Iranian Company Produces Nanobubble System to Increase Agricultural Productivity
12:50 - March 08, 2023

Iranian Company Produces Nanobubble System to Increase Agricultural Productivity

TEHRAN (ANA)- An Iranian technological company manufactured a nanobubble system that can increase agricultural productivity by 20 percent.
News ID : 1874

The system has reduced energy consumption and investment by around 50 percent and 30 percent in water and sewage treatment plants, respectively.

As well as their impact on growth hormones and nutrient absorption genes, nanobubbles, due to hydrophobic and surface charge properties, enhance the release and absorption of soil nutrients, thereby reducing fertilizer demand.

The technology’s distinguishing feature is that it increases the productivity and efficiency of various systems.

It can improve efficiency in agriculture, water, oil and gas, fisheries, and food industries by improving the efficiency of mixing water and liquids.

The properties of nanobubbles can be affected by their size, so controlling the dimensions is very important.

The company has the possibility to produce nanobubbles based on the needs of each industry so that nanobubbles can be used in the same industry.

Mixing gases in liquids is one of the big challenges in the industry. If a gas can be kept in a liquid, the interesting properties of that liquid can be used in the industry.

When the size of the bubbles reaches 100 nm, they do not come out of the water, and as a result, the gas remains in the liquid and is dispersed in an ideal way.

For example, in water and wastewater treatment plants there is a section for aeration in order to provide the necessary oxygen for water-purifying microorganisms.

The existing systems that are used are imported and there are problems such as supplying parts and receiving services for water and sewage companies.

This technology has also the advantage of reducing investment costs by 30 percent. Another advantage of this technology is the possibility of being produced on large industrial scales.

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