📌 ✅ Discover the 🆕 #ProcessGas 💨 #MeasurementSolution💡 that contributes to improving productivity in #Petrochemical plant #Manufacturing processes*¹. https://lnkd.in/g_7QhBaX The #HORIBAPLGA1000 Process Laser #GasAnalyzer is designed to measure #hydrocarbons and other gases contained in #ProcessGas at #Petrochemical plants. The PLGA-1000 uses proprietary technology to measure low concentrations of #Acetylene (C2H2) and #CarbonDioxide (CO2) contained as impurities in high concentration #Methane (CH4) and #Ethane (C2H6) which are material gases, continuously at high speed and with high sensitivity. This contributes to improvements in productivity, cost, and quality in the #ManufacturingProcess, as well as reducing #EnvironmentalImpact. *1: Limited to specific manufacturing processes Subscribe to the #HORIBAProcessAndEnvironmental #YouTube channel for the latest video content ➡️ https://lnkd.in/gUFWT4N #GasMonitoring #GasAnalysis #IRLAMTechnology #ProcessGasAnalyzer #ProcessLaser #InfraredLaserAbsorptionModulation #IRLAM #HORIBA #MeasurementSolutions #ProcessGasMonitioring #TrustedPartner #GasMeasurementExpert
概要
HORIBA Process and Environmental is one of the 5 business segments of the HORIBA Group of Companies that provides an extensive array of process and environmental instruments, system engineering, and cutting-edge technologies to measure gas, air, soil, and water for various industrial applications. Our proven quality and unprecedented technologies have established worldwide trust in the HORIBA Brand. Inspired by our motto, “JOY and FUN,” we focus on social responsibilities by building state-of-the-art products for scientific advancement; especially for protecting health, safety, and the environment. “Joy and Fun” Originates from the belief that if we take interest and pride in the work that occupies most of the active time in our lives, in the place where we spend a large part of each day, as a result, our satisfaction with life will increase, and we will be able to enjoy our lives even more. Taking interest and pride in our work leads us to “Joy and Fun.”
- ウェブサイト
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http://HORIBA.LINK/PE
HORIBA Process & Environmentalの外部リンク
- 業種
- オートメーション機器製造業
- 会社規模
- 社員 201-500名
- 本社
- Kyoto
- 創立
- 1945
- 専門分野
- Gas Monitoring、Ambient Air Monitoring、Gas Analysis、Continuous Emission Monitoring、CEMS、System Engineering、Water Quality Monitoring 、Process Water、Sustainable Development
アップデート
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Producing e-fuel or synthetic methane from carbon-free hydrogen and CO₂ , and utilizing CO₂ as a mobility fuel or gas fuel is important for achievement of carbon neutral. At the Automotive Engineering Exposition 2024 Nagoya, we introduced the gas measurement solutions, which are useful in the fields of R&D of CO₂ capture technology, quality control of raw materials for synthetic gas production, and analysis of the properties of synthetic fuels. Especially, we introduced multi-component gas analyzers VA-5000 series for Process and Environmental. HORIBA’s Multi-Component Gas Analyzer, VA-5000 series▼ https://buff.ly/4fg1dy8 HORIBA SHOWCASE, HORIBA’s online exhibition. (Japanese only) ▼ https://buff.ly/4bXFA2F #HORIBAProcessAndEnvironmental #MeasurementSolutions #MeasuringPrinciples #JSAE2024 #CarbonNeutral #CO2 #SyntheticGas #SyntheticFuel
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#HORIBA offers a variety of analyzers and instruments based on technologies to help customers solve problems. Today, we will introduce the Beta (β) Ray Absorption Method. 〈Beta (β) Ray Absorption Method〉 The beta ray absorption method is a measurement method that utilizes the principle that beta rays are attenuated in proportion to the mass of a substance when the substance is irradiated with beta rays, a type of radiation. Learn more: https://buff.ly/3VZiHG6 The monitors using beta ray absorption method are used to measure the particulate matter in the ambient air in a variety of environments due to their ease of use. APDA-371 and PX-375 are used the Beta (β) Ray Absorption Method. Ambient Dust Monitor APDA-371: https://buff.ly/3W8hBI2 Continuous Particulate Monitor with X-ray Fluorescence PX-375: https://buff.ly/467xeUT #HORIBAProcessAndEnvironmental #MeasurementSolutions #MeasuringPrinciples #BetaRay #BetaRayAbsorptionMethod #AmbientParticulate #DustMonitor
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#HORIBA offers a variety of analyzers and instruments based on technologies including our proprietary methods and existing principles as optimal solutions to help customers solve problems through the measurement of gases, particles (airborne soot and dust), temperature, glosses, and radiation. We have introduced five oxygen measurement methods. Please check them out! ●Measuring Method and Features of Oxygen Gas Analyzer https://buff.ly/45UzZZu ●Electrochemical Cell Method (Galvanic Cell Type) https://buff.ly/4cr9v4i ●Zirconium Oxide Method (Concentration Cell Type) https://buff.ly/4byNYp2 ●Zirconium Oxide Method (Limiting Current Type) https://buff.ly/4bBZOyT ●Paramagnetic Method (Magneto-Pneumatic Type) https://buff.ly/3S0oTwh ●Paramagnetic Method (Dumb-Bell Type) https://buff.ly/4bzEMAV #HORIBAProcessAndEnvironmental #GasAnalysis #OxygenMeasurement #ParamagneticMethod #ZirconiumOxideMethod #ElectrochemicalCellMethod #MagnetoPneumatic #DumbBell #ConcentrationCell #LimitingCurrent #GalvanicCell #Oxygen #O2
