市场调查报告书
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到2030年气体传感器市场预测-按产品、气体类型、输出类型、技术、连接性别、最终用户和地区进行的全球分析Gas Sensors Market Forecasts to 2030 - Global Analysis By Product, Gas Type, Output Type, Technology, Connectivity, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球气体传感器市场规模将达到 29.9 亿美元,预测期内復合年增长率为 11.5%,预计 2030 年将达到 64.2 亿美元。
气体传感器是可以识别各种有害气体和蒸汽的浓度和存在的工具,包括挥发性有机化合物 (VOC)、湿度和气味。 气体传感器在工业设施和工业中用于发现气体洩漏,在家庭中用于检测烟雾和一氧化碳。 它们有各种尺寸、灵敏度和范围。 它们通常用作较大嵌入式系统的组件,例如安全或危险垫系统,并且通常连接到接口和声音警报。
根据疾病控制与预防中心的一项研究,加拿大每年有一氧化碳中毒导致 50 多人死亡。 因此,采用一氧化碳 (CO) 气体传感器是有益的。 这些设备可能会在不知不觉中在您的家中积累危险水平的二氧化碳气体。
由于主要行业需求的增加,气体传感器市场正在扩大。 这些关键操作会产生许多气体,这些气体被排放到空气中,包括一氧化碳、二氧化碳、氨、硫化氢和碳氢化合物。 这些气体释放到空气中会对人体健康产生不利影响。 化学工业产生的气体具有低闪点和较低的爆炸极限 (LEL),可用于各种易燃易爆条件。 然而,持续使用配备气体传感器的气体监测仪和探测器可以减少这些气体造成灾难的可能性。
由于气体传感器的应用范围广泛,包括汽车、暖通空调系统、空气质量监测系统和消费电子产品,因此其出货量正在增长,但价格下降阻碍了销售增长,显着放缓。 传感器製造商之间的激烈竞争也导致了这一点。 多家公司正在将研发重点放在使用 MEMS 技术开发支持物联网的传感器和经济高效的气体传感器系统上。 这给价格带来了压力,特别是在经常使用气体传感器的情况下。 因此,生产商被迫降低气体传感器的可能成本。 因此,强大的价格压力会降低平均售价(ASP),并阻碍竞争激烈的气体传感器市场的收入增长。
各种资讯传感设备将与互联网集成,构建传感器网路。 IoT 对复杂的互联设备产生了巨大的需求,这些设备根据互联环境的要求支持 M2M 和设备互操作性。 对物联网的需求不断增长、移动设备的使用不断增加,以及云计算和大数据分析的发展,催生了对采用新技术和改进技术的气体传感器的需求。 许多初创企业也正在开发可以使用气体传感器提供污染数据的传感器网路。 例如,专门从事环境传感器网络设计和实施的美国公司 Aclima,利用 Google Cloud 平台分析数据来测量、绘製和了解美国各个城市的空气质量。 每天,我们从 20 亿个数据点收集环境资讯。 此类应用为市场未来的增长提供了广阔的机会。
气体传感器行业正在快速增长。 然而,各种技术问题可能会阻碍市场扩张。 气体传感器的一个或多个主要问题是能耗高、对环境因素敏感度高、成本高、製造难度大。 气体传感器需要适当和及时的维护,以避免准确性和灵敏度问题。 製造工艺的复杂性也导致了气体传感器的高成本。 新型气体传感器的研究和商业化是一个非常困难且耗时的过程,也会导致成本上升。 因此,在新型气体传感器的漫长开发週期中必须满足许多法律和性能标准。 在这种情况下,市场可能会受到阻碍。
由于政府监管严格,COVID-19疫情对气体传感器造成了较大影响,疫情初期就受到了负面影响;多家中小型企业损失惨重,市场受到抑制。 然而,医疗保健行业的重症监护设备製造仍然存在巨大的市场,例如呼吸机、制氧机和呼吸相关设备。 此外,医院对氧气传感器的需求量很大,以有效调节氧气消耗量,从而在大流行期间提振了市场。
空气质量监测器领域预计将经历利润丰厚的增长。 这是因为室内和室外都需要空气质量监测仪,并且需要检测某些区域的CO、硫化氢(H2S)和二氧化氮(NO2)等几种重要气体的含量。这可以通过分布来完成整个过程中大量的气体传感器单元。 气体传感器可在智慧城市中用于各种环境监测应用,例如气象站和公共空间环境监测,以监测空气质量。 HVAC 系统在建筑物中用于多种用途,包括环境监测和控制。
气体探测器领域预计在预测期内復合年增长率最高。 这是因为公司在製造过程中会产生潜在危险的化学品和气体,而气体探测器是整体设施安全所需的关键设备。 汽车、金属与化工、石油与天然气、食品与饮料、采矿、医疗和发电厂是气体探测器的主要应用领域。 此外,由于主要竞争对手增加产品和开发计划以及气体检测系统的快速接受,市场开发正在扩大。
由于快速的城市化和工业化,预计亚太地区将在预测期内占据最大的市场份额。 随着包括中国和印度在内的亚太地区人们越来越意识到空气污染物如何影响人类健康,用于空气质量监测的汽油传感器的需求不断增加。 该地区不断发展的城市化也推动了对气体传感器的需求。 亚太地区各国政府也在智慧城市计划上投入巨资,进一步扩大智能传感器技术的市场。 这些因素都对当地市场的扩张产生了积极的作用。
汽油废气法规变得更加严格,废气监测的需求也随之增加。 所有欧洲汽车製造商都有义务遵守安全法规,提供气体传感器技术。 随着控制污染水平的法规变得更加严格,预计未来几年汽车行业使用气体传感器来减少污染的情况将会增加。 此外,许多区域市场进入者正在开发尖端的气体传感器,这最终促进了该行业的扩张。 例如,英国 Gas Sensing Solutions 于 2022 年 3 月开发了一系列甲烷气体传感器。 该公司专门生产基于 LED 的 NDIR 红外气体传感器。
2023年6月,ABB将通过收购Eve Systems来强化其智能家居技术组合,满足能源价格和气候变化政策加速推动的安全、智能和可持续建筑改造的需求。
2023年5月,ABB将与Lhyfe和Skyborn合作开展欧洲最大的可再生氢项目之一,Skyborn计划在瑞典索德港建造一座工厂。该海上风电场将用于生产约240吨氢每天氢气,相当于每年约180万桶石油。
2021 年 10 月,AlphaSense 收购了 Stream by Mosaic,以从投资者主导的专家访谈的广泛库中提供市场情报,并获得有关各行业公司的新观点。
According to Stratistics MRC, the Global Gas Sensors Market is accounted for $2.99 billion in 2023 and is expected to reach $6.42 billion by 2030 growing at a CAGR of 11.5% during the forecast period. Gas sensors are tools that can identify the concentration and presence of a wide range of dangerous gases and vapours, including volatile organic compounds (VOCs), humidity, and odours. Gas sensors are used in industrial facilities and industries to find gas leaks and to detect smoke and carbon monoxide in residential buildings. They come in a broad range of sizes, sensitivities, and ranges. They frequently function as a component of a larger embedded system, such as security and hazmat systems, and are typically connected to an interface or audible alarm.
