PUBLISHER: Mordor Intelligence | PRODUCT CODE: 1536843
PUBLISHER: Mordor Intelligence | PRODUCT CODE: 1536843
The CO Gas Sensors Market size is estimated at USD 1.30 billion in 2024, and is expected to reach USD 2.37 billion by 2029, growing at a CAGR of 6.20% during the forecast period (2024-2029).
Industries have different applications, with some industries using CO gas for their process-related works and other sectors releasing it as a byproduct. To ensure a secure working environment and avoid any life-threatening exposure to the workers, stringent regulations are followed in the industries. These regulations have been critical in the high-paced and early adoption of CO gas alarms and detectors. Thus, this has directly impacted the increased demand for CO gas sensors in industries.
These sensors play a vital role in safeguarding human lives by providing early warnings when carbon monoxide levels rise to hazardous concentrations. These sensors enable swift evacuation and intervention by alerting people to potential dangers and preventing carbon monoxide poisoning and fatalities.
Government regulations to ensure workplace safety primarily increase the growth of the carbon monoxide gas sensors market. For instance, the United Kingdom, Germany, and France have all implemented various rules to avoid the release of dangerous gasses into the atmosphere. Chemical industrial gasses are employed at low flashpoints with lower explosive limits (LEL) and a broad flammable/combustible spectrum. On the other hand, hazards induced by such gases can be minimized by continually using these gas sensors and monitors.
Additionally, the IIoT is advancing in various regions. Customers are becoming more interested in IoT carbon monoxide gas detectors, and players in the enterprise are working on launching a product range tailored to IoT solutions. The necessity for wireless sensors owing to the requirement of constant and real-time monitoring and detection of emissions is anticipated to drive up demand for CO gas detectors in the coming years.
Further, product miniaturization has helped develop portable gas sensor devices that provide carrying flexibility. In these industries, there is a high focus on adopting automation and collecting all the data. Such a requirement has resulted in increased demand for wireless sensors that are enabled with two-way communication features.
However, the absence of regulatory requirements limits market growth as the urgency to adopt these sensors decreases. CO gas sensors have improved significantly, but there are certain technological limitations. For example, some sensors have difficulty detecting low levels of carbon monoxide, have a limited lifespan, and require frequent calibration. These technical limitations are expected to hinder the carbon monoxide gas sensor market.
Additionally, the Russia-Ukraine war is impacting the supply chain of semiconductors and electronic components, being a significant supplier of raw materials for producing semiconductors and electronic components, including sensors. The dispute has disrupted the supply chain, causing shortages and price increases for these materials, impacting carbon monoxide (CO) gas sensor manufacturers and potentially leading to higher costs for end users.
The carbon monoxide gas sensors market is semi-consolidated, has gained a competitive edge in the past three decades, and consists of several major players. In terms of market share, few of the prominent players currently dominate the market. However, with increasing innovations and safety regulations due to gas leakage incidents, the companies in the market are strategically innovating in providing these sensors, which meet the rules and policies.
April 2024: Honeywell announced that it will be the first gas detector manufacturer in the 'Made in Saudi' initiative, reaffirming its dedication to fostering localization and economic diversification in Saudi Arabia. It will locally assemble and calibrate three distinct gas detection solutions at its Dammam facility. Among these solutions is the Honeywell BW Max XT II, portable multi-gas detector workers use to detect gases like hydrogen sulfide and carbon monoxide in hazardous environments.
October 2023: ABB announced extending its carbon capture collaboration to support the future workforce and energy transition with Imperial College. ABB aims to equip the students with the skills needed to run industrial processes by demonstrating how the latest technology can help optimize plant performance and safely manage emergencies in real-life applications.