Market Overview

Global VOC Detection Equipment Market size was evaluated at USD 2.6 Billion in 2022 and is projected to hit around USD 4.01 Billion by 2030, growing at a CAGR of 6.0% from 2022 to 2030.

This market is growing because more people are learning about the health risks caused by volatile organic compounds (VOCs), and more people all over the world want to make sure their food is safe and of good quality. Both of these things have contributed to the current rise in demand.

"Volatile organic compound detection equipment" (VOC DET) is any device that can help find out if volatile organic compounds (VOCs) are in the air or not. VOCs can get into the air from both natural and man-made sources. There is a chance that they are in paint, cleaners, glues, building materials, and office tools. If you want, you can also buy each one on its own. There are a lot of different volatile organic compounds (VOCs), and not all of them are known to be bad for people. The method used to find volatile organic compounds (VOCs) could also be used to check the air quality inside buildings and in the surroundings. Both homes and businesses use monitors to find out if there are volatile organic compounds (VOCs) in the air. For instance, it can be used to find volatile organic compounds (VOCs) in air, soil, and water samples. Another way the world is used is for sample analysis.

Market Dynamics

Trends:Getting more people to use portable and wireless VOC detectors

More and more people want wireless and portable VOC monitors because they are easy to use and portable. These devices are made to be small, light, and easy to carry and use. They can also identify volatile organic compounds (VOCs) in real time. They are used for a wide range of things, like measuring the quality of the air inside a building, keeping workers healthy, and looking into dangerous waste sites.

Monitoring the environment is getting more attention

VOC emissions are getting more attention because of the growing worry about pollution in the environment. Governments and regulatory agencies all over the world are putting in place strict rules to control VOC emissions from businesses like the chemical, petrochemical, and auto industries. This is making people want equipment that can identify VOCs so they can keep an eye on the environment.

Drivers: Increasing knowledge about the condition of the air inside

When the air quality inside is bad, it can lead to health problems like allergies, asthma, and breathing problems. As more people learn about these problems, more people and companies are using VOC detection equipment to keep an eye on indoor air quality and make sure it stays healthy. These devices can find and measure the amount of volatile organic compounds (VOCs) in the air and let the user know what to do to make sure the air inside is clean and healthy.

Demand from industrial areas growing

VOC detection technology is being used more and more in the automotive, chemical, and manufacturing industries, among others. During their work, these businesses use chemicals and solvents that give off VOCs. By using VOC detection equipment, these businesses can find and measure the amount of VOCs and then take the steps they need to reduce emissions and avoid accidents caused by the release of dangerous VOCs.

Restraints: limited detection range

The restricted range of VOC detection equipment is one of the biggest things holding the market back. Most VOC detection equipment is made to find VOCs in a certain range. Outside of this range, the device's accuracy and sensitivity drop. This can be a problem for businesses that use VOCs in a wide range of concentrations or that use VOCs with different properties that need different detection ranges.

Also, some VOCs can be present in very small amounts, which can make it hard for standard VOC detection tools to find them. This can be a problem in businesses where safety and compliance depend on being able to find low-level VOCs.

Another thing that limits the range of detection is that other gases or substances in the surroundings can get in the way. When these things are around, they can change how well the detection equipment works and cause false hits or negatives.

Opportunity: Escalating demand for portable and wireless VOC detectors

On the market for VOC detection equipment, there is a rising demand for portable and wireless devices that make it easier and more flexible to monitor and find VOC emissions. Portable VOC detectors are especially useful in industries like building and mining where workers need to move around and check for VOC emissions in different places. Wireless VOC detectors let you watch and analyze data in real time, so you can get quick warnings if there are too many VOCs. IoT and wireless communication technologies are becoming more popular, which is driving the growth of wireless VOC detection equipment. This is because it makes it possible to watch and control VOC emissions from a distance. Also, the growing popularity of remote work and virtual checks has led to the creation of handheld VOC detectors that can be controlled from afar. This means that the market for portable and wireless VOC detectors is growing even more.