According to the Center for Disease Control and Prevention study, more than 50 people in Canada die every year from CO poisoning, as per the Ontario Association of Fire Chiefs. As a result, adopting carbon monoxide (CO) gas sensors is beneficial, as these appliances can unknowingly cause dangerous levels of CO gas to build up in the houses.
Due to a rise in demand in key industries, the market for gas sensors is expanding. These important businesses produce a lot of gases that are emitted into the air, including carbon monoxide, carbon dioxide, ammonia, hydrogen sulphide, and hydrocarbons. The airborne emissions of these gases can have a negative impact on human health. The gases generated by the chemical industry are employed in a broad range of flammable and explosive conditions, at low flashpoints, with lower explosive limits (LEL). However, by consistently using gas monitors and detectors outfitted with gas sensors, the likelihood of mishaps brought on by these gases can be decreased.
Although the shipments of these sensors have risen due to their broad use in autos, HVAC systems, air quality monitoring systems, and consumer gadgets, price erosion has drastically slowed the rate of sales growth. The fierce rivalry among the growing number of sensor manufacturers contributes to some of this. Several businesses are focusing their research and development efforts on creating IoT-compatible sensors and cost-effective gas sensor systems using MEMS technology. This puts pressure on prices, particularly in situations where gas sensors are used often. As a result, producers are forced to lower the possible cost of gas sensors. Thus, intense pricing pressure results in a fall in the average selling price (ASP), which hampers revenue growth in the highly competitive gas sensor market.
Variety of information-sensing devices are integrated with the internet, a network of sensors is created. The IoT generates a significant need for sophisticated connected devices that support M2M and device interoperability in accordance with linked environment requirements. The need for gas sensors with new and improved technologies has arisen as a result of increased demand for IoT, rising mobile device usage, and developments in cloud computing and big data analytics. A network of sensors capable of giving pollution data utilising gas sensors is also being developed by a number of start-ups. For instance, the Google Cloud platform is used by Aclima, a US-based firm that specialises in the design and implementation of environmental sensor networks, to analyse data to measure, map, and comprehend the air quality in different US cities. Every day, it gathers environmental information from 2 billion data points. Such applications provide the market a wide range of opportunities for the future growth.
