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The global optical gas imaging camera market is a growing market with a lot of potential. The market is being driven by a number of key factors, including the increasing demand from a variety of industries, the technological advancements in OGI cameras, and the government regulations on safety and environmental protection. The key players in the market are focusing on developing new and innovative OGI cameras to overcome the challenges and meet the growing demand from customers.
Optical gas imaging cameras play a pivotal role in the oil and gas industry, where they are employed to identify leaks in pipelines, storage tanks, and various equipment. Such leaks can pose substantial safety and environmental risks, and these cameras serve as a preventive measure.
Beyond the oil and gas sector, optical gas imaging cameras are experiencing growing adoption in diverse industries including petrochemicals, chemicals, food and beverage, manufacturing, and utilities. These sectors are leveraging these cameras to detect leaks from a range of equipment such as pipelines, storage tanks, compressors, and processing vessels.
Ongoing technological progress is driving the evolution of optical gas imaging cameras, resulting in heightened sensitivity, enhanced resolution, and improved environmental resilience. These developments are rendering these cameras more effective in leak detection and better suited for operation in challenging environments.
An extremely specialised type of an infrared or thermal imaging camera is an optical gas imaging camera. A viewfinder or screen is used by the user to view the image captured by the camera, along with a lens, a detector, some electronics to analyse the signal from the detector, and other components.
OGI cameras use quantum detectors, which need to be cooled to cryogenic temperatures (about 70K or -203°C). Indium antimonide (InSb) detectors are frequently used in the 3-5 m range by midwave cameras to detect gases like methane.
In order to detect gases like sulphur hexafluoride, longwave cameras typically operate in the 8–12 m range and employ a quantum well infrared photodetector (QWIP).
The materials that make up quantum detectors contain electrons of various energies when they are at normal temperature.
Since the electrons in the conduction band are free to migrate and the material can conduct an electrical current, some electrons have enough thermal energy to be in this band.
However, the majority of the electrons are located in the valence band, where they are unable to travel freely and so cannot carry any current.
The thermal energy of the electrons may be so low that none can enter the conduction band when the material is cooled to a low enough temperature, which varies depending on the material selected.
The substance is therefore unable to carry any current. The energy of incident photons excites electrons in the valence band, pushing them up into the conduction band when these materials are exposed to them and the photons have enough energy to do so.
The material (the detector) can now carry a photocurrent that is inversely correlated with the radiation intensity of the incident beam.
The Global Optical gas imaging camera market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
Technological advancements in OGI cameras are also driving the growth of the market. For example, the development of new sensors and imaging technologies has resulted in OGI cameras with higher sensitivity and resolution. This has made OGI cameras more effective in detecting leaks, even at low concentrations.
Government regulations on safety and environmental protection are also driving the demand for OGI cameras. For example, the US Environmental Protection Agency (EPA) has regulations that require oil and gas companies to use OGI cameras to detect leaks.
OGI cameras are being integrated with other technologies, such as artificial intelligence (AI) and machine learning (ML), to develop more sophisticated and intelligent gas detection systems. This will enable OGI cameras to detect leaks more accurately and quickly, and to provide real-time data analysis and insights.
Drones with optical gas imaging cameras are being used to inspect pipelines, storage tanks, and other equipment for leaks. This is a safer and more efficient way to inspect these assets, as it eliminates the need to send personnel into dangerous or hazardous areas
Optical gas imaging cameras with wireless connectivity allow users to transmit data and images in real time. This can be helpful for monitoring remote assets or for sharing data with other team members.
Optical gas imaging cameras can be integrated with cloud-based platforms to provide centralized data storage and analysis. This can help businesses to improve their gas leak detection and prevention programs.
Optical gas imaging cameras are becoming increasingly popular in a variety of industries, including food and beverage, manufacturing, and utilities. This is due to the growing awareness of the benefits of these cameras, such as their ability to detect leaks quickly and accurately, even in hazardous environments.
FLIR Systems has released a new optical gas imaging camera, the FLIR GFx320, with AI-powered leak detection. The GFx320 uses AI to automatically detect and identify gas leaks, making it easier and faster for users to find and repair leaks.
MSA Safety has acquired Bacharach, a leading manufacturer of gas detection and monitoring instruments. This acquisition will expand MSA Safety’s gas detection portfolio and allow it to offer a wider range of products and solutions to its customers.
Government regulations on safety and environmental protection are also driving the demand for optical gas imaging cameras. For example, the US Environmental Protection Agency (EPA) has regulations that require oil and gas companies to use optical gas imaging cameras to detect leaks.
The Most Compact Uncooled Optical Gas Imaging Camera is Launched by Opgal.
The EyeCGas Mini, a new uncooled optical gas imaging (OGI) camera from Opgal Optronic Industries Ltd., is intended to find medium-sized to big leaks.
available for a variety of gases including methane, SF6, ammonia, and HFCs. To provide improved solutions through software-based applications for the new EyeCGas Mini platform and product range, Opgal is willing to collaborate with key industry partners.
An uncooled thermal camera from Opgal has been integrated into a small, powerful Android-based device made specifically for OGI applications.
A wider range of consumers will have access to equipment for Leak Detection and Repair (LDAR) applications because of this thermal camera’s portability and affordability.
With live streaming for real-time remote sharing, image fusion (using visible and infrared cameras) for improved leak location and visualisation, and built-in GPS, the EyeCGas Mini optical gas imaging camera is a feature-rich gadget.
Additionally, the camera has thermography with a variety of colour palettes, a battery life of more than five hours, and only weighs 600g (1.3lbs).
The Android-based EyeCGas Mini enables the quick development of additional functionalities. The consumer will always have access to the most modern technologies thanks to a straightforward upgrading process.
The best tool for technicians performing long-term fieldwork at remote locations is EyeCGas Mini
The most recent addition to Opgal’s already substantial lineup of gas imaging products is EyeCGas Mini. A cooled intrinsically safe OGI camera called EyeCGas 2.0, fixed monitoring systems called EyeCGas 24/7, and quantification and alerting software called EyeCSite are additional solutions.
General Electric Launches New Optical Gas Imaging Camera for the Industrial Market: General Electric has launched a new optical gas imaging camera, the GE A400, for the industrial market. The A400 is designed to detect leaks in a variety of industrial settings, including oil and gas, petrochemical, and chemical plants.
MSA Safety has launched a new optical gas imaging camera, the MSA Gas Imager, for the industrial market. The Gas Imager is designed to detect leaks in a variety of industrial settings, including oil and gas, petrochemical, and chemical plants.
Teledyne Flir has launched a new G-Series of optical gas imaging cameras. The G-Series cameras are designed to provide users with the highest possible sensitivity and performance for leak detection and quantification.
