Siemens gas analyzer

Shenzhen Beituo has the advantage of distributing Siemens gas analyzers, which can provide guidance on installation, debugging, and training for use

Siemens gas analyzer 7MB2121-0CA00-1AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB6221-2AB00-3CX1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2337-1AR00-3CP1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2337-8AF00-3DL1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2111-0AB10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2338-8CA00-3AN0-ZA12 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2337-8AP00-6CP1-ZC01 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0DR00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2337-1NB00-3PE1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2338-0AK00-3NB1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2123-0CT01-1RP1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FE00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FE10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FF00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FF10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FG00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FG10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FH00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FH10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FJ00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FJ10-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer 7MB2335-0FK00-3AA1 online gas analyzer ULTRAMAT 23

Siemens gas analyzer

Siemens process gas analyzers have been used in the process industry for over 40 years and are renowned for their quality, reliability, and accuracy. Siemens continuous online gas analyzer in terms of chassis design, explosion-proof, corrosion-resistant, and communication capabilities

All of them have very high flexibility, so they can propose the best solution for any application.

According to the type of component to be measured and the measurement point, various physical and electrochemical methods can be used for measurement. Using two types of analyzers (SIPROCESS GA700 and Series 6/ULTRAMAT 23),

Siemens provides various measurement steps suitable for gas extraction analysis. Each device series has peak analysis performance suitable for its level:

SIPROCESS GA700

The SIPROCESS GA700 series is Siemens' first generation gas analyzer, featuring a modular design. Each basic unit can use up to two modules.

basic unit

The basic unit is divided into three models: 19 'rack type (3 height units), wall mounted enclosure type, and Ex d field equipment type. The use of separately available electronic modules can be adjusted according to the corresponding process environment or process control system

Adjust the communication interface on the basic unit.

module

According to specific measurement tasks, SIPROCESS GA700 can be individually adjusted by installing selectable modules based on corresponding analysis or process requirements.

module

measurement task

ULTRAMAT 7

The ULTRAMAT 7 module is used for highly selective measurement of infrared active components such as carbon monoxide, carbon dioxide, nitric oxide, methane, or sulfur dioxide. Generally speaking, application areas cover many fields, such as:

Use during the process. These analyzers can be used to control the production process and ensure product quality, even in the presence of highly corrosive gases.

OXYMAT 7

The OXYMAT 7 module is used to measure oxygen concentrations between 0 and 0.5% (minimum range) and between 0 and 100% (maximum range). It is suitable for use at ambient temperatures up to 60 ° C,

Utilizing the principle of paramagnetic alternating pressure for high-precision measurement. The OXYMAT 7 module adopts a modular design and can be combined with other modules for use.

CALOMAT 7

Suitable for determining the concentration of hydrogen and inert gases in binary mixtures by measuring thermal conductivity. The CALOMAT 7 has a high dynamic range (e.g. 0... 0.5% and 0... 100% H2, adjustable) and a shorter T90 time.

Siemens gas analyzer

On site control unit

The on-site control unit with explosion-proof rating Ex-d and explosion-proof enclosure is certified and can be used for Zone 1 (ATEX/IECEx certification). When used in conjunction with the OXYMAT 7 analyzer module, this on-site control unit can be used for

measurementSample gas content.

Series 6/ULTRAMAT 23

Series 6 and ULTRAMAT 23 are Siemens' traditional analyzers that have been used by customers worldwide for many years.

ULTRAMAT 6

Can be used for highly selective measurement of infrared activated components, such as measuring CO, CO2, NO, SO2, NH3, H2O, CH4, and other hydrocarbons. ULTRAMAT 6 is an analyzer with a 19 'specification or installed in

Durable on-site casing, suitable for use in harsh environments. Typically, its application areas include all types of emission measurements used in the process domain. These analyzers can be used to control the production process and ensure product quality,

Even in the presence of highly corrosive gases.

ULTRAMAT 23

ULTRAMAT 23 is an innovative multi-component analyzer that can measure up to three gases sensitive to infrared radiation using the NDIR principle. UV spectrophotometer can be used to measure very low concentrations of SO2 and NO2.

Oxygen (O2) can also be measured by using an electrochemical oxygen sensor or a measuring slot that operates according to the paramagnetic measurement principle ("dumbbell shaped"). When using an additional electrochemical H2S measurement tank, measurements can be taken in biogas applications.

ULTRAMAT/OXYMAT 6

Used for combined measurement of infrared activated components and sample gases in complex applications.

OXYMAT 6

Used to measure oxygen concentration based on paramagnetic principles in complex applications. OXYMAT 6 can measure oxygen based on the principle of paramagnetic alternating pressure. This measurement ensures absolute linearity and allows for parameter settings within an analyzer

Ultra low range of 0-0.5% (detection limit of 50 vpm), up to 0-100% or even 99.5-100%.

