Model Number: | MH5300-D |
---|---|
Brand Name: | MOHO |
Place of Origin: | China (Mainland) |
power supply: | 24VDC |
Output: | 4-20mA |
Density range: | 0-5g/cm3 |
Resolution: | 0.001g/cm3 |
Ambient temperature: | -10~180 |
Quick Details
Specifications
Product Description
MH5300 intelligent differential pressure online-densimeter (also known as online density transducer) is used for continuously measuring liquid concentration and density online, which can be directly used in industrial process.
MOHO intelligent on-line densimeter is two- wire system density transducer, mainly used for industrial process control. The on-line densimeter generate the corresponding signal 4-20mA according to the concentration and density and carry out the remote calibration and monitoring by the digital communications .
MH5300 intelligent differential pressure online-densimeter (also known as online density transducer) is used for continuously measuring liquid concentration and density online, which can be directly used in industrial process.
MOHO intelligent on-line densimeter is two- wire system density transducer, mainly used for industrial process control. The on-line densimeter generate the corresponding signal 4-20mA according to the concentration and density and carry out the remote calibration and monitoring by the digital communications .
Product Feature
This on-line densimeter is applied to the mobile or stationary liquid, suitable for pipes and tanks installation.
Adopting the integrated structure transmitter by two-wire system, no moving parts and simple maintenance.
Continuous measuring for liquid concentration and density online, no interrupt .Directly used in industrial process.
Double four digit LCD display.
BOTH DISPLAY of temperature and density , facilitating the industry standard conversion.
The desimeter has several different materials for touching liguid.
Easy to install and use , display readings once insert the liquid.
Simplify the maintenance and no need do the regular cleaning.
The on-line densimeter calibration dispenses with the standard reference source and lab. Calibration, no interrupt in prosess.
This on-line densimeter is applied to the mobile or stationary liquid, suitable for pipes and tanks installation.
Adopting the integrated structure transmitter by two-wire system, no moving parts and simple maintenance.
Continuous measuring for liquid concentration and density online, no interrupt .Directly used in industrial process.
Double four digit LCD display.
BOTH DISPLAY of temperature and density , facilitating the industry standard conversion.
The desimeter has several different materials for touching liguid.
Easy to install and use , display readings once insert the liquid.
Simplify the maintenance and no need do the regular cleaning.
The on-line densimeter calibration dispenses with the standard reference source and lab. Calibration, no interrupt in prosess.
Product Specification/Models
Output:4-20mA current,Digital signal(HART protocol)
Precision:0.001g/cm3
Density range:0-5g/cm3(the choice of different density range according to the medium density value)
Instrument power supply:16-30VDC power supply, recommended using 24VDC
Resolution: 0.001g/cm3
Ambient temperature: -10~180
Humidity range: 0-90%
Output:4-20mA current,Digital signal(HART protocol)
Precision:0.001g/cm3
Density range:0-5g/cm3(the choice of different density range according to the medium density value)
Instrument power supply:16-30VDC power supply, recommended using 24VDC
Resolution: 0.001g/cm3
Ambient temperature: -10~180
Humidity range: 0-90%
Application
Sugar industry and winemaking: squeez juice, grape juice, lime juice, syrup density, alcohol degree of GL, molasses, hexane/ethanol interface, etc
Dairy industry: condensed milk, lactose, cheese, cream cheese, lactic acid, etc
Mining: coal, phosphate, brine, potash, calcium compounds, limestone, copper, gold, etc.;
Refining: lubricating oil, aromatic agent, fuel oil, vegetable oil, etc.;
Processing: tomato juice, grape juice, lemon juice, tomato paste, molasses, vegetable oil, fruit syrup, jelly, jam, etc.;
The pulp paper industry: Green pulp, pulp washing, evaporator and so on;
Beverage processing:Beer, soft drinks, fruit wine, instant coffee.
Chemical: caustic soda, the density of acid, urea, detergents, polymers, ethylene glycol, sodium chloride, sodium hydroxide, etc;
petrochemical, natural gas, oil and gas water, kerosene, lubricants, oil/water interface, etc.
Sugar industry and winemaking: squeez juice, grape juice, lime juice, syrup density, alcohol degree of GL, molasses, hexane/ethanol interface, etc
Dairy industry: condensed milk, lactose, cheese, cream cheese, lactic acid, etc
Mining: coal, phosphate, brine, potash, calcium compounds, limestone, copper, gold, etc.;
Refining: lubricating oil, aromatic agent, fuel oil, vegetable oil, etc.;
Processing: tomato juice, grape juice, lemon juice, tomato paste, molasses, vegetable oil, fruit syrup, jelly, jam, etc.;
The pulp paper industry: Green pulp, pulp washing, evaporator and so on;
Beverage processing:Beer, soft drinks, fruit wine, instant coffee.
Chemical: caustic soda, the density of acid, urea, detergents, polymers, ethylene glycol, sodium chloride, sodium hydroxide, etc;
petrochemical, natural gas, oil and gas water, kerosene, lubricants, oil/water interface, etc.
Other Information
The working principle of the intelligent differential pressure densimeter online is based on the Archimedes' principle: the pressure at a certain height of liquid column is proportional to the liquid density. Namely, P =Rgh :
P: the pressure at a certain height of liquid column
R: the liquid density
g: Measuring acceleration of gravity
h: the height of liquid level
According to the measured pressure value and under the condition that knowing the measuring acceleration of gravity and the height of the liquid column, we can get the measured liquid density value
The working principle of the intelligent differential pressure densimeter online is based on the Archimedes' principle: the pressure at a certain height of liquid column is proportional to the liquid density. Namely, P =Rgh :
P: the pressure at a certain height of liquid column
R: the liquid density
g: Measuring acceleration of gravity
h: the height of liquid level
According to the measured pressure value and under the condition that knowing the measuring acceleration of gravity and the height of the liquid column, we can get the measured liquid density value