The gas sensor industry is growing very quickly. However, various technological problems can impede the market's expansion. One or more of the main issues with gas sensors is their high energy consumption, sensitivity to environmental factors, high cost, and difficulty in manufacture. To avoid issues with accuracy and sensitivity, gas sensors need to be maintained properly and promptly. The intricacy of the production process contributes to the high cost of gas sensors. New gas sensor research and commercialization are extremely difficult and time-consuming processes, which raises the cost as well. As a result, there are many laws and performance standards that must be met during the lengthy development cycle of new and novel gas sensors. This can be difficult in this case thus impeding the market.
COVID-19 epidemic had a considerable effect on gas sensors due to the government's stringent regulations, the pandemic's early phase had a negative impact; the flow of commodities was constrained, and several small- and medium-scale businesses founded for gas technology incurred significant losses that constrained the market. However, there remained a huge market for manufacturing critical care instruments including ventilators, oxygen concentrators, and numerous respiratory system-related devices in the medical and healthcare industries. Additionally, hospitals had a huge need for oxygen sensors in order to efficiently regulate oxygen consumption, which boosted the market during the pandemic.
The air quality monitors segment is estimated to have a lucrative growth, due to both indoor and outdoor situations require air quality monitoring, which may be done by dispersing a number of gas sensor units across the necessary area to detect the amounts of several important gases as CO, hydrogen sulphide (H2S), and nitrogen dioxide (NO2). Gas sensors may be used in smart cities for a variety of environmental monitoring applications, including as weather stations and environmental monitoring in public spaces, to monitor the quality of the air. The HVAC system is utilised in buildings for a variety of purposes, including environmental monitoring and control.
The gas detectors segment is anticipated to witness the highest CAGR growth during the forecast period, due to enterprises producing potentially hazardous chemicals and gases during the manufacturing process, gas detectors are crucial instruments necessary for the overall safety of the premises. The automotive, metal & chemical, oil & gas, food & beverage, mining, medical, and power station sectors are the main application areas for these gas detectors. Additionally, the market is expanding as a result of increased product & development initiatives from key market competitors and the rapid acceptance of gas detection systems.
Asia Pacific is projected to hold the largest market share during the forecast period owing to result of its fast urbanisation and industrialisation, the environment now produces more hazardous gases as a result of the region's growing growth. The need for petrol sensors for air quality monitoring is rising as people in the Asia Pacific region, including China and India, become more conscious of how air pollutants affect human health. The region's ongoing urbanisation is another factor driving up demand for gas sensors. The governments of the Asia Pacific area are also making large investments in smart city initiatives, which will further expand the market for smart sensor technology. Such elements are positive for the expansion of the local market.
Europe is projected to have the highest CAGR over the forecast period, owing to increase result of strict regulations governing petrol emissions and the ensuing requirement for emissions monitoring. All automakers in Europe are required by safety regulations to offer gas sensor technology. The use of gas sensors in the automobile industry to reduce pollution is anticipated to grow over the next few years as regulations to control pollution levels become stricter. Additionally, a number of regional market participants are creating cutting-edge gas sensors, which eventually fuels the industry's expansion. For instance, the UK-based firm Gas Sensing Solutions developed a range of methane gas sensors in March 2022. The company specialises in LED-based NDIR infrared gas sensors.
Some of the key players profiled in the Gas Sensors Market include ABB Ltd, AlphaSense Inc., Amphenol Advanced Sensors, AMS AG, City Technology Ltd, DENSO Europe B.V., Dynament Ltd., FLIR Systems, Inc, Figaro Engineering Inc., GfG Gas Detection UK Ltd, Honeywell Analytics, Membrapor AG, Nemoto & Co. Ltd, NGK Spark Plug, Robert Bosch GmbH, Sensirion AG, Senseair AB, Siemens AG, Trolex Ltd and Techcomp Group
In June 2023, ABB strengthens smart home technology portfolio with acquisition of Eve Systems, Acquisition of Eve Systems meets accelerating demand for safe, smart and sustainable retrofitting of buildings driven by energy prices and climate policies
In May 2023, ABB collaborates with Lhyfe and Skyborn on one of Europe's largest renewable hydrogen projects, Powered by Skyborn's planned offshore wind farm, the plant in Soderhamn, Sweden, will produce around 240 tons of hydrogen per day, equivalent of around 1.8 million barrels of oil per annum
In October 2021, AlphaSense Acquires Stream by Mosaic, Delivering Market Intelligence From An Extensive Library of Investor-Led Expert Interviews, gaining new perspectives on companies across a breadth of industries
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.