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Gas Analysis Device Articles & Analysis
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Beyond accurate gas composition analysis, another critical challenge lies in accurate gas flow rate measurement within ship emission pipelines, where gas flowmeters often struggle with unstable flow fields, low flow rates, and uneven distribution. Complex exhaust compositions from diverse marine fuels, including oil pollution, soot, and oil-water mixtures, further complicate accurate ...
Beyond accurate gas composition analysis, another critical challenge lies in accurate gas flow rate measurement within ship emission pipelines, where gas flowmeters often struggle with unstable flow fields, low flow rates, and uneven distribution. Complex exhaust compositions from diverse marine fuels, including oil pollution, soot, and oil-water mixtures, further complicate accurate ...
Cubic Instruments, a leading manufacturer of superior gas analyzers, has leveraged Cubic mature technology platform of Laser Raman spectroscopy technology, and develop the LRGA-6000, an advanced analytical system delivering high-precision gas measurement in various complex and hazardous industrial conditions. Based on the principle of Laser Raman Scattering, LRGA-6000 excites, collects, ...
LRGA-3200EX In-Situ Laser Raman Gas Analyzer: In-Situ Monitoring System Suitable for Non-Destructive Analysis Applications The LRGA-3200EX operates based on the same laser Raman scattering principles as the LRGA-6000, but distinguishes itself by performing non-destructive analysis of gases directly at the source. With multi-point monitoring capabilities, it supports up to 4 explosive-proof probes ...
LRGA-6000 Laser Raman Gas Analyzer: External Monitoring System Suitable for Retrofit Applications The LRGA-6000 utilizes Laser Raman spectroscopy technology to enhance gas analysis capabilities. Through exciting, collecting, processing, and identifying the characteristic Raman scattering spectra of measured gases, LRGA-6000 achieves simultaneous qualitative and quantitative analysis of multiple ...
LRGA-3200EX In-Situ Laser Raman Gas Analyzer: In-Situ Monitoring System Suitable for Non-Destructive Analysis Applications The LRGA-3200EX operates based on the same laser Raman scattering principles as the LRGA-6000, but distinguishes itself by performing non-destructive analysis of gases directly at the source. With multi-point monitoring capabilities, it supports up to 4 explosive-proof probes ...
Cubic Instruments, a leading manufacturer of superior gas analyzers, has leveraged Cubic mature technology platform of Laser Raman spectroscopy technology, and develop the LRGA-6000, an advanced analytical system delivering high-precision gas measurement in various complex and hazardous industrial conditions. Based on the principle of Laser Raman Scattering, LRGA-6000 excites, collects, ...
LRGA-6000 Laser Raman Gas Analyzer: External Monitoring System Suitable for Retrofit Applications The LRGA-6000 utilizes Laser Raman spectroscopy technology to enhance gas analysis capabilities. Through exciting, collecting, processing, and identifying the characteristic Raman scattering spectra of measured gases, LRGA-6000 achieves simultaneous qualitative and quantitative analysis of multiple ...
The new Gasboard-3200L Biomethane Analyzer, designed specifically for biomethane applications. This state-of-the-art portable analyzer integrates Tunable Diode Laser Absorption Spectroscopy (TDLAS), Non-Dispersive Infrared (NDIR), and electrochemical gas analysis technologies to deliver accurate real-time measurements for: High concentrations of CH4 (Methane) Low concentrations of H2S, CO2, and ...
Accurate gas composition analysis is essential to verify that biomethane meets quality standards for its intended applications. Precise measurement helps operators minimize operational risks while maximizing energy yield and system efficiency. The new Gasboard-3200L Biomethane Analyzer, designed specifically for biomethane applications. This state-of-the-art portable analyzer integrates Tunable ...
These effects can lead to hidden maintenance burdens, increase validation complexity, and create long-term reliability risks for medical device manufacturers.Cubic Ultrasonic Sensing Solution for Long-term Stable Oxygen MeasurementTo address these challenges, Cubic, a leading manufacturer of gas sensors and gas analyzers, has developed ...
This study develops a biodegradable photocatalytic membrane with titanium dioxide (TiO2, p25) nanoparticles with a polylactic acid (PLA) support to remove volatile organic compounds (VOCs) from indoor air. It addresses two challenges simultaneously: (i) achieving effective gas-phase photocatalytic oxidation (PCO) of VOCs and (ii) enabling more sustainable fabrication of photocatalyst ...
Materials often owe their performance to subtle differences between surface sites, yet these variations are not always easy to distinguish experimentally. As temperature changes, molecules bound to a surface respond in ways that reflect how and where they are attached. Temperature programmed desorption uses controlled heating to trigger such responses in a systematic way. When evolved gas ...
Introduction In industries around the world, precision gas analysis plays a vital role in maintaining product quality, ensuring safety, and meeting compliance standards. Cambridge Sensotec designs and manufactures international gas analysers that operate across a wide range of global applications. From manufacturing and energy to pharmaceuticals and aerospace, organisations depend on these ...
In today’s highly regulated industrial landscape, ensuring SIL2 compliance in additive manufacturing and pharmaceutical production is critical. These sectors rely on accurate, safe, and compliant equipment to maintain operations and protect both employees and end-users. One standard that has emerged as a benchmark in safety-critical processes is SIL2 compliance. This article explores what ...
Safety and compliance are fundamental in pharmaceutical manufacturing. From drug formulation to final packaging, each stage requires precision and strict adherence to international regulations. A critical element of achieving this safety is the use of SIL2 gas analysers for pharmaceuticals. These analysers ensure accurate gas monitoring, maintaining controlled atmospheres that prevent ...
The Background: Accurate Atmosphere Control Is Critical in Gas Carburizing Carburizing is a widely used thermochemical surface treatment method that adds carbon to the surface of low-carbon steels, enhancing hardness and wear resistance while preserving core toughness. Among different carburizing methods, including solid, liquid, and gas-based processes, gas carburizing has become the mainstream ...
As semiconductor devices shrink to meet the demands of advanced electronics, the precision of material removal during fabrication becomes increasingly important. Processes like ion beam etching must stop precisely at targeted etch depths to preserve layer integrity and device function. In multi-layered device architectures, even minor deviations in etch depth can compromise performance or yield. ...
Policy Drivers: Tightening Industrial Emissions Regulations The global industrial sector is experiencing unprecedented regulatory pressure to optimize combustion efficiency and reduce emissions. The European Union's revised Industrial Emissions Directive (IED 2024/1785), effective August 4, 2024, mandates stricter requirements for Large Combustion Plants (LCPs) including gas turbines and boilers ...
The Background: Challenges in Gas Nitriding Process Nitriding is an advanced steel surface treatment that introduces nitrogen atoms into steel surfaces at controlled temperatures, creating a high-hardness, wear-resistant surface layer while preserving core material toughness. Among gas, liquid, and plasma (ionic) methods, gas nitriding offers distinct advantages: precise temperature control, ...
