VOC (Volatile Organic Compound) monitoring is a critical aspect of air quality management, especially in industrial settings where exposure to toxic gases and chemicals can pose significant health risks. In order to ensure a safe and controlled environment, it is essential to have a reliable and accurate VOC monitoring system in place. Our VOC monitoring category offers a range of gas monitors specifically designed to detect and monitor these harmful compounds in real-time. From portable handheld monitors to fixed systems, we have a solution to fit your specific needs, allowing you to take control of potential gas exposure and ensuring a safe working environment for your workers and processes.
A VOC (Volatile Organic Compound) monitor is used to measure and monitor the levels of volatile organic compounds in the air. These monitors are used in various industrial safety and occupational health applications to generate a controlled environment for workers and to determine safe operating conditions when exposed to VOCs. They are commonly used in confined spaces, industrial safety, the petroleum industry, the determination of leaks in processes, and the protection of worker brigades. The monitors allow real-time monitoring of VOC levels and help to control existing risks for workers and the operation of a particular process.
The purpose of a VOC air quality monitor is to ensure that the air quality is safe for humans and the environment by measuring the concentration of VOCs, which are toxic and potentially hazardous gases. This information can be used to identify sources of pollution, evaluate the effectiveness of air cleaning systems, and maintain compliance with environmental regulations. Additionally, VOC air quality monitors can be used in industrial settings to protect workers from exposure to dangerous levels of VOCs and help maintain a safe and healthy working environment.
Continuous VOC monitoring provides many benefits, including:
VOC sensors work by detecting the presence of volatile organic compounds (VOCs) in the air. VOCs are toxic and flammable gases that can emit from a variety of sources, including building materials, furniture, cleaning products, and personal care products. VOC sensors typically use one of two technologies to detect VOCs: metal oxide semiconductor (MOS) or electrochemical sensors.
MOS sensors work by exposing a metal oxide film to air. As VOCs come into contact with the film, they cause a change in the electrical resistance of the film, which can be measured and used to determine the concentration of VOCs in the air.
Electrochemical sensors work by exposing a small cell to air and applying a voltage across the cell. As VOCs enter the cell, they undergo a chemical reaction with the electrodes, producing a current that can be measured and used to determine the concentration of VOCs in the air.
Both types of VOC sensors are capable of detecting a wide range of VOCs and can provide real-time data on VOC levels, making them useful for monitoring indoor air quality and ensuring that indoor environments are safe and healthy for occupants.
A VOC sensor and a VOC monitor are two different but related devices used for measuring volatile organic compounds (VOCs) in the air. A VOC sensor is a single component that measures the concentration of VOCs in the air and provides this information as an output signal. A VOC monitor, on the other hand, is a complete system that includes one or more VOC sensors, as well as other components such as a display, data storage, and communication functions. The VOC monitor integrates the VOC sensor data and provides a comprehensive view of the air quality in terms of VOC concentration levels. In summary, a VOC sensor is a basic component used to measure VOC levels, while a VOC monitor is a more comprehensive system that provides a complete picture of air quality with regards to VOCs.
Monitoring VOC (volatile organic compound) air quality is important because these compounds can have negative impacts on both the environment and human health. VOCs are released into the air through various activities, such as industrial processes, transportation, and the use of certain products. They can contribute to poor air quality and contribute to the formation of ozone and smog, which can cause respiratory problems and other health issues. In addition, high levels of VOCs can also be toxic and explosive, making it important to monitor and control their levels in industrial and workplace environments. By continuously monitoring VOC air quality, it is possible to take necessary measures to reduce exposure and ensure a safer and healthier environment for workers and the public.
High levels of volatile organic compounds (VOCs) in the air can have potential dangers to human health and the environment. Some VOCs have been linked to health problems such as headaches, dizziness, and eye, nose, and throat irritation. In addition, long-term exposure to high levels of VOCs has been linked to more serious health problems such as damage to the liver, kidney, and central nervous system, and an increased risk of certain cancers.
In the environment, high levels of VOCs can contribute to air pollution and have a negative impact on the ozone layer, which protects the earth from harmful UV rays. VOCs can also contribute to ground-level ozone, which is a harmful pollutant that can cause respiratory problems and other health issues.
