Caustic soda (sodium hydroxide) is an important basic material in the chemical industry and is mainly produced by the electrolysis of soda. There are two types of electrolysis processes: the diaphragm method and the ion-exchange membrane method; the latter is becoming mainstream because of its lower energy consumption and higher product quality. Both methods involve evaporating the solution after the electrolysis process to make concentrated caustic soda. This process is where the concentration is measured. Using the fact that there is a nearly linear relationship between the liquid density and the concentration, the concentration can be determined by measuring the liquid density.
The DM8 Vibration Type Liquid Density Meter has high sensitivity and stability and can be used to ensure highly accurate control.
- Ensures high product quality through stable and accurate measurement of liquid density
- Reduces operating costs
Caustic Soda Production Process
The solid salt is dissolved in water and impurities in the salt are removed. The purified solution is fed to an electrolyzer, where the solution is electrolyzed to produce caustic soda and chlorine. The concentration of the caustic soda solution produced at the cathode in the electrolyzer is approximately 32%. The solution is concentrated in a multiple effect evaporator to a product level of approximately 48%.
In the ion-exchange membrane method, one density meter is installed before the evaporator to control the steam temperature and pressure of the evaporator so that the concentration of the caustic soda is kept constant. Another density meter is installed after the evaporator for the purpose of controlling the product quality.
|Sampling system:||VD6SM- ☐☐☐ -P☐☐0-T☐☐0*B/FN|
|(provided by customer in some cases)|
DM8C converter/VD6D detector:
|Power supply (to converter):||90 to 132/180 to 264 V AC, 50/60 Hz|
|Power consumption:||20 VA|
- The vibration density measurement principle allows high accuracy and resolution.
- The structure is maintenance free.
- The detector is more compact compared to other manufactures'.
1. Process conditions
|Measurement point||Before evaporator||After evaporator|
|Temperature||70 to 80°C||150 to 170°C|
|NaOH concentration||20 to 35%||40 to 48%|
|Density||1.25 to 1.35 g/cm³||1.4 to 1.5 g/cm³|
2. Relationship between concentration and density of caustic soda
(Source: International Critical Table)
(Example of removal of air bubbles)
- Literature data of the concentration and density characteristics of caustic soda are mostly based on a NaOH solute only. The characteristics may change if the solution contains solutes other than NaOH. For the conversion of density to concentration, make a calibration curve by using the actual sample.
- Air bubbles in a sample solution may interfere with accurate measurement. Take appropriate measures to remove them, if necessary.
- Measured liquid temp. should be cooled down less than 100°C, because after evaporator temp. may be more than 100°C.
|Temperature at inlet:||0 to 100°C|
|Pressure at inlet:||0 to 2 MPa|
|Flow range:||1 to 10 l/min|
|Differential pressure between inlet and outlet: 100 kPa or mor|
Chemia specjalistyczna i wysokowartościowa
Yokogawa has long served customers in the specialty and fine chemicals market. With a market leading batch solution that offers the best in class reliability and flexibility as well as industry experts who understand the complex requirements in designing a batch solution, you can be assured that in your partnership with Yokogawa you will have a system that will enable you to produce products that meet your customers’ needs in the future while maintaining safety and regulatory compliance.
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Powiązane produkty i rozwiązania
Liquid Density Analyzer DM8C, VD6
The DM8 liquid density analyzer measures liquid density of general process liquids with high sensitivity and excellent stability. It has a measuring density range of 0 to 2.0 g/cm3, and unaffected by flow rate and viscosity. Besides general-purpose sensor, sanitary and explosionproof sensor are also available.
Systemy analizy wieloparametrowej Yokogawy oraz technologie konfokalne z podwójnym wirującym dyskiem zapewniają szybkie i wysokiej rozdzielczości obrazowanie żywych komórek, umożliwiając prowadzenie najnowocześniejszych badań na całym świecie.
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