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E-mail
desen118@163.com
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Phone
15312342373
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Address
Jinhu County Economic Development Zone, Jiangsu Province
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Jiangsu Desen Instrument Co., Ltd
The flange type electromagnetic flowmeter has good stability
NegotiableUpdate on 12/23
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Overview
The flange type electromagnetic flowmeter has good stability and is used for liquid flow measurement of conductive media in process pipelines in industries such as chemical, environmental protection, textile, metallurgy, mining, medicine, papermaking, water supply, food, sugar, brewing, etc; In addition to measuring general conductive liquids, it can also measure the flow rate of conductive liquid-solid two-phase flow, high viscosity liquids, salts, strong acids, strong bases and other liquids according to the special needs of users.
Product Details
1、 Instrument Introduction:
The flange type electromagnetic flowmeter is actually an alias for the electromagnetic flowmeter. Its pipeline type is connected or welded to the pipeline at the industrial installation site. The measurement is based on Faraday's law of electromagnetic induction. The electromagnetic flowmeter consists of a sensor and a converter. The sensor is installed on the measuring pipeline, and the converter can be combined with the sensor to form an integrated electromagnetic flowmeter. When the converter is installed within 30 meters or 100 meters of the sensor, it is connected by a shielded cable to form a separated electromagnetic flowmeter.
2、 Working principle:
The flange type electromagnetic flowmeter is based on Faraday's principle of electromagnetic induction. A pair of detection electrodes are installed on the pipe wall perpendicular to the axis of the measuring tube and the magnetic field lines. When the conductive liquid moves along the axis of the measuring tube, it cuts the magnetic field lines and generates an induced potential. This induced potential is detected by the two detection electrodes, and the value is proportional to the flow rate. Its value is E=KBVD. In the formula:
E - Induced potential;
K - coefficient related to magnetic field distribution and axial length;
B - Magnetic induction intensity;
V - average flow velocity of conductive liquid;
D - electrode spacing; (Measuring the inner diameter of the tube)
The sensor uses the induced potential E as a flow signal, which is transmitted to the converter. After amplification, transformation, filtering, and a series of digital processing, the instantaneous and cumulative flow rates are displayed on a backlit dot matrix LCD. The converter has 4-20mA output, alarm output and frequency output, and is equipped with communication interfaces such as RS-485, and supports HART and MODBUS protocols.
The flange type electromagnetic flowmeter has good stability
3、 Application scope:
The flange type electromagnetic flowmeter has a wide range of applications, including liquid flow measurement of conductive media in process pipelines in industries such as chemical, environmental protection, textile, metallurgy, mining, medicine, papermaking, water supply, food, sugar, brewing, etc; In addition to measuring general conductive liquids, it can also measure the flow rate of conductive liquid-solid two-phase flow, high viscosity liquids, salts, strong acids, strong bases and other liquids according to the special needs of users.
4The flange type electromagnetic flowmeter has good stabilityAdvantage:
1. The instrument structure is simple, reliable, without moving parts, and has a long working life.
2. No flow blocking components, no pressure loss or fluid blockage.
3. No mechanical inertia, fast response, good stability, can be applied to automatic detection, adjustment, and program control systems.
4. The measurement accuracy is not affected by the type of measured medium and its physical parameters such as temperature, viscosity, density, pressure, etc.
5. Different combinations of PTFE or rubber lining materials and electrode materials such as Hc, Hb, 316L, Ti can adapt to the needs of different media.
6. There are various flow meter models available, including pipeline type and plug-in type.
7. Using EEPROM memory, the storage of measurement and operation data ensures safety and reliability.
8. It has two types: integrated and separated.
9. High definition LCD backlit display.
5、 Performance indicators:
1. Instrument accuracy: pipeline type 0.5 level, 1.0 level; Insertion type 2.5 level.
2. Measurement medium: various liquid and liquid-solid two-phase fluids with conductivity greater than 5 μ S/cm.
3. Flow velocity range: 0.2-8m/s.
4. Work pressure: 1.6MPa.
5. Environmental temperature: -40 ℃ to+50 ℃.
6. Medium temperature: PTFE lining ≤ 180 ℃; Rubber material lining ≤ 65 ℃.
7. Explosion proof mark: Exmibd Ⅱ BT4.
8. Explosion proof certificate number: GYB01349.
9. External magnetic interference: ≤ 400A/m.
10. Shell protection: integrated type: IP65;
Detached type: Sensor IP68 (5 meters underwater, with rubber lining); Converter IP65.