Therefore, it is important to monitor VOC levels in the air to help ensure the health and safety of people and the environment.
VOC sensors play a crucial role in air quality control by measuring and monitoring the levels of volatile organic compounds (VOCs) in the air. VOCs are a group of chemicals that have high vapor pressure and low water solubility and are commonly found in various indoor and outdoor environments. High levels of VOCs can have negative impacts on both human health and the environment, so it is important to monitor them. By using VOC sensors, it is possible to detect any changes in the levels of these chemicals in real-time and take appropriate action to maintain safe air quality levels. VOC sensors can be used in a variety of applications such as indoor air quality monitoring, industrial process control, and environmental monitoring.
The air quality in a given environment can have a significant impact on the levels of volatile organic compounds (VOCs) present. High levels of air pollution, such as from industrial processes or vehicle emissions, can lead to increased levels of VOCs. Additionally, certain indoor sources such as paint, cleaning products, and building materials can also contribute to elevated levels of VOCs in the air. Poor air circulation can also lead to elevated levels of VOCs in indoor environments. On the other hand, good air quality management practices and proper ventilation can help to reduce and control VOC levels.
There are several types of air quality monitors for volatile organic compounds (VOCs), including:
Inteccon is a leading provider of VOC monitoring solutions for a wide range of industrial and environmental applications. Our products are designed to accurately and reliably measure volatile organic compounds in the air, providing real-time data to help you monitor and control air quality in your workplace or environment. Our VOC monitoring solutions include a range of sensors, monitors, and data analysis tools, all backed by our commitment to innovation and customer support. Whether you are looking for continuous monitoring of VOC levels, or need to perform spot checks in hazardous or industrial environments, Inteccon has the right solution for you.
S.E. International, Inc is a company that has been developing and manufacturing radiation detection instruments under the Radiation Alert® brand name since 1979. With a focus on quality and reliability, the company offers a wide range of handheld instruments for surface and air contamination, as well as area monitors, multichannel analyzers, and a portable laboratory for the detection and identification of radiation in various substances such as soil, food, and liquids. The team at S.E. International has received recognition for their international sales efforts and support and is dedicated to supporting local communities through development grants and donations. All software updates for their products are included for free with the purchase of a Radiation Alert® instrument.
The Gas Monitor for Total Aromatic Compounds (TAC) and Benzene is a highly efficient and reliable field instrument for measuring benzene levels. It uses PID technology with a 10.0 eV lamp and filtration tubes to provide accurate and fast results. The monitor has a range of 10 ppb for benzene and up to 4000 ppm in TAC mode. It also features an internal pump with a flow of 220 ml/min, rechargeable Lithium Ion battery for 24 hours of operation, and a large LCD screen for easy operation. With its audible, visual, and vibration alarm, the monitor is suitable for use in hazardous environments. The device is also approved as intrinsically safe equipment and has a degree of protection of IP65.
GfG is a company that provides comprehensive gas detection solutions for various industries. With 60 years of experience, GfG is one of the largest suppliers of gas detection systems and gas measuring instruments. The company invests heavily in research and development to continuously improve its products and offers services such as consultation, commissioning, and training to ensure the safety and efficiency of their gas detection systems. In the North and South American market, GfG Instrumentation, Inc provides local support and a national network of partners for fast and cost-effective maintenance and installation. The company values the safety and is dedicated to making a difference by improving every day to protect people, industrial plants, and the environment.
The personal gas monitor from this company is designed to provide reliable and efficient gas detection for a range of industries. With over 15 options to choose from, including CO, H2S, Cl, HF, O3, ETO and more, users can select the gas monitor that best fits their specific needs. The monitor features an intelligent sensor with an internal card that can be easily exchanged without the need for reconfiguration. In addition, it has an audible, visual and vibration alarm, as well as high, low, TWA and STEL configurable alarms to ensure the user’s safety. The monitor is powered by AA alkaline batteries, which can provide over 3000 hours of operation, and the large graphic screen displays the reading and equipment status. For data logging, the monitor also has datalogger capabilities and the option of an external pump. The device is also equipped with an automatic calibration station and has a degree of protection of IP54, making it suitable for use in harsh environments. It is also approved as intrinsically safe equipment.
