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Strong Acid Base Titanium Alloy Hastelloy Conductivity Water Sensor 4 Pole

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Nanjing Juge Environmental Technology Co., Ltd.

City: nanjing

Country/Region:china

Tel:86-025-84930801

Contact Person:
Mr.Leon Chen
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Strong Acid Base Titanium Alloy Hastelloy Conductivity Water Sensor 4 Pole

Brand Name JUGE
Model Number AG3740ST
Place of Origin Nanjing, China
Certification IOS9001, CE
Minimum Order Quantity 1 Unit
Price USD50-500
Packaging Details Neutral carton
Delivery Time 5-8 working days
Payment Terms Online order,T/T
Supply Ability 100 Unit/Week
Conductivity Range 10~500000μS/cm
Electrode Mode 4-pole
Electrode Constant K≈0.5
Liquid Junction Material Titanium alloy or Hastelloy
Temperature Range 0~120℃
Pressure Rating 0~0.6MPa
Installation Interface NPT3/4
Detailed Product Description

Strong Acid Base Titanium alloy Hastelloy Conductivity TDS Salinity Sensor

 

>>Technical Parameter

Conductivity Range: 10~500,000 μS/cm
Electrode Mode: 4-pole
Electrode Constant: K≈0.5
Liquid Junction Material: Titanium alloy or Hastelloy
Temperature: 0-120°C
Pressure Resistance: 0-0.6 MPa
Temperature Sensor: PT1000
Installation Interface: NPT 3/4
Cable: Standard 10 m

 

>>Principle

Since water contains various dissolved salts that exist in the form of ions, when electrodes are inserted into the water and an electric current is applied, the charged ions move in specific directions under the influence of the electric field. The anions in water migrate toward the anode, enabling the aqueous solution to conduct electricity. The ability of water to conduct electricity is termed ‌conductivity‌.

Conductivity is the reciprocal of resistivity and reflects the total dissolved salt content in water, serving as a critical indicator for assessing water quality. It reveals the concentration of electrolytes present in water. Depending on the concentration of electrolytes in an aqueous solution, the degree of electrical conduction varies. By measuring the conductivity of a solution, the solubility of electrolytes can be analyzed. This forms the fundamental analytical principle of conductivity meters.

Conductivity exhibits significant temperature dependence. For metals, conductivity decreases with rising temperatures, whereas for semiconductors, it increases with temperature. In solid semiconductors, doping levels can drastically alter conductivity—higher doping concentrations result in greater conductivity.

The conductivity of aqueous solutions depends on the concentration of dissolved salts or other chemical impurities that dissociate into electrolytes. The conductivity of a water sample serves as a key metric for measuring its salt content, ionic components, and impurity levels. Lower conductivity (higher resistivity) indicates purer water.

Water conductivity is often recorded as ‌specific conductance‌, which represents the conductivity of water at a standardized temperature of 25°C.

 

>>Installation Diagram

Before use, unscrew the electrode protective cap and install it with the appropriate mounting bracket or accessories.

‌1. Sidewall Installation‌: Ensure the interface tilt angle exceeds 15 degrees.

‌2. Top Flange Installation‌: Note flange dimensions and electrode insertion depth.

‌3. Pipe Installation‌: Consider pipe diameter, flow velocity, and pressure.

‌4. Flow-Through Installation‌: Monitor flow velocity and pressure.

‌5. Submersion Installation‌: Adjust bracket length as needed.

Product Tags: Conductivity Water Sensor 4 Pole   Titanium Alloy Hastelloy Conductivity Water Sensor   4 Pole industrial conductivity probe  
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