The Model 3010 portable total hydrocarbon analyzer uses a heated flame ionization detector (HFID) to measure total hydrocarbons (including THC, VOC, TOC, NMHC), which is a standard measurement technology that fully complies with regulations.

QUAL1 BS EN 12619:2013 USA EPA 40 CFR Part 60 Method 25 USA EPAPart 503 Applications has passed the Chinese type approval certification for measuring instruments, certification number: CPA2015-C174

Suitable for VOC monitoring of organized emissions and various industrial pollution sources. High strength corrosion resistance, anti-interference, high measurement accuracy, fast response. High temperature analyzer and insulation heating pipeline ensure sample quality

The Model 3010 portable total hydrocarbon analyzer uses a heated hydrogen flame ionization detector. It is a classic method for measuring total hydrocarbons (THC, VOC, TOC, NMHC), and the advantage of this method is that it can accurately measure hot/humid sample gases. The entire sampling and analysis process is kept at high temperature (191 ℃), which can effectively prevent the loss of hydrocarbons caused by the condensation of high molecular weight hydrocarbons in the injection pipeline.

The Model 3010 portable total hydrocarbon analyzer has a wide range of applications, such as boiler flue gas detection, incinerator flue gas detection, and volatile organic solvent leakage detection. 3010 HFID has a good correlation with lipids, alcohols, esters, ketones, and aromatic compounds, and is a reliable classic method for detecting total carbon and hydrogen concentrations.

◆ Automobile exhaust emission environmental monitoring station, universities, research institutions, laboratories, etc

◆ Catalytic conversion and thermal combustion testing

◆ Engine combustion efficiency testing and emission monitoring

Industrial boiler renovation optimization and emission testing

Semiconductor electronic device product factory

◆ Plating and paint spraying workshop

The instrument uses the High Temperature Hydrogen Flame Ionization (HFID) method to detect the sample gas. To minimize the impact of sample gas condensation on measurement accuracy, the instrument samples at a high temperature of 191 ℃ throughout the entire process. At the same time, a compensating air bypass system is used to prevent sample gas condensation at the back pressure regulator.

The instrument is equipped with a carbon washer and a built-in air filter to ensure the provision of clean and hydrocarbon free combustion gas and zero gas. The heating pipeline of Model 3010 is integrated and controlled by the analyzer host, without the need for additional temperature control units and power supplies

◆ MCERTS certification

Integrated heating sampling pipeline

◆ Built in air catalytic converter

The sample gas pressure regulator provides high stability sample gas flow rate

In practical applications where the oxygen content is unpredictable, we recommend using a hydrogen/helium mixture as fuel to reduce the impact of oxygen synergy. In environments with stable oxygen content, Model 3010 can also choose hydrogen as fuel. The instrument operation mode is simple, and people who have not been exposed to the instrument can operate it after simple training.

Signal software can be used for data collection, data monitoring, and providing detection reports. 3010 is equipped with methane detection and non methane hydrocarbon detection, with output options of methane/non methane.

It is a flame generated by the combustion of hydrogen and air as energy source. When organic compounds enter the flame generated by the combustion of hydrogen and oxygen, chemical ionization occurs at high temperatures, producing ions several orders of magnitude higher than the base flow. Under the directional action of a high-voltage electric field, an ion flow is formed. The weak ion flow is amplified by high resistance to obtain an electrical signal proportional to the amount of organic compounds entering the flame, and the organic matter is quantitatively analyzed based on the size of the signal.