The Personal monitor for up to 6 gases is a versatile and reliable gas detection equipment designed for various industrial and personal protection applications. The device features sensors for toxic gases, a catalytic sensor for combustible gases and vapors (LEL), a photoionization lamp (PID) for Volatile Organic Compounds (VOC), and a non-dispersive infrared sensor (NDIR) for CO2 measurement, allowing for comprehensive gas monitoring. With a large LCD screen, the device displays real-time data and alarms, with the option of simultaneous alarms for all 6 sensors. The monitor is equipped with a removable pump and rechargeable NiMH battery, ensuring long-lasting operation. The device is also equipped with an anti-lazy battery function, quick access for calibration functions, and data recording capabilities, making it an ideal choice for use in industries such as Oil and Gas, Fire Bodies, Confined Spaces, Chemical Industry, Utility and Telecommunications Companies, and more. The device is also approved as intrinsically safe equipment and has a degree of protection IP67.
The personal monitor for up to 4 gases from this brand is a versatile and reliable solution for industrial hygiene and safety applications. With the ability to monitor CO, H2S, LEL, and O2, it provides real-time monitoring to keep workers safe. The monitor features a large LCD screen for easy reading, with multicolor lights indicating the status of the equipment. The device also has alarms, including audible, visual, and vibration, that can be configured for high, low, TWA, and STEL. The monitor also has a data logging function and can be used with a removable suction pump or with its own rechargeable NiMH battery. The device is also compatible with the DS 400 automatic calibration station and has an IP67 degree of protection. With a 3-year warranty, including the sensors, this personal monitor is a reliable and cost-effective solution for a variety of industries.
The DS400 Docking Station by GfG is a comprehensive maintenance solution for G450 and G460 gas detectors. It provides automatic functional bump tests and calibration by simply placing the detector in the dock. The DS400 performs a full functional test including fresh air calibration, bump test, sensor tests, alarm tests, and an optional automatic AutoCal® calibration. The station also offers sensor diagnostics tests such as T50 and T90, and after testing, you can quickly print official calibration or bump test certificates. With its built-in pump and variable flow control, the DS400 reduces the cost of ownership, and its memory can retain as many as 2 million complete diagnostics, making it a must-have accessory for G450 and G460 gas monitors. It operates on AC current and generates reports and calibration tests for all equipment used in the station.
The TS400 Test Station from GfG is a smart and efficient solution for daily bump testing of G450 and G460 gas detectors. With its full functional test capabilities, the TS400 can perform tests such as bump tests, sensor tests, and alarm tests. The test results can then be quickly printed as official maintenance certificates. The TS400 is also equipped with a charging function, making it a convenient option for recharging the detectors after testing. With a memory capacity of up to 2 million complete diagnostics, the TS400 can store over 50 years of data, even with daily testing of 100 detectors. The test station comes with a USB interface cable and download software, making data transfer and storage effortless. The TS400 is designed with minimum use of calibration gas, resulting in low operating costs. The station is equipped with a demand regulator and automatic system purge and is capable of performing verification tests automatically. The TS400 is an ideal solution for streamlining bump testing and maintenance processes for G450 and G460 gas detectors.
The TS400 Test Station is designed to simplify daily bump testing for GfG’s Micro IV gas monitors. It automates the testing process and performs full functional tests including bump test, extensive sensor tests, and alarm tests. The station also has the capability to recharge the monitors after testing. The TS400 has a memory capacity to store up to 2 million complete diagnostics, providing a comprehensive record of testing and maintenance over a long period of time. The station comes with a USB interface cable and download software, making data transfer and analysis convenient and efficient. The TS400 is equipped with a demand regulator and an automatic system purge, reducing the use of calibration gas and providing low operating costs. With its simple operation and efficient performance, the TS400 Test Station is an essential tool for maintaining the proper functioning of GfG’s Micro IV gas monitors in the field.
