and local requirements. There are nearly 25 federal standards that require facilities to implement LDAR programs.
  • Furthermore, building on the US government's strategy to achieve net-zero greenhouse gas (GHG) emissions by 2050, the US Environmental Protection Agency (EPA) issued a proposal under Clean Air Act to considerably expand regulations of methane from oil and gas industry operations in the United States.
  • According to Baker Hughes, in the last week of November last year, there were 784 operational oil and gas rigs in the United States. This was a rise from the previous month and reflected stronger oil demand predicted toward the end of the year despite lower benchmark oil prices. Such a huge rise in the oil rigs would drive the studied market due to the increasing safety regulations,

Growing Wireless and Miniaturization Trends

  • The evolution of communication platforms such as the Internet of Things (IoT) and 5G wireless communication networks makes it possible to develop smart gas sensor networks for real-time monitoring of chemical safety and personal health. This application scenario requires a combination of characteristics of gas sensors, including small form factor, ultralow power consumption, superior sensitivity, low cost, and high intelligence.
  • Market players are utilizing these technologies to integrate gas sensors for performance improvement and ease operations. Air quality sensors have been distributed in urban areas for wireless node network applications. Functional materials such as carbon nanomaterials, metal oxides, and hybrid composites allow chemical sensing technologies.
  • Low-cost sensors incorporated in low-power sensor systems have been operated in wireless sensor networks for urban air quality monitoring of toxic gases and particulate matter at the outdoor level with high temporal and spatial resolution. Stationary sensor networks, mobile sensing on ground vehicles, and unmanned aerial vehicles (UAV) are used in smart and sustainable cities and Internet-of-Things (IoT) applications to supplement expensive air quality monitoring stations.
  • Currently, applications of wireless gas detection are feasible for reliable operations in the long-term, fixed installations with minimal operating costs. This offers operators more options to increase gas detection coverage, improving plant safety. The standard requirements from the customers were to expand coverage and reduce the number of people in the field to ensure safety.
  • According to CTIA, wireless subscriber connections in the United States have expanded dramatically, with close to 499 million connections the previous year, an increase of almost 30 million users from the past two years.

US Gas Sensors Industry Overview

The US gas sensors market is partially fragmented owing to the presence of limited major players in the market supplying their products in the market. The market appears to be moderately concentrated, with players adopting strategies like product innovation, mergers, and acquisitions to stay competitive. Some major players in the market are Honeywell International Inc., Emerson Electric Co., MSA Safety Incorporated, Figaro USA Inc., and Amphenol Advanced Sensors.

  • Sep 2022 - Industrial Scientific Corporation introduced a new Photo-Ionization Detector sensor for the Ventis Pro5 Multi-gas monitor, making it the most compact, versatile, and connected five-gas personal monitor that allows users to detect VOCs while improving situational awareness reliably.
  • Feb 2022 - Crowncon Detection Instruments Limited launched a new sensor for its T4. Crowcon Detection Instruments Ltd has extended its sensor technology for the popular T4 Multi-Gas detector. With its new MPS and LLO2 sensors, along with a dual toxic sensor, the capability of the T4 (now T4x) portable gas detector has been greatly extended.

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 Threat of New Entrants
    • 4.2.2 Bargaining Power of Buyers
    • 4.2.3 Bargaining Power of Suppliers
    • 4.2.4 Threat of Substitute Products
    • 4.2.5 Intensity of Competitive Rivalry
  • 4.3 Industry Value Chain Analysis
  • 4.4 Assessment of the COVID-19 Impact on the Industry

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 Increased Demand for Gas Sensors in Automobiles for Compliance with Governmental Regulations
    • 5.1.2 Growing Awareness on Occupational Hazards across Major Industries
  • 5.2 Market Restraints
    • 5.2.1 Technical (Operational) Issues Impending New Customer Adoption
    • 5.2.2 Rising Costs and Lack of Product Differentiation

6 MARKET SEGMENTATION

  • 6.1 By Type
    • 6.1.1 Wired
    • 6.1.2 Wireless
  • 6.2 By Gas Type
    • 6.2.1 Oxygen
    • 6.2.2 Carbon Monoxide
    • 6.2.3 Carbon Dioxide
    • 6.2.4 Nitrogen Oxide
    • 6.2.5 Hydrocarbon
    • 6.2.6 Others (Ammonia, Methane, etc.)
  • 6.3 By Technology
    • 6.3.1 Electrochemical
    • 6.3.2 Photoionization Detectors (PID)
    • 6.3.3 Solid State/Metal-Oxide-Semiconductor
    • 6.3.4 Catalytic
    • 6.3.5 Infrared
    • 6.3.6 Semiconductor
  • 6.4 By Application
    • 6.4.1 Medical
    • 6.4.2 Building Automation
    • 6.4.3 Industrial
    • 6.4.4 Food and Beverages
    • 6.4.5 Automotive
    • 6.4.6 Transportation and Logistics
    • 6.4.7 Other Applications

7 COMPETITIVE LANDSCAPE

  • 7.1 Company Profiles
    • 7.1.1 Figaro Engineering Inc.
    • 7.1.2 Honeywell International Inc.
    • 7.1.3 Emerson Electric Co.
    • 7.1.4 MSA Safety Incorporated
    • 7.1.5 Amphenol Advanced Sensors
    • 7.1.6 AMS AG
    • 7.1.7 Trolex Ltd
    • 7.1.8 Sensirion AG
    • 7.1.9 Robert Bosch GmbH
    • 7.1.10 City Technology Ltd
    • 7.1.11 Renesas Electronics Corporation

8 INVESTMENT ANALYSIS

9 MARKET OPPORTUNITIES AND FUTURE TRENDS