11. Output signal: 4-20mA.DC, load resistance 0-750 Ω.
12. Communication output: RS485 or CAN bus.
13. Electrical connection: M20 × 1.5 internal thread, φ 10 cable hole.
14. Power supply voltage: 90-220V.AC, 24 ± 10% V.DC.
15. Maximum power consumption: ≤ 10VA.
6、 Structure of flowmeter:
1. Sensor:
The sensor mainly consists of a measuring conduit, measuring electrodes, excitation coils, iron cores, magnetic yokes, and a housing.
a、 Measurement catheter: composed of stainless steel catheter, lining, and connecting flange, it is a carrier for measuring the on-site working conditions of the measured liquid.
b、 Measurement electrode: a pair of electrodes installed on the inner wall of the measurement catheter, perpendicular to the axial flow direction, to generate signals for the measured liquid.
c、 Excitation coil: The upper and lower excitation coils that generate a magnetic field inside the measuring conduit.
d、 Iron core and magnetic yoke: Introduce the magnetic field generated by the excitation coil into the liquid and form a magnetic circuit.
e、 Shell: Instrument outer packaging.
2. Converter:
Is it an intelligent secondary meter that amplifies and processes traffic signals?? After calculation by the microcontroller, it can display flow rate, cumulative measurement, and output signals such as pulses and analog currents for measuring or controlling fluid flow rate.
3. Product assembly form:
It is divided into two forms: one-piece and split type.
a、 Integrated: The sensor and converter are installed together.
b、 Split type: Sensors and converters are installed separately, forming a flow metering system through connecting cables.
c、 To meet the requirements of measuring different media, there are multiple choices for the lining and electrode materials of sensors.
7、 Classified by excitation method:
To generate a uniform and constant magnetic field, it is necessary to choose a suitable excitation method. According to the excitation current method, there are DC excitation, AC (power frequency or other frequencies) excitation, low-frequency rectangular wave excitation, and dual frequency rectangular wave excitation.
1. DC excitation
The direct current excitation method uses direct current or a magnet to generate a constant and uniform magnetic field. The biggest advantage of this DC excitation transmitter is that it is less affected by AC electromagnetic field interference, so the effect of self inductance in the liquid can be ignored. However, using a direct current magnetic field can easily polarize the electrolyte liquid passing through the measurement pipeline, that is, the electrolyte is electrolyzed in an electric field, producing positive and negative ions. Under the action of the electric field force, negative ions run towards the positive electrode and positive ions run towards the negative electrode, which will cause the positive and negative electrodes to be surrounded by ions of opposite polarity, seriously affecting the normal operation of the instrument. So, DC excitation is generally only used to measure non electrolyte liquids, such as liquid metal flow (mercury at room temperature and liquid steel, lithium, potassium at high temperature), etc.
2. Communication excitation
Most electromagnetic flow meters used in industry use AC excitation with a power frequency of 50Hz to generate an alternating magnetic field, avoiding polarization interference on the surface of the DC excitation electrode. However, using AC excitation can bring a series of electromagnetic interference problems (such as orthogonal interference, in-phase interference, zero drift, etc.). Nowadays, AC excitation is being replaced by low-frequency square wave excitation.
3. Low frequency square wave excitation
There are two types of low-frequency square wave excitation waveforms: binary (positive negative) and ternary (positive zero negative zero), with frequencies typically ranging from 1/2 to 1/32 of the power frequency. Low frequency square wave excitation can avoid orthogonal electromagnetic interference caused by AC magnetic fields, eliminate power frequency interference caused by distributed capacitance, suppress eddy currents caused by AC magnetic fields on pipe walls and inside fluids, and eliminate polarization phenomena caused by DC excitation.