ION Science is a global leader in the gas detection industry with over 30 years of experience in designing, manufacturing, and supplying gas sensors, gas detection instruments, and leak detectors. As the world’s largest PID sensor manufacturer, the company is renowned for its expertise in photoionization detection (PID) technology and its patented humidity-resistant and anti-contamination design. With a dedicated R&D department and ISO 9001:2015 certification, ION Science is committed to providing exceptional customer service and innovative products of the highest quality. The company’s gas detection instruments can be serviced at their UK headquarters or at a local Authorized Service Center, where customers can expect to receive the same high level of support.
The ION Science Personal Monitor is a compact and robust device designed to measure Volatile Organic Compounds (VOCs) using PID technology. With a range of up to 5000 ppm and a large library of up to 480 selectable compounds, it offers quick, efficient, and economical monitoring of organic vapors. The device features a PID lamp with three electrodes that eliminate the impact of humidity on measurements, ensuring accurate results. The monitor has an intuitive one-button operation, a rechargeable battery for up to 16 hours of continuous use, and a large graphic screen that displays readings and equipment status. Additionally, it has data logging capabilities for up to 30,000 points, making it an ideal tool for monitoring workers’ exposure to VOCs. With its IP65 degree of protection and approval as intrinsically safe equipment, the ION Science Personal Monitor is a reliable and safe choice for monitoring VOCs in various industries.
The VOC Monitor is a compact and robust tool for detecting organic compounds in various industrial settings. It is equipped with a PID lamp that detects a range of 0.1 ppm to 5000 ppm with a fast response time of 2 seconds. The three-electrode PID technology eliminates the influence of humidity on measurement accuracy, while the internal library allows for the detection of up to 480 selectable compounds. The monitor features an internal pump with a flow of 220 ml/min, data logging capabilities of up to 80,000 points, and a rechargeable Lithium Ion battery for 24 hours of continuous operation. The monitor is easy to use with its large LCD screen and three-button operation and is designed for high performance in demanding conditions with its IP65 protection rating and approval as intrinsically safe equipment.
The VOC monitor is an ideal solution for detecting organic compounds in various industries and ensuring the safety of workers from their toxic effects. With its advanced PID technology featuring three electrodes that resist humidity interference, the monitor can measure up to 480 selectable compounds with a range of 0.001 ppm to 20000 ppm and a response time of 2 seconds. The internal pump with a flow of 220 ml/min, continuous data logging capability of up to 120000 points, and a rechargeable Lithium Ion battery for 24 hours of operation make it a practical and efficient tool for monitoring VOCs. The monitor also features an audible, visual and vibration alarm, configurable high, low, TWA and STEL alarms, and an easy-to-use interface with a large LCD screen and three buttons. With its IP65 degree of protection and intrinsic safety approval, the VOC monitor is the perfect solution for industrial hygiene and safety applications.
The leak detector is a tool designed for use in various industries including pharmaceuticals, manufacturing, research and development, and medicine. It uses advanced micro thermal conductivity detector (MTCD) technology to quickly and accurately detect most compounds or mixtures of them. The leak detector is especially sensitive to Ammonia, Argon, Butane, Helium, Hydrogen, and SF6. With a response time of just 1 second (T90), the leak detector features an audible and visual alarm with a high-brightness LED. The intuitive LCD screen displays readings in cc/sec, g/yr, or mg/m3 and the device can be operated using AA alkaline batteries or rechargeable NiMH batteries for continuous 40-hour use. The leak detector also features a data logger with a capacity for 10 points and a flow of 2 cc/min. A version is also available for the detection of Helium in the presence of high magnetic fields and for the detection of ultra-low levels.
The leak detector is a tool designed to quickly and accurately identify leaks of an ideal gas in a variety of industries such as pharmaceutical, manufacturing, research and development, and medicine. It uses microthermal conductivity detector (MTCD) technology and is capable of detecting most compounds or mixtures, with special sensitivity to Ammonia, Argon, Butane, Helium, Hydrogen, and SF6. With a response time of 1 second (T90), the leak detector has an audible and visual alarm through a high-brightness LED and an intuitive LCD screen with a graphic menu. Readings can be displayed in cc/sec, g/yr, or mg/m3, and the detector can be operated using AA alkaline batteries or rechargeable NiMH batteries for continuous 40-hour use. It also has a datalogger capacity for 10 points and a flow of 2 cc/min. There is also a version available for the detection of Helium in the presence of high magnetic fields and the detection of ultra-low levels.
