Aquatic Breeding Oxygenation

Aquatic Breeding Oxygen

Oxygenation system for fish farming and Aquatic Agriculture

 

Application advantages of aerogel intelligent atomizing core in fish culture and aquaculture oxygenation system

 

Abstract

This paper focuses on the significant advantages of aerogels as intelligent atomizing cores made of new nanoporous materials in fish farming and aquaculture oxygenation systems. The production of nano-scale bubbles to improve the level of water-soluble oxygen, low power consumption characteristics, sustainable energy drive, cloud data acquisition and GPS positioning to achieve intelligent management, etc., to provide a theoretical basis for promoting the efficient and green development of modern aquaculture industry.

 

Introduction

In fish culture and aquaculture, maintaining sufficient dissolved oxygen in water body is the key to ensure healthy growth of fish and increase breeding density and yield. The traditional oxygenation system has some limitations, but the application of new materials and technologies has brought an opportunity for the innovation of oxygenation system. Aerogel intelligent atomizing core, as an innovative achievement, is gradually emerging in the field of aquatic oxygenation.

 

The advantages of aerogel intelligent atomizing core in oxygen adding system

1. Produce nanoscale bubbles to improve water-soluble oxygen and fish growth density

The unique nanoporous structure of aerogel enables the intelligent atomization core made of aerogel to produce nanoscale bubbles. These tiny bubbles have a large specific surface area, rise slowly in the water, and have a long contact time with the water body. When nanoscale bubbles are incorporated into the water, they can efficiently transfer oxygen from the air to the water, significantly increasing the level of water-soluble oxygen. Research shows that the water body using aerogel intelligent atomizing core oxygenation system can increase the dissolved oxygen saturation by [X]% compared with the traditional oxygenation method. Sufficient dissolved oxygen provides a better living environment for fish, accelerates fish metabolism, enhances its appetite and digestive ability, and thus promotes the rapid growth of fish. At the same time, the high dissolved oxygen environment reduces the risk of fish disease, improves the breeding density, significantly increases the breeding output per unit of water, and brings higher economic benefits to farmers.

 

2. Low power consumption reduces operating costs

The aerogel intelligent atomizing core exhibits low power consumption during operation. Compared with traditional oxygen equipment, its energy consumption is greatly reduced. This is due to the special physical properties of the aerogel material and the optimal design of the intelligent atomization core, which reduces the loss of energy in the conversion and transmission process. Low power consumption means that farmers spend significantly less on electricity in the long run. According to the actual case analysis, the farm using the aerogel intelligent atomization core oxygen system can save [X]% of the annual electricity bill, effectively reduce the burden of breeding costs, and improve the profitability of the breeding industry.

 

3. Sustainable energy drive, help green development

Combined with a small air pump motor, the aerogel intelligent atomizing core oxygenation system can be operated by sustainable solar cells. As a clean energy, solar energy has the characteristics of renewable and pollution-free. The use of solar cells to power the oxygen feeding system not only solves the problem of inconvenient power supply in remote farming areas, but also avoids environmental pollution and carbon emissions caused by traditional energy generation. In sunny areas, solar cells can fully collect solar energy and convert it into electricity for continuous power supply for small air pump motors to ensure the stable operation of the oxygen feeding system. This sustainable energy driven model is in line with the global green development trend and promotes the aquaculture industry to move towards a more environmentally friendly and sustainable direction.

4. Cloud data acquisition and GPS positioning to achieve intelligent management

With the help of the Internet of Things technology, the aerogel intelligent atomizing core oxygenation system has the function of data acquisition through the cloud. Sensors monitor key parameters such as dissolved oxygen content, temperature, pH in the water in real time and upload the data to the cloud. Farmers can obtain these data anytime and anywhere through mobile phone apps or computer terminals, and timely grasp the real-time status of aquaculture water. At the same time, the GPS precise positioning system can accurately locate the oxygenating equipment. Based on the location data and the collected environmental parameters, the intelligent algorithm is used to realize the remote control of the oxygenating equipment. For example, when the dissolved oxygen content of water in a certain area is lower than the set threshold, the system automatically adjusts the working intensity and time of the oxygenating equipment to achieve accurate oxygenation, improve energy utilization efficiency, reduce equipment loss, and improve the intelligent level of aquaculture management.

 

Conclusion

Aerogel, as an intelligent atomizing core made of new nanoporous materials, has brought many innovative benefits to fish farming and aquaculture oxygenation systems. From the promotion of water-soluble oxygen to promote fish growth, to low power consumption to reduce costs, sustainable energy utilization and intelligent management, it has promoted the modernization of the aquaculture industry. With the continuous improvement and promotion and application of related technologies, aerogel intelligent atomizing core oxygenation system is expected to become the mainstream technology of aquaculture oxygenation in the future, and play an important role in ensuring the global supply of aquatic products and promoting the green and sustainable development of aquaculture industry.