8、 Installation precautions:
1. The axis of the non measuring electrode must be approximately horizontal;
2. The measuring pipeline must be filled with liquid;
3. There should be at least a 5 * D (D is the inner diameter of the flow meter) straight pipe section in front of the flow meter, and at least a 3 * D (D is the inner diameter of the flow meter) straight pipe section in the back;
4. The direction of fluid flow and the arrow direction of the flowmeter *;
5. Vacuum inside the pipeline can damage the lining of the flowmeter, so special attention should be paid;
6. There should be no strong electromagnetic field near the flowmeter;
7. There should be ample space near the flowmeter for installation and maintenance;
8. If there is vibration in the measuring pipeline, there should be fixed supports on both sides of the flowmeter. When measuring mixed liquids of different media, the distance between the mixing point and the flowmeter should be at least 30 × D (D is the inner diameter of the flowmeter). To facilitate the cleaning and maintenance of the flowmeter in the future, a bypass pipeline should be installed.
9、 When grounding protection, the following points must be noted:
1. Sensors and converters should be grounded separately and not connected to motors or process pipelines. The grounding resistance should be less than 10 ohms.
2. The measuring tube, housing, shielding wire, converter, and secondary instrument of the sensor must be grounded.
3. The grounding of sensors and converters should be done on site, and the shielding layer of secondary instruments should be grounded on the control room side. Do not connect multiple terminals to avoid interference caused by different potentials.
4. The sensor is installed on a metal pipeline, and the grounding wire of the sensor can be connected to the pipeline flange according to the manufacturer's requirements to form a reliable grounding circuit. The grounding point of the instrument should be an independent grounding point and cannot be shared with other electrical equipment.
10、 Selection of installation environment:
In order to ensure stable operation of the transmitter, the following requirements should be noted when selecting the installation environment:
1. Try to avoid ferromagnetic objects and specific equipment with strong electromagnetic fields (such as large motors, transformers, etc.) to prevent the magnetic field from affecting the working magnetic field and flow information of the sensor.
2. It should be installed in a dry and ventilated place as much as possible, and should not be installed in damp or water prone areas.
3. Avoid direct sunlight and rain as much as possible, and avoid environments with temperatures above 45 ℃ and relative humidity above 95.9%.
4. Choose a place that is easy to maintain and has convenient activities.
5. The flowmeter should be installed at the rear end of the water pump and must not be installed on the suction side; The valve should be installed on the downstream side of the flowmeter.
11、 Main technical data:
1. Technical data of the whole machine and sensors
execution standard |
JB/T 9248—1999 |
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Nominal Diameter |
10. 15, 20, 25, 32, 40, 50, 65, 80, 100, 125, 150, 200, 250, 300, 350, 400, 500, 600, 700, 800, 900, 1000, 1200, 1400, 1600, 1800, 2000, 2200, 2400, 2600, 2800, 3000 |
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Zui high flow rate |
15m/s |
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accuracy |
DNl5~DN600 |
Indication: ± 0.3% (flow rate ≥ 1m/s); ± 3mm/s (flow rate<1m/s) |
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DN700—DN3000 |
± 0.5% of the indicated value (flow rate ≥ 0.8m/S); ± 4mm/s (flow rate<0.8m/S) |
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Fluid conductivity |
≥5uS/cm |
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Nominal Pressure |
4.0MPa |
1.6MPa |
1.0MPa |
0.6MPa |
6.3、10MPa |
DNl0~DN80 |
DN100~DN150 |
DN200~DN1000 |
DN1200~DN2000 |
Special Orders |
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ambient temperature |
sensor |
-25 ℃ -+60 ℃ |
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Converter and integrated model |
-10 ℃ -+60 ℃ |
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Lining material |
Polytetrafluoroethylene, chloroprene rubber, polyurethane, perfluoroalkoxy (F46), mesh PFA |
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Zui high fluid temperature |
- Body type |
70℃ |
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Separated type |
Polychloroprene rubber lining |
80℃; 120 ℃ (specify when ordering) |
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Polyurethane lining |
80℃ |
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PTFE lining |
100℃; 150 ℃ (specify when ordering) |
