The standard cross-duct sensor consists of a transmitter unit and a detector unit with the same dimensions. The transmitter unit provides a connector for the fiber-optic cable. The laser light is transmitted through this cable. The receiver unit contains a photodetector and an electronics PCB, and is connected to the detector unit by a sensor cable.
The sensors are mounted onto flanges. The easiest way to avoid condensation and dust deposits on the sensor windows is to purge them, e.g. with instrument air. Purging must be selected depending on the application. The cross-duct sensors can therefore be configured for the respective situation. The application reference table provides recommendations for suitable purging with standard applications.
If a component is to be measured which is also present in measurable quantities in the purging medium - such as oxygen or moisture - it is necessary to use purging gases such as nitrogen, superheated process steam or similar. In such cases it is usually also necessary to purge the sensor heads, since the ambient air must also be displaced here out of the laser beam path. A differentiation is therefore made between purging on the process side and purging on the sensor side.
Note: For measurement of O2 at gas temperatures above 600 °C, it may also be possible to tolerate air as the purging medium since its influence on the measurement can be compensated. In contrast, the combination O2/temperature always requires O2-free purging.
Applications with oxygen (high-pressure)
For oxygen measurements with a higher process gas pressure (1 to 5 bar), the sensor CD 6 can be used together with a suitable window flange as the process connection. This window flange is also available in the standard sizes DN 65/PN 6, DN 80/PN 16 or ANSI 4"/150 lbs. The optical surface to the process is made of borosilicate glass. Flanges can be equipped with window purging, but without purging tubes. Possible purge modes for the window flanges are "A-C" (no purging or moderate purging on the process side). Window flanges are tested for leakage before delivery using overpressure, and show leakage rates of less than 10-5 mbar·l/s.
For ordering this application, the MLFB code of the central unit with the application code "P" must be selected. The process interface suitable for the sensors can be chosen by selection of the corresponding code in the 6th configurable position of the MLFB number.
The most important sensor purging configurations are presented below:
Purging on the process side with moderate flow
Is selected e.g. for pure gas applications, emission monitoring, inerting monitoring. The purging gas flow can be adjusted between 0 and approx. 120 l/min at each sensor head using a needle valve (included in delivery).
Moderate purging on process side
Purging on the process side with increased flow
Through omission of needle valve. This type of purging is selected in crude gas applications with higher concentrations of particles and/or condensation as well as in non-purified flue gases in combustion plants. The purging gas flow is typically set between 200 and 500 l/min on each sensor head depending on the input pressure of the purging medium.
Increased purging on process side
Purging on the process side with high flow
Through use of air blower or dry process steam. Connectors with hose adapters are included in the delivery. An additional Swagelok adapter must be ordered if a high flow of steam or instrument air purging is required (option A27). This type of purging is selected in crude gas applications with very high concentrations of particles and/or condensation such as in the furnaces of combustion plants. If instrument air is not available, an air blower is also an alternative for purging in applications with lower demands. On the process side, dry steam can be used as the inert purging gas instead of nitrogen. The purging gas flow is automatically set between 500 and <1 000 l/min on each sensor head depending on the purging air blower or the steam pressure.
Increased purging on process side, with hose connection adapter
Purging on sensor side
Can be combined with any purging mode on the process side, and is always selected if the ambient air must never have an influence on the measurement. The volumes within the sensor head are then continuously purged with an O2-free gas. Allowed purging gases are nitrogen or carbon dioxide. The flow of purging gas required in this case is approx. 1 to 6 l/min and is set using a needle valve (included in delivery). The combination shown here of purging with superheated process steam on the process side and with nitrogen from a compressed gas bottle on the sensor side may satisfy the necessity for O2-free purging e.g. also in combustion plants with boilers without own nitrogen network.
Note
With purging on the process side, it may be necessary to use non-return valves to ensure no process gas can enter the purging gas line in the event of failure of the purging gas supply. This applies especially in the case of cascaded process and sensor purging where there is otherwise the danger that, for example, corrosive process gases could enter the sensor enclosure.
Sensor configuration with high purging on process side, with 6 mm joint for use with steam, and with N2 purging on the sensor side
The purging media used on the process side flow through purging gas tubes into the process gas stream. The tubes extend a few centimeters into the process area, and usually provide a flow from the side. This results in a wedge being generated in the inlet zone of the purging gas. The effective measuring path in the process gas is therefore well-defined as the distance between the ends of the two purging gas inlet tubes.
Sensor alignment kit
Includes a battery-operated visible light source, a centering aid with crosshair, and two hook spanners for opening the optics tube of the sensors.
Please note: the sensor alignment kit is not explosion protected.
Installation requirements for the cross-duct sensors CD 6, dimensions in mm
Purging air blower
Two purging air blowers are required to purge the sensor heads. Both 230 V AC and 115 V AC versions can be ordered.