The materials used in the gas path allow the analyzer to measure corrosive mixed gases. The detector unit does not come into contact with the sample gas and can be used in harsh environments with a long operating life.

OXYMAT 61

Used to measure oxygen concentration based on paramagnetic principles in standard applications. The ambient air can be used as a reference gas for OXYMAT 61. Air is provided by a pump integrated into the analyzer casing.

OXYMAT 64

Used to measure the oxygen concentration within the tracking range using ZrO2 sensor technology. OXYMAT 64 can be used to measure extremely low concentrations of oxygen, with concentrations ranging as low as 0-10 vpm. In an air separation system,

This measurement ability is particularly interesting. Depending on the specific application, one can choose between catalytically inert ZrO2 sensors or catalytically active ZrO2 sensors.

CALOMAT 6

Suitable for determining the concentration of hydrogen and inert gases in binary mixtures by measuring thermal conductivity. CALOMAT 6 has a high dynamic range (e.g. 0... 1% and 0... 100% H2, adjustable) and a shorter T90 time.

CALOMAT 62

CALOMAT 62 is a thermal conductivity analyzer specifically designed for applications containing corrosive gases. It can directly measure the concentrations of gas components such as Cl2, HCl, and NH3, and can also measure corrosive atmospheres

The concentration of gases such as H2 and N2.

FIDAMAT 6

Used to measure the total hydrocarbon content based on the principle of flame ionization.

The FIDAMAT analyzer has a wide range of applications. It can monitor trace hydrocarbons in ultra pure gases (due to its high resolution and small differences in response factors), as well as measure total hydrocarbons in the% concentration range.

The working temperature of the sample gas path and detector can be adjusted within a wide range, allowing for the measurement of high boiling point mixtures and hydrocarbons at concentrations of up to 100% water vapor.

SIPROCESS UV600

A gas analyzer based on ultraviolet resonance absorption spectroscopy can measure extremely low concentrations of NO, NO2, SO2, and H2S.

General Installation Guidelines and Operating Conditions

Low temperature and thermal radiation protection (see technical data)

Temperature fluctuation protection

To achieve optimal measurement quality, it is necessary to ensure that the installation location is free from vibration.

Protection of electronic components in corrosive environments (using on-site equipment with blowing function if necessary)

Follow the installation regulations for hazardous areas (see manual)

Follow the measurement procedures when toxic gases are present, and if necessary, provide shell blowing and other safety measures (see manual)

Set the analyzer in the basic model to have a dew point of 4 ℃ (the standard cooler temperature used for sample gas preparation) and the interference gas effect of water vapor.

To achieve proper adjustment, when using zero gas and calibration gas for calibration, these must be connected using a sample gas cooler similar to the sample gas.

In special circumstances (such as testing, measurement, or long-term adjustment), it is recommended to connect the calibration gas through the upstream humidifier of the cooler to avoid "drying out" the gas cooler, which may cause changes in the concentration of water vapor.

During the calibration steps (zero and sensitivity), cancel any cross interference corrections that may have been enabled.

Calibration/Adjustment

Series 6 analyzers (ULTRAMAT 6, OXYMAT 6, CALOMAT 6) and SIPROCESS GA700 analyzers (ULTRAMAT 7, OXYMAT 7, CALOMAT 7) should be used at least every 14 days,

Use zero and range gases for calibration.

Calibration analyzer

standard

Zero gas N2 (5.0)

Range gas

In the remaining N2 (5.0), the sample gas has a range of approximately 60 to 90%

Note: When using OXYMAT 6/61 and OXYMAT 7, the zero gas and reference gas must be the same.

Pre blow the sample gas path with nitrogen (N2, mass 5.0) through the sample gas inlet for a minimum duration of 1 minute, increasing the sample gas path by one minute every 10 meters.

Calibration gases used for zero point calibration (ULTRAMAT 6, ULTRAMAT 6, CALOMAT 6, ULTRAMAT 7, OXYMAT 7, CALOMAT 7)

Provide sufficient inert gas (without measuring components or gases that have cross effects on the measuring components) through the sample gas inlet, usually N2, with a mass of 5.0.

Deviation calibration gas

Connect the calibration gas through the sample gas inlet (approximately 60 to 90% of the measured component range, using inert gas as a companion gas (e.g. N2, mass 5.0)).

Used for calibrating CALOMAT 62

Due to the specific thermal conductivity of each associated gas (including nitrogen), it is necessary to consider the gas used for zero calibration and the full-scale value of CALOMAT 62. For example, when calibrating H2 in HCl,

HCL can be used as the zero gas (or a suitable alternative gas according to the equipment data sheet), and H2 in HCl (or alternative gas) can be used as the range gas.

For detailed information about FIDAMAT 6, OXYMAT 64, and ULTRAMAT 23 (AUTOCAL), please refer to the section describing the corresponding equipment.

explosion-proof

Please refer to various manuals, references, and explosion-proof standards.