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Perfluoroethylene propylene (F46) | |||||
Mesh PFA | |||||
Signal electrode and ground electrode materials |
Stainless steel 0Crl8Nil2M02Ti, Hastelloy C, Hastelloy B, titanium, tantalum, platinum/iridium alloy, stainless steel coated with tungsten carbide |
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Electrode mechanism |
DN300—DN3000 |
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Connecting flange material |
carbon steel |
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Grounding flange material |
Stainless steel 1Cr18Ni9Ti |
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Imported protective flange materials |
DN65—DNl50 |
Stainless steel 1Cr18Ni9Ti |
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DN200~DNl600 |
Carbon steel and stainless steel 1Cr18Ni9Ti |
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Shell protection |
DNl5~DN3000 separable rubber or polyurethane lined sensor |
IP65 or IP68 |
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Other sensors, body type flow meters, and separate converters |
IP65 |
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Distance (separated type) |
The distance between the converter and the sensor is generally not more than 100m |
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power supply |
communication |
85—265V,45—400Hz |
direct current |
11—40V |
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Operation keys and display |
push-button |
Four thin film buttons can be used to set and select all parameters, and the converter can also be programmed using a PC (RS232); 3-line LCD with wide viewing angle, wide temperature, and backlit display; The first line displays the traffic value; The second line displays the flow unit; The third line displays the percentage of traffic, total forward, total reverse, total difference, alarm, and flow rate. |
Magnetic key type |
Two magnetic keys are used for selecting and resetting display parameters, and the converter is programmed using a PC (RS232); 2-line LCD display with wide viewing angle, wide temperature, and backlight: Line 1: Magnetic key selection: Display flow percentage, forward total amount, reverse total amount, difference total amount, alarm, and flow rate. Line 2: Display traffic. |
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Internal integrator |
Positive total, negative total, and differential total. |
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output signal |
Unidirectional analog output |
Fully isolated, load ≤ 600D. (at 20mA); Upper limit: 0-21mA optional, 1mA per level; Lower limit: 0-21mA optional, 1mA per level; programming for forward and reverse flow output modes. |
Bidirectional analog output |
The lower limit is. Or 4mA, other same unidirectional analog outputs. |
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Bidirectional pulse output |
Two outputs correspond to forward and reverse flow rates, with a frequency range of 0-800Hz and an upper limit of 1-800Hz to choose from. Each IHz level is available; Square wave or selected pulse width, with an upper limit of 2.5S and 1ms per step; passive isolation transistor switch output, capable of absorbing 250mA current and withstanding 35V voltage. |
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Dual channel alarm output |
Programmable alarm for high/low flow rate, air traffic control, fault status, positive/negative flow rate, analog over range, pulse over range, pulse small signal cutoff, with optional output polarity; Transistor switch output with isolation protection, capable of absorbing 250mA current and withstanding 35V voltage (not isolated from pulse output) |
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Digital Communication |
RS232,RS485,HART |
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3. Selection of lining
Lining material |
Main performance |
Zui high medium temperature |
Scope of Application |
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- Body type |
Separated type |
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Polytetrafluoroethylene (F4) |
It is a plastic with the most stable chemical properties, capable of withstanding boiling hydrochloric acid, sulfuric acid, nitric acid, and aqua regia, as well as concentrated alkali and various organic solvents. Not resistant to corrosion from high flow rate liquid fluorine, liquid oxygen, and self oxygen. |
70℃ |
100 ℃ 150 ℃ (special order required) |
1. Strong corrosive media such as concentrated acid and alkali. 2. Sanitary media. |
Perfluoroethylene propylene (F46) |
Same as F4, its wear resistance and negative pressure resistance are higher than F4. |
Ditto. |
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Polyfluoroethylene (Fs) |