Sensor configuration with purging air blower
Flow cell (available on special application)
For implementation of measuring configurations with bypass mode. The cell consists of a stainless steel tube whose internal surfaces are coated with PTFE to minimize surface effects. With an effective measuring path of 1 m, the inner volume is only 1.2 l, and fast gas displacement times can therefore be achieved. The flow of sample gas can be from the ends or from the center of the tube, since appropriate 6 mm joints are present here. The flow cell can be ordered in four configurations:
Optical bandpass filter
Serves to protect the light-sensitive detector in the receiver unit of the sensor from saturation by IR background radiation. Is used with measurements in very hot process gases (T > 1000 °C) or with unavoidable appearances of flames in the measurement path.
General information | |
Design | Transmitter and detector units, connected by a sensor cable |
Materials | Stainless steel |
Installation | Horizontally to the optical axis, perpendicular or parallel to the gas flow |
Laser protection class | Class 1, safe to the eye |
Explosion protection | Optional, according to ATEX II 1 G Ex ia IIC T4, ATEX II 1 D Ex iaD 20 IP65 T135 °C A defined leak rate can only be guaranteed when using high-pressure window flanges. Otherwise it may be necessary for the owner to carry out an evaluation in accordance with ATEX (DEMKO 06 ATEX 139648X [17]). |
Design, enclosure | |
Degree of protection | IP65 |
Dimensions | Diameter: 163, L: 395 mm |
Purging gas tube in mm | 400 (370 net) x 44 x 40 800 (770 net) x 44 x 40 1 200 (1 170 net) x 44 x 40 |
Weight | 2 x approx. 11 kg |
Mounting | DN 65/PN 6 or ANSI 4"/150 |
Please note:
| |
Electrical characteristics | |
Power supply | 24 V DC, supply from central unit via hybrid cable |
Power consumption | < 2 W during operation |
Climatic conditions | |
Ambient temperature | -30 ... +70 °C during operation, -40 ... +70 °C during storage and transportation |
Humidity | < 95 % RH, above dew point |
Pressure | 800 ... 1 100 hPa |
Temperature range on the sensor side of the process interface (connection plate) | -20 … +70 °C |
Measuring conditions | |
Measurement path | 0.3 ... 12 m (other lengths on request) |
Gas temperatures | 0 ... 1 200 °C, application-dependent |
Gas pressure | General: 1 013 ± 50 hPa With high-pressure window flanges: High-pressure O2 application AP: 950 ... 5 000 hPa |
Dust load | The influence of dust is very complex and depends on the path length and particle size. The optical damping increases exponentially at longer path lengths. Smaller particles also have a large influence on the optical damping. With high dust load, long path length and small particle size, the technical support at Siemens should be consulted. |
Purging | |
Nitrogen is permissible as the purging gas for the sensor side. Nitrogen, steam, air and gases which are not subject to the pressure equipment directive Cat. 2 are permissible as purging gases for the process side. | |
Purging with instrument air, N2 | |
| 2 000 ... 8 000 hPa |
| < 500 hPa |
| |
| Free of oil and water |
| Purity better than 99.7 %. For oxygen measurements, and an O2 content < 0.01% in the purging gas (optical path length ≥ 1 m, min. 5% oxygen in the process gas) |
| 500 l/min |
| Benchmark: < -10 °C, condensation on the optics must be avoided |
Blower purging | |
| 40 hPa |
| 850 l/min |
| 370 W |
| IP54, cover required to protect against rain |
Steam purging | |
| Overheated |
| 240 °C |
| > 4 000 hPa |
| 16 000 hPa, refers to a volume flow of approx. 1 100 l/min |
General information | |
Configuration hybrid cable | Two optical fibers and two twisted copper wires in one cable for 24 V DC. Single-mode optical fiber configured at both ends with E2000 angle connectors. Multimode optical fiber configured at both ends with SMA connectors. |
Cable sheath | Oil-resistant polyurethane |
Dimensions |
|
| < 8 mm |
|
|
Impact resistance | 200 N/cm |
Maximum tensile strength | 500 N |
Minimum bending radius | 10 cm |
Climatic conditions | |
Ambient temperature | -40 ... +80 °C during operation |
Humidity | < 95% rel. humidity, above dew point (in operation and storage) |
Cross-duct sensor CD 6, moderate purging (instrument air), version according to Order No. 7MB6122-**C1*-0***, dimensions in mm
Cross-duct sensor CD 6, increased purging (instrument air), version according to Order No. 7MB6122-**E1*-0***, dimensions in mm
Cross-duct sensor CD 6, blower purging, version according to Order No. 7MB6122-**G1*-0***, dimensions in mm
Cross-duct sensor CD 6, sensor and process side purging, version according to Order No. 7MB6122-**H1*-0***, dimensions in mm
Cross-duct sensor CD 6, purged version according to Order No. 7MB6122-*WC14-2***, dimensions in mm
CD 6 high-pressure sensor for oxygen, dimensions in mm