Thermo Fisher Scientific is a leading global provider of scientific equipment, reagents, and services. With a focus on enabling customers to make the world healthier, cleaner, and safer, the company strives to stay ahead of the scientific curve and anticipate customer needs. By constantly pushing the boundaries of science and technology, Thermo Fisher empowers its customers to be bolder and more innovative in their work. With a commitment to advancing science, the company has a proven track record of delivering high-quality products and services to customers across a wide range of industries and applications.
The TVA2020 is a highly portable toxic vapor analyzer that is designed for the detection of both organic and inorganic compounds. It features simultaneous PID/FID sensors with a linear measurement range of 1.0-30000 ppm for methane with the FID and 0.5-2000 ppm for Isobutylene with the PID. The device comes equipped with an internal pump that has a flow of 1 liter per minute and a datalogger for data logging. It has a rechargeable battery that provides up to 10 hours of operation and is capable of operating in temperatures ranging from -10°C to 45°C. An optional Bluetooth communication feature is also available that allows the user to transmit concentration data to a handheld device, thereby eliminating the need for post-monitoring file transfer and providing greater access to route information.
Chromatotec is a group of companies that specializes in the manufacturing and sales of specialized gas analyzers. The company has a range of products including Airmotec for VOC analysis in air and water, Chroma for impurities in gas or air, and Medor for sulfur analysis in air, natural gas, or biogas. Chromatotec also offers turnkey units for gas processes. With its presence in the US, Europe, and Asia, the company provides sales and service support to customers globally.
Chromatotec offers an online chromatograph that analyzes total sulfides and other compounds such as SO2, CS2, H2S, mercaptans, and sulfides, using the flame photometric detector (FPD) principle with hydrogen/air as the carrier gas. The chromatograph detects compounds at a range of 4 ppb to 5 ppm (low range) or 100 ppb to 100 ppm (high range) with a detection limit of 7 ppb. The chromatograph features a robust, high-resistance capillary column and is compliant with ISO standard 19739:2004. The instrument includes an integrated computer with a screen for data visualization and control, as well as VistaCHROM software for data recording, calculation, and export. The chromatograph can be calibrated using permeation tubes or gas cylinders and has options for analog outputs, Modbus output, and accessories such as nitrogen generators and zero air.
Chromatotec offers an online chromatograph for the continuous analysis of odor-causing sulfur compounds. The product utilizes a patented electrochemical cell-specific detection principle to measure compounds such as H2S, TRS, DMS, Mercaptans, and THT at both ppm and ppb levels. This chromatograph is ideal for use in a variety of industries, including fermentation processes, defense perimeters, deodorizing processes, wastewater treatment plants, refineries, petrochemicals, natural gas transportation lines, and more. The chromatograph features a robust metal capillary column and low maintenance, with a cycle time of 600 seconds for standard configuration. The product includes an integrated computer with a screen for data visualization, as well as dedicated VistaCHROM software for recording, viewing, and analyzing data. The chromatograph can be calibrated using permeation tubes or gas cylinders and offers optional 4-20 mA or Modbus outputs. Additionally, the product is compatible with optional nitrogen generators, zero air, and multiplexers.
The online chromatograph is designed for continuous analysis of hydrogen sulfide (H2S) levels using a cell-specific electrochemical principle. This model is ideal for monitoring and verifying H2S levels in various applications such as catalyst protection, emissions monitoring, chimney monitoring, environmental monitoring, and total sulfide analysis. With a detection range of 5-1000 ppb or 1-1000 ppm and a cycle time of 120 seconds for H2S and TRS, this model provides accurate and reliable results. The low-maintenance design features a robust high-resistance metal capillary column and does not require sensor replacement or special maintenance. The integrated computer and VistaCHROM software provide data visualization, instrument configuration, and data analysis capabilities. The chromatograph can be calibrated using permeation tubes or gas cylinders and has the option for analog outputs 4-20 mA or modBus output. Optional accessories, such as nitrogen generators and multiplexers, are also available to enhance its performance.