The upper limit of applicable temperature is lower than that of polytetrafluoroethylene, but the cost is also lower. |
80℃ |
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polychloroprene rubber |
1. Some have elasticity, high tensile strength, and good wear resistance. 2. Resistant to corrosion in general low concentration acid, alkali, and salt media, but not resistant to corrosion in oxidizing media. |
80 ℃ 120 ℃ (special order required) |
Water, sewage, and weakly abrasive slurry. |
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polyurethane rubber |
1. Wear resistance *. |
80℃ |
Neutral strong abrasion slurry, coal slurry, mud |
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4. Selection of imported protective flanges and grounding flanges (or grounding rings)
Type of flange |
Scope of application |
Grounding flange (or grounding ring) |
Suitable for non-conductive pipelines such as plastic pipes, but sensors with grounding electrodes do not require them. |
Import protection flange |
Choose when the medium has strong wear resistance. |
5. Selection of electrodes
electrode material |
Corrosion resistance and wear resistance |
Stainless steel 0Crl8Nil2M02Ti |
Used for weakly corrosive media such as industrial water, domestic water, sewage, etc., suitable for industrial sectors such as petroleum, chemical, steel, as well as municipal and environmental protection fields. |
哈氏合金B |
It has good corrosion resistance to all concentrations of hydrochloric acid below boiling point, as well as to non chlorinated acids, bases, and non oxidizing salt solutions such as sulfuric acid, phosphoric acid, and organic acids. |
Hastelloy C |
Can withstand corrosion from non oxidizing acids such as nitric acid, mixed acids, or mixed media of chromic acid and sulfuric acid, as well as corrosion from oxidizing salts such as Fe, Cu, or other oxidants such as hypochlorite solutions above room temperature and seawater |
Titanium |
Capable of withstanding corrosion from seawater, various chlorides and hypochlorites, oxidizing acids (including fuming sulfuric acid), organic acids, and alkalis. Not resistant to the corrosion of relatively pure reducing acids (such as sulfuric acid, hydrochloric acid), but if the acid contains oxidants (such as nitric acid, Fc++, Cu++), the corrosion is greatly reduced. |
Tantalum |
It has excellent corrosion resistance and is very similar to glass. Except for fuming sulfuric acid and alkali, it can almost withstand corrosion from cutting chemical media (including boiling point hydrochloric acid, nitric acid, and sulfuric acid below 50 ℃). Dig in alkali; Corrosion resistance. |
Platinum/titanium alloy |
Almost capable of cutting chemical media, but not suitable for aqua regia and ammonium salts. |
Stainless steel coated with tungsten carbide |
Used for non corrosive and highly abrasive media. |
Note: Due to the wide variety of media and the complex factors such as temperature, concentration, and flow rate that affect their corrosiveness, this table is for reference only. Users should make their own choices based on the actual situation, and if necessary, conduct corrosion resistance tests on the selected materials, such as hanging plate tests. | |
The selection of instruments is a very important task in instrument applications. Relevant data shows that 2/3 of instrument failures in practical applications are caused by incorrect selection or installation of instruments. Please pay special attention.
1. Collect data:
The composition of the fluid being tested;
Zui high traffic, Zui low traffic;
The highest work pressure;
Zui high temperature, Zui low temperature;
2. Range confirmation:
The flow rate of the measured medium in general industrial flow meters should be between 2-4m/s. In special cases, the minimum flow rate should not be less than 0.2m/s, and the maximum flow rate should not be greater than 8m/s. If the medium contains solid particles, the commonly used flow rate should be less than 3m/s to prevent excessive friction between the lining and the electrode; For viscous fluids, the flow velocity can be chosen to be greater than 2m/s. A higher flow velocity helps to automatically eliminate the effect of viscous substances attached to the electrode, which is beneficial for improving measurement accuracy.
Under the condition that the range Q has been determined, the size of the flowmeter diameter D can be determined based on the range of flow velocity V mentioned above, and its value can be calculated by the following formula:
Q=πD2V/4
Q: Flow rate (㎡/h) D: Inner diameter of pipeline V: Flow rate (m/h)
The electromagnetic range Q should be greater than the expected maximum flow rate value, while the normal flow rate value should be slightly greater than 50 times the full scale of the flowmeter.