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#HORIBA offers a lineup of #oxygen analyzers with three categorized measurement methods (as of 2024) to provide optimal oxygen measurement for each application. Today, we will introduce the Paramagnetic method. <Paramagnetic Method (Dumb-Bell Type)> The paramagnetic method is a measuring principle that utilizes the extremely strong paramagnetism of oxygen. The dumb-bell type of the oxygen analyzer uses this property to detect the oxygen attracted by the movement of a dumb-bell connected to two nitrogen-filled glass spheres with a glass rod. Learn more: https://buff.ly/3xNwnMb HORIBA’s Portable Gas Analyzer, PG-300 series is based on the Paramagnetic method dumb-bell type. Portable Gas Analyzer PG-300 series: https://buff.ly/45LtY1k #HORIBAProcessAndEnvironmental #GasAnalysis #ProcessGas #MeasurementSolutions #MeasuringPrinciples #O2 #OxygenConcentration #ParamagneticMethod #DumbBell
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Do you know that HORIBA offers a lineup of oxygen analyzers? Today, we will introduce the Paramagnetic method magneto-pneumatic type. < Paramagnetic Method (Magneto-Pneumatic Type) > The paramagnetic method is a measuring principle that utilizes the extremely strong paramagnetism of oxygen. When oxygen is present in an inhomogeneous magnetic field, it is attracted to the stronger magnetic field. The magneto-pneumatic type of the oxygen analyzer uses this property to detect the amount of oxygen attracted as pressure. Learn more: https://buff.ly/3VGgP52 HORIBA’s Multi-Component Gas Analyzer, VA-5000 series is based on the paramagnetic method magneto-pneumatic type. VA-5000 series: https://buff.ly/3VWvEBS #HORIBAProcessAndEnvironmental #GasAnalysis #ProcessGas #GasMonitoring #MeasurementSolutions #MeasuringPrinciples #O2 #OxygenConcentration #ParamagneticMethod #Paramagnetism
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Do you know that HORIBA offers a lineup of oxygen analyzers? Today, we will introduce the Zirconium oxide method. <Zirconium Oxide Method (Limiting Current Type)> When the oxygen pumping action is performed in the gas diffusion chamber restricted by the gas diffusion holes, the current keeps a constant value though the zirconia element even if the voltage applied to the zirconia element is increased. This constant current is called limiting current. This limiting current is proportional to the oxygen concentration in sample gas, so the oxygen concentration can be measured by measuring limiting current. Learn more: https://buff.ly/4c4fmMH #HORIBAProcessAndEnvironmental #GasAnalysis #ProcessGas #GasMonitoring #MeasurementSolutions #MeasuringPrinciples #O2 #OxygenConcentration #ZirconiumOxideMethod #LimitingCurrent
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#HORIBA offers a lineup of #oxygen analyzers with three categorized measurement methods (as of 2024) to provide optimal oxygen measurement for each application. Today, we will introduce the Zirconium oxide method. < Zirconium Oxide Method (Concentration Cell Type) > Solid electrolyte zirconia elements have conductivity for oxygen ions under high temperature conditions. The electromotive force increases as the temperature of the zirconium oxide element is heated. By measuring this electromotive force and the temperature of the zirconia element, the oxygen concentration in the sample gas can be obtained. Learn more: https://buff.ly/3VznRtu #HORIBAProcessAndEnvironmental #GasAnalysis #ProcessGas #GasMonitoring #MeasurementSolutions #MeasuringPrinciples #O2 #OxygenConcentration #ZirconiumOxideMethod #ConcentrationCell
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HORIBA Process & Environmentalさんが再投稿しました
Part of our mission at HORIBA is to help preserve the global environment and build #Sustainable and resilient societies through Test and Measurement Solutions. Visit HORIBA today at #MEORGA in Halle, Germany to learn how we can work together to improve #WaterQuality and #AirQuality with our process analyzers. Test and Measurement Solutions for a #SustainableFuture 🌿#WorldEnvironmentDay #GenerationRestoration
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#HORIBA offers a lineup of #oxygen analyzers with three categorized measurement methods (as of 2024) to provide optimal oxygen measurement for each application. Today, we will introduce the Electrochemical cell method. < Electrochemical cell method (Galvanic Cell Type) > When a metal (a positive electrode) that is soluble in an electrolyte and a metal (a negative electrode) that is insoluble are immersed in the electrolyte, the metal dissolves at the positive electrode and releases electrons, which reach the negative electrode. At the negative electrode, the oxygen permeated through the thin film takes in electrons. Since the current by this electron flow is proportional to the oxygen permeated through the thin film, the oxygen concentration can be obtained by measuring this current. Learn more: https://buff.ly/4bZsT8x HORIBA’s Portable Gas Analyzer, PG-300 series is based on the Electrochemical cell method. Portable Gas Analyzer PG-300 series: https://buff.ly/3x1ugUN #HORIBAProcessAndEnvironmental #GasAnalysis #ProcessGas #GasMonitoring #MeasurementSolutions #MeasuringPrinciples #O2 #OxygenConcentration #ElectrochemicalCellMethod #GalvanicCell
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