Equipment development for VOC detection for emerging applications

The market has a big chance to grow thanks to the development of VOC detection tools for new uses. VOC detection technology is being used more and more in new fields like food processing, pharmaceuticals, and healthcare. In the food business, VOC detection equipment is used to check for ethylene gas, which is made by fruits and vegetables and can speed up the ripening process. VOC detection equipment is used in the pharmaceutical and health care businesses to check for volatile organic compounds in the air, which can be bad for people's health. The creation of VOC detection equipment made just for these new uses can help companies make sure they are following the rules and keeping operations safe. Also, the development of specialized VOC detection equipment for these uses can give manufacturers in the market new growth possibilities.

Major Segments Covered

On the basis of Type

Home Air Monitoring

"Home air monitoring" is the process of testing the quality of the air in your home to find out how healthy it is. This can be done with the help of many different kinds of technology, like air quality monitors. People can estimate the amount of pollution in their own homes by using the readings from home air monitors, which measure a number of pollutants in the air.

Urban Air Monitoring

The goal of the urban air tracking method is to measure the quality of the air in cities, which is what should be measured. This can be done for a number of reasons, like finding out how much waste is in a certain area or keeping an eye out for possible health risks. The study also wants to look for any health risks that might be there. There are many ways to check the air quality in towns, like with stationary monitors, mobile monitors, and passive samplers. Each of these options has its own set of pros and cons. Each has its own good points and bad points.

Roadside Air Monitoring

As part of roadside air tracking, the amount of pollution along the sides of roads is measured and reported. (Roadside AQM): These fumes can come from many places, like cars, engines, and other things. Roadside air monitors can collect information that can be used to figure out what the air quality is like in the area, find places with too many emissions, and find ways to cut down on emissions from cars. Most roadside air monitoring is done with either portable or permanent monitors that measure how much pollution is in the air at the spot being monitored.

On the basis of Application

Food and Beverages

VOC detection technology is used in the food and beverage industry to check for volatile organic compounds (VOCs). The amount of volatile organic compounds (VOCs) on the inside and outside of a building can be tested. Equipment that can find volatile organic compounds (VOCs) is used in the food and beverage business to make sure that the maximum amount of VOCs allowed in meals and drinks is not exceeded. The biggest amount of volatile organic compounds (VOCs) that can be allowed is used to set these limits. There are many ways to use the technology that is used to find volatile organic molecules. One of these is to look for volatile organic compounds (VOCs) during production and in the end product.

Oil and Gas

Volatile organic compounds, or VOCs, are looked for in the oil and gas industry to protect the health and safety of workers. It helps find any leaks in the equipment and also keeps track of the amount of volatile organic compounds (VOCs) in the air. This makes it easier to avoid trouble that could have been caused by volatile organic molecules (VOCs). In the oil and gas business (VOC), a lot of tools is used to find volatile organic compounds. The letters VOC stand for "volatile organic compound."

Chemicals

Volatile organic compound (VOC) detection equipment is a must in the chemical industry for many reasons, like making sure environmental rules are followed, keeping an eye on emissions from manufacturing processes, preventing harmful chemicals from getting into the environment, protecting workers from being exposed to dangerous chemicals, and keeping an eye on emissions from manufacturing processes. Chemical companies may find it easier to follow environmental rules if they use equipment that can identify volatile organic compounds and keep close track of the emissions (VOCs) their activities make.

On the basis of Technology

Photoionization detection (PID)

Photoionization detection, or PID, is a popular and widely used method for detecting VOCs. It works by ionizing the gas molecules in the sample and recording the electrical current that flows as a result. PID technology is very sensitive and can find low amounts of VOCs. This makes it useful for many things, like industrial hygiene, monitoring the environment, and measuring the quality of the air inside a building.

