16 Gas Detection New state-of-the-art hydrogen sensors
DD-Scientifi c recently announced the release of its new hydrogen sensors, which are optimised for a variety of hydrogen sensing applications. The sensors are available in both an industry-standard 20mm package and a miniaturised DceL version and are equipped with high-capacity fi lters to reduce interference from carbon monoxide and SOx and NOx species.
Hydrogen is seen as a key component in the transition to a more sustainable, net-zero future. It can be used in a range of applications, from transportation and industry to domestic use, and can help reduce or eliminate the need for fossil fuels.
DD-Scientifi c is a leading provider of high-performance gas sensors, using state-of-the-art manufacturing and automation techniques, along with rigorous testing and characterisation. The company’s sensors are used in a variety of areas, including industrial safety, environmental monitoring, and pollution control.
Their new hydrogen sensors are designed to operate over a wide temperature range for an extended period of time, with reduced drift characteristics and a fast T90 response. They are available in a number of different measurement ranges, from 0-5000ppm to 0-5%.
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Figaro’s highly accurate, low power NDIR CO2
Features: Small size, Low power, High accuracy, Single light source, Dual wavelength system
Applications: Indoor air quality control, Fresh air ventilators, Air conditioners, Automatic fans and window openers
Figaro Engineering Inc. is pleased to announce its latest offering—the highly accurate, low power NDIR CO2 The CDM7162 CO2
sensor module CDM7162. sensor module uses a compact NDIR CO2 sensor, featuring
excellent performance characteristics, including high accuracy and low power consumption. Two detector elements inside the module make absolute measurement possible.
Every sensor module is individually calibrated and is provided with both a UART and I2C digital interface. The CDM7162 sensor module is designed for simple integration into a user’s products. It can be used in a wide range of applications such as ventilation controls for the improvement of energy savings and to assure a good indoor climate.
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CI Systems recently introduced MetCam, a state-of-the-art Continuous Emissions Monitoring System (CEMS) that utilises Quantifying Optical Gas Imaging (QOGI) technology. MetCam is a fully integrated autonomous system designed for detecting, monitoring, and quantifying natural gas leaks, and is available for installation in hazardous locations (Zone 1, Class I Div. 1).
MetCam’s innovative technology provides continuous monitoring of gas leaks and alerts users to the presence of hazardous clouds in real-time. With its ability to cover a large volume and detect even the smallest gas leaks, MetCam enables effective preventative maintenance operations to be conducted, minimizing the risk of safety incidents and environmental impact. The system utilizes advanced algorithms to minimise false alarms and operates reliably in demanding environments, ensuring accurate and reliable gas detection results.
MetCam is designed for installation in a wide range of natural gas facilities, including compression stations, natural gas skids, LNG gasifi cation/liquefaction facilities, fueling stations, and offshore applications. The system provides both visual and infrared video streams that can be displayed in the control room using the standard ONVIF interface, allowing for easy integration into existing monitoring systems. Additionally, MetCam offers industry-standard 4-20 mA output, enabling seamless integration into existing alarm systems for effi cient and effective gas leak detection.
One of the key advantages of MetCam is its reliability and maintenance-free operation. The system only requires periodic external cleaning to ensure peak performance, minimizing downtime and maintenance costs for operators. With its advanced technology and innovative features, MetCam is set to become the go-to device for natural gas facilities looking to improve site safety, reduce fugitive emissions, and optimise their operations.
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IET ANNUAL BUYERS’ GUIDE 2023/24
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A novel methane optical gas imager for increased site safety and emission mitigation
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