3. Reference flow range:
Caliber (mm) |
Flow range (m3/h) |
Caliber (mm) |
Flow range (m3/h) |
φ15 |
0.06~6.36 |
φ450 |
57.23~5722.65 |
φ20 |
0.11~11.3 |
φ500 |
70.65~7065.00 |
φ25 |
0.18~17.66 |
φ600 |
101.74~10173.6 |
φ40 |
0.45~45.22 |
φ700 |
138.47~13847.4 |
φ50 |
0.71~70.65 |
φ800 |
180.86~18086.4 |
φ65 |
1.19~119.4 |
φ900 |
228.91~22890.6 |
φ80 |
1.81~180.86 |
φ1000 |
406.94~40694.4 |
φ100 |
2.83~282.60 |
φ1200 |
553.90~55389.6 |
φ150 |
6.36~635.85 |
φ1600 |
723.46~72345.6 |
φ200 |
11.3~1130.4 |
φ1800 |
915.62~91562.4 |
φ250 |
17.66~176.25. |
φ2000 |
1130.4~113040.00 |
φ300 |
25.43~2543.40 |
φ2200 |
1367.78~136778.4 |
φ350 |
34.62~3461.85 |
φ2400 |
1627.78~162777.6 |
φ400 |
45.22~4521.6 |
φ2600 |
1910.38~191037.6 |
4. Selection Table:
Specification Model |
管道口径 |
Material: Carbon Steel and Stainless Steel |
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DS-LDE |
15~2600 |
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code name |
electrode material |
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K1 |
316L |
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K2 |
HB |
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K3 |
HC |
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K4 |
Titanium |
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K5 |
Tantalum |
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K6 |
Platinum alloy |
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K7 |
Stainless steel coating Tungsten carbide coating |
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code name |
Lining material |
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C1 |
Polytetrafluoroethylene F4 |
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C2 |
Perfluoroethylene propylene F46 |
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C3 |
Polyfluoroethylene FS |
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C4 |
Polyvinyl rubber |
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C5 |
Polyurethane rubber |
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code name |
function |
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E1 |
Level 0.3 |
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E2 |
Level 0.5 |
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E3 |
Level 1 |
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F1 |
4-20Madc, Load ≤ 750 Ω |
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F2 |
0-3kHz, 5V active, variable pulse width, output effective frequency |
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F3 |
RS485 interface |
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T1 |
Room temperature type |
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T2 |
high-temperature type |
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T3 |
Ultra high temperature type |
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P1 |
1.0MPa |
|||||
P2 |
1.6MPa |
|||||
P3 |
4.0MPa |
|||||
P4 |
16MPa |
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D1 |
220VAC±10% |
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D2 |
24VDC±10% |
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J1 |
Integrated structure |
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J2 |
Split type structure |
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J3 |
Explosion proof integrated structure |
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DS-LDE |
100 |
K1 |
C1 |
E2 |
F1T1P3D1J2 |
Desen electromagnetic flowmeter |
13、 Ordering Notice:
1. Product: If there are model standards, please call directly to inquire about prices and learn more details!
2. If there are no product model specifications, please send the operating requirements, design drawings, and technical specifications to our company.
3. Product ordering requires parameters such as diameter (DN), nominal pressure (Mpa), temperature (℃), flow range (m3/h), medium name (such as water), connection method (clamp type, threaded type, flange type, clamping type, split type, insertion type, etc.).
4. Quotation confirmation: Our company provides a quotation list and technical standard specifications to the customer for confirmation. After both parties confirm the technical aspects, the contract will be drafted.
5. Quality requirements, quality standards, and conditions for suppliers to be responsible for quality: in accordance with relevant national quality standards.
After-sales service
1. From the date of contract signing, our company provides free maintenance and upkeep services for the products provided, and promises lifelong repair services;
2. Jiangsu Desen Instrument Co., Ltd. will regularly communicate with customers to understand the usage of the product and solve any problems that arise during their use, providing free services;
3. During the warranty period, if there is any man-made damage, our company is responsible for repairing it and collecting the repair costs incurred;
4. If there are quality problems or dissatisfaction with the product, users can choose to return or exchange it unconditionally. The company does not charge any handling fees. If there are quality problems, the company will bear the round-trip shipping costs.
13、 Ordering Notice:
1. Product: If there are model standards, please call directly to inquire about prices and learn more details!
2. If there are no product model specifications, please send the operating requirements, design drawings, and technical specifications to our company.
3. Product ordering requires parameters such as diameter (DN), nominal pressure (Mpa), temperature (℃), flow range (m3/h), medium name (such as water), connection method (clamp type, threaded type, flange type, clamping type, split type, insertion type, etc.).
4. Quotation confirmation: Our company provides a quotation list and technical standard specifications to the customer for confirmation. After both parties confirm the technical aspects, the contract will be drafted.
5. Quality requirements, quality standards, and conditions for suppliers to be responsible for quality: in accordance with relevant national quality standards.
After-sales service
1. From the date of contract signing, our company provides free maintenance and upkeep services for the products provided, and promises lifelong repair services;
2. Jiangsu Desen Instrument Co., Ltd. will regularly communicate with customers to understand the usage of the product and solve any problems that arise during their use, providing free services;
3. During the warranty period, if there is any man-made damage, our company is responsible for repairing it and collecting the repair costs incurred;
4. If there are quality problems or dissatisfaction with the product, users can choose to return or exchange it unconditionally. The company does not charge any handling fees. If there are quality problems, the company will bear the round-trip shipping costs.
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