Flame ionization detection (FID)

Flame ionization detection (FID) is another technology that is often used in tools to find VOCs. It works by oxidizing the organic molecules in the sample and then counting the ionized particles that are left over. FID technology is very sensitive and can pick up on a wide range of VOCs. This makes it useful for things like tracking emissions, looking into hazardous waste sites, and controlling processes.

Metal oxide semiconductor (MOS)

MOS technology works by measuring how the electrical resistance changes when VOCs are present. MOS sensors are small and cheap, so they can be used in portable and pocket devices. But they might not be as sensitive as other technologies, and humidity and weather can change how they work.

Infrared (IR) spectroscopy

Infrared (IR) spectroscopy works by measuring how much infrared light molecules of VOCs take in. IR sensors are very selective and can pick up on a wide range of VOCs. This makes them useful for things like gas analysis, watching the environment, and controlling a process. But they may cost more and be harder to move around than other devices.

Others.

Gas chromatography (GC), ion mobility spectroscopy (IMS), and catalytic bead monitors are some other ways to find VOCs. These technologies each have their own benefits and drawbacks, and they can be used in different ways based on how well they work and how much they cost.

Regional Insights

Geographically The VOC Detection Equipment Market has been broken down into North America, Europe, Asia Pacific, Latin America, and the Middle East and Africa. (MEA).


During the time frame of the projection, North America is expected to be the biggest market by area. The market is divided into five parts based on where the countries that make up the market are located: North America, Latin America, Europe, Asia-Pacific, and the Middle East and Africa. During the time frame being looked at, North America is expected to have the best compound annual growth rate (CAGR). During the time frame of the forecast, Latin America is projected to be the second-biggest market. Asia and the Pacific are expected to grow at a much faster rate than the average CAGR during the time period covered by the predictions.

Scope Of Report

Key Vendors

• Global Detection Systems Corp
• Aeroqual
• ams AG
• RAE Systems
• Extech
• Ushio America
• Ion Science Ltd
• Acme Engineering Prod
• PCE Holding GmbH
• KANOMAX USA

1. Aeroqual

Every day, people who work in the fields of environment, health, and safety protect people and the world from the effects of bad air. In this quest, better data helps people make better decisions, which leads to better health and more work getting done.

The monitoring and software tools that are built into Aeroqual make it easy to measure the air. We give professionals real-time info they can trust because we use the best sensor technology in the business.

Since 2001, the company has worked on thousands of projects with government, business, researchers, and advisors in 70 countries on all seven continents. They also worked with the U.S. EPA on a 5-year research and development project to speed up the development of air sensor technology for the future. Together, they're moving toward a world where air pollution is less of a threat and people feel safe taking their next breath.

2. Ams AG

The ams OSRAM Group, which is made up of ams AG and OSRAM Licht AG, is a world leader in optical solutions. Its goal is to improve people's lives by adding intelligence to light and passion to innovation. The group has been around for more than 110 years, has a lot of engineering experience, and can provide sensor and light technologies to industries around the world. The company comes up with exciting new ideas that help its customers in different industries stay ahead of the competition and drive innovation that makes life better in terms of health, safety, and ease while having less of an effect on the environment. With about 30,000 workers around the world, the company focuses on innovation in sensing, lighting, and visualizing to make travel safer, medical diagnosis more accurate, and everyday communication more enjoyable. The work of the group makes technology that can be used in new ways. This is shown by the fact that over 15,000 patents have been given and used.

3. RAE Systems

RAE Systems makes some of the most advanced gas detection and tracking systems, like the portable ppbRAE 3000, an advanced wireless handheld VOC monitor that measures in parts per billion.

 4. Extech

Export Technologies is a partnership that was set up to help and speed up the growth of exporting and innovative businesses that want to get a strong position on the fast-growing markets of Russia and the Commonwealth of Independent States (CIS).