Online chromatograph for continuous analysis of sulfur compounds in natural gas and gaseous fuels using the cell-specific electrochemical principle for sulfur compounds in ppm and ppb levels. Ideal for monitoring processes in the petrochemical industry, transportation of natural gas, industrial processes, and more. This chromatograph utilizes a long-lasting patented electrochemical wet cell for the detection of sulfur and mercaptan compounds with a detection range of 5 ppb to 1000 ppb or 1-1000 ppm. It meets industry standards such as DIN 51855/7, ISO 19739:2004, and ASTM D 7493-08. With a robust metal capillary column and low maintenance technology, this chromatograph has an integrated computer with a screen for data visualization and instrument configuration. The VistaCHROM software allows for data recording, viewing, and calculation, and the instrument can be calibrated using permeation tubes or gas cylinders. Optional accessories include nitrogen generators, zero air, and multiplexer for multiple point measurements.
This monitoring system is designed for the analysis of compounds associated with unpleasant odors. It utilizes the principles of gas chromatography and electrochemical detection and PID. This online chromatography system can analyze sulfur compounds, mercaptans, and VOCs to determine the olfactory impact of a mixture directly. It is ideal for a wide range of applications, including monitoring at wastewater treatment plants, refineries, petrochemicals, transport and gas processing sites, waste treatment plants, environmental monitoring, odor impact management and evaluation, TRS measurement, and measurement of offensive odors. The system has a detection limit of ppb or 50 UO E/m3 with an adjustable range up to 100 ppm or ppb. The cycle time, which depends on the application, is 600 seconds for the standard configuration. The robust high-resistance metal capillary column is compliant with standards such as DIN 51855/7, ISO 19739:2004, and ASTM D 7493-08, and there is the option of ATEX or CSA certification. The integrated computer has a screen for data visualization and instrument configuration, and the VistaCHROM dedicated software in the Windows-based internal computing hardware allows for data recording, calculation, recalculation, calibration, and information export. The system also has analog outputs 4-20 mA or modBus output (optional) and optional accessories such as nitrogen generators and zero air.
The Zero air generator is a highly compatible device designed for use with Chromatotec products. It is an ideal solution for generating air free of impurities, which can be used for verification and maintenance of chromatographs or other types of high precision monitoring equipment. The generator provides clean air with a total hydrocarbon concentration of less than 1 ppb, which makes it ideal for use with high precision equipment. It has a maximum flow rate of 1 L/min in discontinuous mode, and a low noise level of less than 55 dB (A). The generator is equipped with a 10-liter reservoir that operates at 7 bars, and it can provide zero air to all or some of the components of the monitoring equipment such as FID detectors, pneumatic valves, Peltier cooler, Calibration permeation tubes and MEDOR traction gas.
This product is a Nitrogen generator with an air compressor, designed specifically for use with Chromatotec products. It provides high purity nitrogen for use as a carrier gas in chromatographs and other high precision monitoring equipment. With a flow rate of 200 cc/min, this generator is ideal for verifying, maintaining and calibrating these instruments. It has the option of 300 cc/min for special applications and a purity level of 99.9995% nitrogen. The electronic control of the reservoir is connected with vistaChrom software, ensuring a seamless and efficient operation. Additionally, this nitrogen generator can also provide zero air to various elements such as FID detectors, pneumatic valves, Peltier cooler, calibration permeation tubes, and traction gas for MEDOR.
This product is a hydrogen generator that is compatible with Chromatotec products, making it ideal for generating hydrogen for use in FID detectors, FPD, BTEX, and VOC analyzers. It has a standard flow of 100 cc/min, with the option of 160 cc/min for special applications. It features a 3-liter reservoir for distilled water, allowing for the continuous production of hydrogen for 83 days. The output pressure is 2 bar and the purity of the hydrogen is 99.9999%, with trace amounts of total hydrocarbons less than 1 ppb. The generator also has an electronic control system that connects with the VistaCHROM software for easy monitoring and operation. This hydrogen generator offers a safe and efficient solution for using hydrogen in chromatography processes without having to handle flammable and explosive cylinder materials
The TVA2020 is an online chromatograph designed for continuous analysis of light hydrocarbons such as ethane to benzene. It uses a flame ionization detector (FID) with hydrogen as the carrier gas, allowing for the measurement of concentrations in the range of ppm and ppt. Ideal for a variety of environmental applications such as pollution control, VOC monitoring, and ozone precursor monitoring, this chromatograph can monitor up to 32 light compounds in a 30-minute cycle time. It features a robust metal capillary column and has a sample volume of 20-240 mL. The integrated computer comes with VistaCHROM software for data visualization, instrument configuration, and calculation. It also has the option for analog outputs or Modbus output and various certifications such as mCERT’s, GOST, ASTM, and TÜV, among others.
