According to Future Market Insights, the global non-dispersive infrared sensing market reached a valuation of US$ 95.31 million in 2022. With a CAGR of 7.25% from 2023 to 2033, this market is anticipated to reach US$ 1.04 billion by 2023 and US$ 2.1 billion by 2033.
| Data Points | Key Statistics |
|---|---|
| Expected Value of the Non-Dispersive Infrared Sensing Market in 2023 | US$ 1.04 billion |
| Projected Value of the Non-Dispersive Infrared Sensing Market in 2033 | US$ 2.1 billion |
| Growth Rate of the Non-Dispersive Infrared Sensing Market (2023 to 2033) | CAGR of 7.25% |
A key trend that is becoming increasingly popular in the non-dispersive infrared sensing market is the rapid development of technology. The development of technological methods for non-dispersive infrared sensing is the primary emphasis of major businesses.
Sensing technology has been widely used for gas detection purposes. The technology has gained more significance over the period of time owing to the increasing number of applications across different industry verticals such as industrial production, automotive, medical applications, indoor air quality supervision, and environmental studies among others.
Non-dispersive infrared sensors are typically used for measuring the concentration of carbon oxides in the atmosphere. Non-dispersive infrared sensing analyzers employ the use of specialized sensors to measure the concentrations of gas in the surrounding atmosphere.
Non-dispersive infrared sensing analyzers accommodate the analysis of a wide range of gases, including carbon dioxide, carbon monoxide, methane, and sulfur dioxide among others. Many industrial facilities depend upon CO2 analyzers to monitor the quality and conditions of air to ensure gas levels stay within a set limit. Non-dispersive infrared sensing analyzers are suitable for assessing the sample gases in both high and low concentrations.
Even when the non-dispersive infrared sensors are exposed to oxidizing compounds, they are highly durable in nature. They offer long service lives while ensuring lower life-cycle costs.
This is one of the driving factors responsible for the growth of the Non-dispersive infrared sensing market. Primary advantages of non-dispersive infrared sensors include durability over more than ten years of life span while providing higher accuracy and no interference.
Non dispersive infrared sensor happens to be a cost effective solution to measure a large number of different gases in the infrared range. It is largely used for detection of carbon dioxide and hydrocarbons due to its reliability and ease of use. Typical applications of non-dispersive infrared sensing include use in combustion operations, landfill operations, food storage operations, and fire suppression operations among others.
Combustion is common in various industrial equipment and systems. Hence, carbon dioxide analyzers can be used to determine system performance and efficiency, while permitting industry professionals to identify opportunities for optimization of the systems. Whereas, in food storage industry operations, CO2 is critical in the storage and production of fresh foods.
A large number of companies are focused on maintaining controlled environments with lower levels of oxygen and higher levels of carbon dioxide to stimulate the growth of plants and reduce the risk of contamination, infestation, and degradation of foods.
Carbon dioxide analyzers enable them to ensure that the percentage of carbon dioxide remains at the preferred levels. Apart from food storage, non-dispersive infrared sensors are increasingly being recommended across medical facilities to detect toxic gases which could otherwise lead to severe health hazards. These are the key trends impacting the growth of non-dispersive infrared sensing market.
Monitoring of gaseous emissions happens to be a legal requirement in most countries, and this has given rise to a large demand for cost effective, portable, and versatile gas analyzers for the assessments of gaseous emissions. Increasing demand for non-dispersive infrared CO2 sensors in the food processing & storage industry is one of the major factors driving the market growth.
Non-dispersive infrared sensors are mainly used for the detection of carbon dioxide, nitrogen, and oxygen found in the modified atmospheric packaging technique.
These sensors have higher accuracy and longer lifecycles, and therefore they help in reducing food wastage and offer longer transportation times. The potential applications of non-dispersive infrared sensing sensors has already been confirmed in application areas such as remote air quality monitoring and gas leak detection systems with higher accuracy and safety.
It is anticipated that these sensors will occupy the higher end market with their increasingly improved performance.
The rising demand for superior quality air pollution control systems is another major factors propelling the growth of non-dispersive infrared sensing market. Advancements in technology has led to emissions of a number of hazardous gases into the atmosphere, which is ultimately contributing to the global warming issues. This is further responsible for driving the growth of non-dispersive infrared sensing market.
Consumers can switch from one brand to the other easily owing to the presence of a large number of non-dispersive infrared sensor manufacturers at the regional as well as global level. This has resulted in intense pricing pressure and has further reduced the average selling price of the sensors. This is one of the major challenges being faced by manufacturers in the non-dispersive infrared sensing market.
Key players such as
are actively involved in offering Non-Dispersive Infrared Sensing for different industries.
The manufacturers involved in the production of non-dispersive infrared sensors are carrying out different expansion strategies for increasing their market share in the global non-dispersive infrared sensing market. Key players are expanding their manufacturing facilities to serve the increasing demand for non-dispersive infrared sensors in the market.
The non-dispersive CO2 infrared sensors happen to be the most popular sensors. One of the key opportunities lies in the implementation of non-dispersive infrared sensors in building automation systems.
According to the current statistics from the U.S. Environmental Protection Agency (EPA), it has been observed that people spend more than 85% of their time indoors, while the concentrations of some pollutants indoors happens to be 2-5 times higher as compared to the outdoor concentrations. Percentage of carbon dioxide concentration is a key indicator of the quality of air.
The most common applications of non-dispersive infrared sensing include automotive to measure gas emissions, industrial to detect gas leakages but also consumer to control air quality. Non-dispersive infrared sensors can also be found in medical domain to monitor patients during surgical intervention.
In comparison with the other optical gas sensor types, the prominent advantage of non-dispersive infrared gas sensors is its portability and smaller size. Hence, growth opportunities thrive for companies that are willing to offer high-quality, innovative, and cost-effective non-dispersive infrared sensing analyzers to the consumers.
While patient safety is of utmost importance in the medical industry, the safety of healthcare workers in hospitals is also a priority. In the hospitals, these sensors are capable of delivering accurate real-time detection of WAGs and other hazardous, gases such as carbon monoxide, carbon dioxide, and ethylene oxide, among others.
Increased demand for such sensors from the medical industry is expected to propel the growth of the non-dispersive infrared sensing market over the period of time.
Moreover, non-dispersive infrared CO2 sensors are now being deployed in agricultural settings for spatial field monitoring of carbon dioxide concentrations in a dairy cow house. One of the major disadvantages of non-dispersive infrared CO2 sensors is that it is bulky and expensive.
However, the market opportunities for this product lies in the fact that it offers ease of use and is relatively simpler in structure. Hence, the market is expected to show major growth.
The ongoing COVID-19 pandemic has significantly impacted the manufacturers operating in the non-dispersive infrared sensing market value chain. As one of the common applications of non-dispersive infrared sensing includes automotive industry, the increase in global demand for vehicles is one of the key factors propelling the growth of the non-dispersive infrared sensing market.
However, with the spread of COVID-19, the sales of automotive have decreased significantly across the globe owing to lockdowns and other restrictions being imposed by different state governments in order to contain the spread of the COVID-19. This has majorly hampered the growth of non-dispersive infrared sensing market.
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