What is the effect of ozone on aquaculture
In aquaculture, oxygen source ozone machines can be used for disinfection and sterilization of biological eggs, breeding water, machinery and equipment to prevent the invasion of pathogens. Ozone has strong sterilization, disinfection, and sewage purification effects, and is non-toxic and harmless. It is a satisfactory sterilization and purification agent in aquaculture and pre seedling production. It plays a crucial role in preventing biological diseases and pests such as fish, shrimp, eels, river crabs, and wild turtles, and improving the ecological environment protection of aquaculture. In summary, the application of ozone generators in aquaculture can greatly save breeding costs and cultivate low-carbon and environmentally friendly ingredients.
In aquaculture, ensuring the accuracy of ozone dosage depends on the mixing method and hourly treatment water volume. Firstly, it is necessary to determine the ozone addition process based on the process flow of the breeder, which usually includes aeration in the reservoir, addition to nitrogen or oxygen cones, or the use of a jet generator. The ratio of ozone to water varies for each method, and ozone is generally prepared based on the hourly treatment water volume. 1 gram of ozone is usually mixed with 2-6 tons of water, and the concentration of water in this ratio can reach 0.3-0.5 ppm, which can effectively kill bacteria and is relatively safe.
In aquaculture, the dosage of ozone needs to be determined based on specific circumstances. The following are some common reference values for ozone dosage:
Freshwater aquaculture: Add 1-2 grams of ozone per cubic meter of water, treat at a concentration of 0.1-0.3mg/L for 5-10 minutes, and then aerate to an ozone concentration below 0.003mg/L to use as feed and breeding water.
Seawater aquaculture: Add 1-3 grams of ozone per cubic meter of water, treat at a concentration of 0.1-0.5mg/L for 5-10 minutes, and then pass through an activated carbon tank to an ozone concentration below 0.003mg/L, which can be used as feed and breeding water.
In practical applications, it is recommended to make appropriate adjustments and optimizations based on factors such as the type of aquaculture organisms, water quality conditions, and equipment performance.
In aquaculture, the use of oxygen source ozone machines usually includes the following steps
1. Equipment installation: Install the ozone machine in a suitable position to ensure good ventilation.
2. Setting parameters: Based on the size and water quality of the aquaculture water body, set an appropriate amount and time for ozone production.
3. Gas source connection: Connect the oxygen source to the ozone machine to ensure stable gas supply.
4. Run the ozone machine: Start the ozone machine to start producing ozone.
5. Ozone introduction into water bodies: The generated ozone is introduced into aquaculture water bodies through appropriate means.
6. Action time control: Control the action time of ozone in water to achieve effective disinfection and purification effects.
7. Monitoring water quality: Regularly monitor water quality, including dissolved oxygen, ammonia nitrogen, nitrite and other indicators.
8. Adjust the frequency of use: Adjust the frequency of use of the ozone machine based on changes in water quality and aquaculture needs.
9. Maintenance of equipment: Regular maintenance and upkeep of the ozone machine to ensure its normal operation.
In aquaculture, ensuring the accuracy of ozone dosage depends on the mixing method and hourly treatment water volume. Firstly, it is necessary to determine the ozone addition process based on the process flow of the breeder, which usually includes aeration in the reservoir, addition to nitrogen or oxygen cones, or the use of a jet generator. The ratio of ozone to water varies for each method, and ozone is generally prepared based on the hourly treatment water volume. 1 gram of ozone is usually mixed with 2-6 tons of water, and the concentration of water in this ratio can reach 0.3-0.5 ppm, which can effectively kill bacteria and is relatively safe.
In aquaculture, the dosage of ozone needs to be determined based on specific circumstances. The following are some common reference values for ozone dosage:
Freshwater aquaculture: Add 1-2 grams of ozone per cubic meter of water, treat at a concentration of 0.1-0.3mg/L for 5-10 minutes, and then aerate to an ozone concentration below 0.003mg/L to use as feed and breeding water.
Seawater aquaculture: Add 1-3 grams of ozone per cubic meter of water, treat at a concentration of 0.1-0.5mg/L for 5-10 minutes, and then pass through an activated carbon tank to an ozone concentration below 0.003mg/L, which can be used as feed and breeding water.
In practical applications, it is recommended to make appropriate adjustments and optimizations based on factors such as the type of aquaculture organisms, water quality conditions, and equipment performance.
In aquaculture, the use of oxygen source ozone machines usually includes the following steps
1. Equipment installation: Install the ozone machine in a suitable position to ensure good ventilation.
2. Setting parameters: Based on the size and water quality of the aquaculture water body, set an appropriate amount and time for ozone production.
3. Gas source connection: Connect the oxygen source to the ozone machine to ensure stable gas supply.
4. Run the ozone machine: Start the ozone machine to start producing ozone.
5. Ozone introduction into water bodies: The generated ozone is introduced into aquaculture water bodies through appropriate means.
6. Action time control: Control the action time of ozone in water to achieve effective disinfection and purification effects.
7. Monitoring water quality: Regularly monitor water quality, including dissolved oxygen, ammonia nitrogen, nitrite and other indicators.
8. Adjust the frequency of use: Adjust the frequency of use of the ozone machine based on changes in water quality and aquaculture needs.
9. Maintenance of equipment: Regular maintenance and upkeep of the ozone machine to ensure its normal operation.