The Online Chromatograph for heavy hydrocarbons is designed for continuous analysis of hydrocarbons in the range of 6 to 12 carbons. It uses the FID (Flame Ionization Detector) principle and hydrogen as the carrier gas to measure concentrations in ppb and ppt. This chromatograph is ideal for environmental applications such as pollution control, VOC monitoring, BTEX monitoring, Ozone precursor monitoring, Monitoring stations for photochemical evaluation (PAMS), TO14, process emissions and indoor measurements. The chromatograph can monitor up to 32 compounds in a cycle of analysis including Hexane, Dimethylbutane, Diethylbenzene, Naphthalene, Dodecane, halogenated compounds and BTEX analysis. It has a detection limit of 10 ppt and a detection range of 0.05-400 μg/m3. The cycle time is between 15 to 30 minutes and it has a robust high-resistant metal capillary column with a sample volume of 30-700 mL. The chromatograph has an integrated computer with a screen for data visualization and instrument configuration and parameters. The VistaCHROM software, based on Windows-based internal computing hardware, allows for data recording, viewing, calculation, recalculation, calibration, information export, and measurement configuration. The chromatograph can be calibrated through permeation tubes or gas cylinders and has optional analog outputs of 4-20 mA or Modbus output. It also has optional accessories such as nitrogen generators, zero air, and a multiplexer for measuring multiple points with the same instrument. Different certifications are available depending on the model and configuration, including mCERT’s, GOST, ASTM, TÜV, and others.
Online chromatograph designed for continuous analysis of BTEX compounds such as Benzene, Toluene, Ethylbenzene, and Xylene. The device uses the FID detection principle and hydrogen as the carrier gas to measure concentrations at ppb and ppt in air, soil, or water. With a detection limit of 50 ppt and a detection range of 0.1-380 μg/m3, it is ideal for monitoring BTEX levels in industrial emission assessment, industrial safety and health, quality control in processes, and other environmental applications. The chromatograph features a robust high-resistant metal capillary column and a sample volume of 30-700 mL. It also has an integrated computer with a screen for data visualization, instrument configuration, and calculation of retention time, chromatogram area, mass profiles, and/or concentration. The device is equipped with VistaCHROM dedicated software, which allows for data recording, viewing, calculation, recalculation, calibration, and export. The chromatograph is certified by EN-14662-3, MCERTS, and TÜV for Benzene monitoring and is equipped with analog outputs, a modBus output (optional), and optional accessories such as nitrogen generators and zero air.
The online chromatograph analyzes BTEX (Benzene, Toluene, Ethylbenzene, Xylene) using PID detection and nitrogen carrier gas. Ideal for monitoring up to 8 compounds in air, soil, or water for industrial hygiene and environmental control. With a detection limit of 0.01 ppb and a range of 0-1000 ppb, cycle time is between 15-30 minutes. The chromatograph features PID lamps (8.3, 9.5, 10.6, 11.7 eV), a robust metal capillary column, and integrated computer with VistaCHROM software. Validation/calibration can be done through permeation tubes or gas cylinders. Optional accessories include nitrogen generators, zero air, and multiplexer. Certification varies by model and configuration.
Online system for continuous analysis of ozone precursors using gas chromatography with FID detection. Monitors up to 88 compounds listed in US EPA PAMS 56, TO14, and TO15 guidelines. Modular system with 2 analysis modules for C2-C6 and C6-C12 monitoring. Fast and accurate with 30-minute cycle time, automatic calibration, and remote data transmission. Comes with a hydrogen gas generator, zero air generator, a 19″ modular rack, and an integrated computer. Data can be recorded, viewed, and exported using VistaCHROM software. Optional analog outputs and communication protocols are available. 115V AC power supply.
