Oxygen is soluble in water and the solubility depends on the temperature, the total pressure on the surface of the water, the partial pressure and the dissolved salts in the water. The higher the atmospheric pressure, the greater the ability of water to dissolve oxygen. The relationship is determined by Henry's law and Dalton's law. Henry's law states that the solubility of gas is proportional to its partial pressure.
Taking the COS4 oxygen measuring sensor as an example, the electrode consists of a cathode (usually made of gold and platinum), a current-carrying counter electrode (silver), and a current-free reference electrode (silver). The electrode is immersed in an electrolyte such as KCl, In KOH, the sensor is covered by a diaphragm that separates the electrode and electrolyte from the liquid being measured, thus protecting the sensor, preventing electrolytes from escaping, and preventing the intrusion of foreign substances, resulting in contamination and poisoning.
On the other hand, the polarisation voltage is applied between the electrode and the cathode. If the measuring element is immersed in water with dissolved oxygen, oxygen diffuses through the membrane and the oxygen molecules present at the cathode (excess electrons) are reduced to hydroxide ions:
O2 2H2O 4e- 4OH-.
Electrochemically equivalent silver chloride precipitates on the counter electrode (electron deficiency): 4Ag 4Cl- 4AgCl 4e-. For each oxygen molecule, the cathode emits 4 electrons. The counter electrode receives electrons and forms a current. The magnitude of the current is proportional to the oxygen partial pressure of the sewage to be measured. This signal is sent along with the temperature signal measured by the thermal resistance of the sensor. The transmitter calculates the oxygen content in the water by using the relationship curve between the oxygen content, oxygen partial pressure, and temperature stored in the sensor, and then converts it into a standard signal output. The function of the reference electrode is to determine the cathode potential. The response time of the COS4 DO sensor was 90% of the final measurement after 3 minutes, and 99% of the final measurement after 9 minutes; the minimum flow rate requirement was 0.5 cm/s.
Industrial Powder Grinder Machine
The coarse pulverizer machine is mainly applicable for pharmacy, chemical and foodstuff industry. It specially grind hard and solid material, such as plastic, copper wires, discarded tire and so on. It also can be used as the corollary equipment for fine grinding process.The fineness (size) of output material can be controlled by sieve (shifter).
Features/Equipment characteristics
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