ExTech works on high-value technological sectors like ICT, industrial equipment, medical equipment, bio- and nanotechnologies, etc. ExTech has a flexible and customized method that works for both small and medium-sized businesses and international groups;

ExTech offers a full range of services because it has a large partner network and regularly updated databases on Russian and CIS companies. These services include market research, strategic and commercial representation, and green-field and brown-field project services. The ExTech team has 25 years of strong and reliable experience helping foreign companies with commercial, financial, and strategic advice.

5. Ushio America

Ushio America, Inc. is a vertically integrated solutions company for lighting systems and components using xenon short arc, lasers, ultra-high-pressure UV, excimer, metal halide, LEDs (specialty sensing and architectural lighting), halogen, fluorescent, and miniature incandescent lamps for semiconductor, printed circuit, video projection, cinema, medical, life sciences, UV curing, germicidal, horticulture, landscaping, graphic arts, flashlight, scientific, medical

Ushio America was founded in 1967 as a branch of Ushio Inc. in Tokyo, Japan. It has over 2,500 products and services to give its customers.

Recent Development

• August, 2016: Cambridge CMOS Sensors Ltd, a member of the ams group, today announced that Chinese wearable device manufacturer HiCling is using its ultra-low power gas sensors to enable the new Cling VOC smart fitness wristband to measure indoor air quality and alcohol in breath.

• 17 July, 2018 - ams (SIX: AMS), a leading worldwide supplier of high performance sensor solutions, has updated the functionality of its market-leading CCS8xx family of gas sensor ICs to reduce initialization time and improve performance in indoor air-quality monitoring applications.

• 22nd November 2022: ION Science has launched a new range of portable VOC detectors, known as Tiger XT, offering users enhanced levels of performance and durability. The new line of detectors retains all of the market leading advantages of its predecessors, the Tiger range, and comprises three models: the entry level Tiger XTL portable VOC gas detector; the Tiger XT portable VOC detector; and the Tiger XT Select benzene detector.

Market Segmentation

This section of the research on the market for VOC Detection Equipment provides in-depth information on the various segments at the country and regional levels. As a result, it assists the strategist in identifying the demographics that should be targeted by the relevant product or service as well as the opportunities that are on the horizon.

By Type

• Home Air Monitoring
• Urban Air Monitoring
• Roadside Air Monitoring
• Industrial Perimeter Monitoring
• Soil Contamination Monitoring
• Others

By Application

• Food and Beverages
• Oil and Gas
• Chemicals
• Others

By Technology

• Photoionization detection (PID)
• Flame ionization detection (FID)
• Metal oxide semiconductor (MOS)
• Infrared (IR) spectroscopy
• Others.

• North America
  • US
  • Canada
  • Mexico
  • Rest of North America
• Europe
  • Germany
  • France
  • Italy
  • Spain
  • UK
  • Nordic Countries
    • Denmark
    • Finland
    • Iceland
    • Sweden
    • Norway
  • Benelux Union
    • Belgium
    • The Netherlands
    • Luxembourg
  • Rest of Europe
• Asia-Pacific
  • Japan
  • China
  • India
  • Australia
  • South Korea
  • Southeast Asia
    • Indonesia
    • Thailand
    • Malaysia
    • Singapore
    • Rest of Southeast Asia
  • Rest of Asia-Pacific
• The Middle East & Africa
  • Saudi Arabia
  • UAE
  • Egypt
  • South Africa
  • Rest of the Middle East & Africa
• Latin America
  • Brazil
  • Argentina
  • Rest of Latin America

Conclusion

In conclusion, the market for VOC detection equipment is expected to grow a lot in the next few years. This is because more regulations are being put in place, more people are becoming aware of indoor air quality, and more industries are using VOC detection equipment to make sure their operations are safe and run smoothly. The market has a lot of ways to grow, such as making portable and wireless VOC detection equipment and looking into new uses. But the market has problems, like equipment that costs a lot and can only be used in a small area. The rise of the market is likely to be driven by the use of new technologies like photoionization detection, flame ionization detection, metal oxide semiconductor, and infrared spectroscopy. Overall, industry players and investors can expect the market for VOC detection tools to grow in the coming years.