Modular monitoring system for continuous analysis of 123 compounds with high precision using gas chromatography and mass spectrophotometry techniques. Ideal for measuring hydrocarbons, halogenated compounds, ozone precursors, VOC’s, PAH, Solvents, etc. Automated system with fast, accurate monitoring (30-minute cycle) and automatic data transmission. Includes hydrogen gas generator, zero air generator, and automatic calibration. 19″ rack-mounted with integrated computer and VistaCHROM software. Detection limit up to 1 ppt and range from ppt to ppb and % vol. Optional analog and digital outputs. 115 V AC power supply.
Online chromatograph for continuous analysis of light organic compounds, VOC’s and BTEX using FID detection principle with hydrogen carrier gas
Measures concentrations in ppm and ppb levels
Cycle time from 3-30 min, Robust metal capillary column
Sample volume of 30-500 μL
Integrated computer with VistaCHROM software for data visualization and management
Validation by permeation tubes or gas cylinders
Optional accessories and certifications available
Analog outputs 4-20 mA or modBus output (Optional)
The online chromatograph is designed for continuous analysis of total methane and non-methane hydrocarbons using the FID (Flame Ionization Detector) detection principle with hydrogen/air as carrier gas. It is capable of measuring concentrations in the range of 20 ppb to 2000 ppb with a detection limit of 20 ppb. The cycle time can be set to either 3.5 or 7.5 minutes, depending on the application. The chromatograph is equipped with a robust, high-resistance metal capillary column and an integrated computer with a screen for data visualization. The data can be recorded, viewed, and analyzed using the VistaCHROM dedicated software in Windows-based internal computing hardware. Calibration can be performed automatically or manually using permeation tubes or gas cylinders. The chromatograph also has the option of analog outputs 4-20 mA or modBus output, and various accessories such as nitrogen generators and zero air, multiplexer for measuring multiple points with the same instrument.
Sensidyne is a well-established manufacturer and distributor of gas detection and air sampling instrumentation. They offer a broad range of products to process, manufacturing and infrastructure industries worldwide, including air monitoring instrumentation, fixed gas detection, sound and vibration measurement, and heat stress analysis. With over 35 years of experience, Sensidyne has become a technology leader in fixed gas detection, providing high-quality products, expert customer service, and technical support. Their brands include Gilian, BDX, SensAlert, SensAlarm, Sensidyne Colorimetric Gas Detector Tubes, and more. Sensidyne is committed to providing reliable and cutting-edge technology to ensure the safety of people and the environment.
The Sensidyne AP-20S Gas Detection Pump Kit is a portable, lightweight and rugged gas detection system that can detect numerous gases and vapors on-the-spot when used in conjunction with Sensidyne detector tubes. The pump features an antibacterial Blue grip and is designed to withstand harsh environments, with a lifetime warranty. The kit comes complete with the AP-20S Gas Detection Pump, lubricant, manual, tube handbook, two rubber tube connectors, and a lightweight carrying pouch. The manual piston pump has a 100 ML internal piston volume and includes a warning system to indicate that the tube has absorbed the injected volume. The tube-breaking system ensures safe measurement and the pump is easy to operate and cost-effective. As a special offer, purchase 12 boxes of Sensidyne detector tubes and trade a competitor’s pump for a new AP-20S. Contact Sensidyne’s Customer Support team or your local distributor for more information or to shop online.
The Sensidyne Gas Detector Tube System is a reliable and cost-effective solution for measuring hazardous and toxic gases and chemical vapors in the field. With over 450 available compounds, users can easily find the right tube for their specific needs. The precision tubes offer accurate and repeatable results and are easy to use, making the system ideal for routine or spot sampling. The system also includes a correction for humidity and temperature, ensuring the results are accurate. The manual piston pump with an antibacterial grip provides easy operation at a low cost. The HazMat kits provide a quick and effective solution for identifying and measuring unknown target gases or substances.
Tel +1 561-912-9809 / 561-9112-7201
E-mail [email protected]
6590 W Rogers Circle Suite# 11&12
Boca Raton – FL 33487