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Agricultural Water Treatment Systems

Agricultural Water Treatment Systems

Various methods have been used to classify salinity in irrigation water, but these classifications are not absolute for the following reasons:

■ There is no clear relationship between salt composition and concentration in irrigation water. In general, the salinity of the water in the soil varies between 2 and 10 times the salinity of the irrigation water.

■ Plants vary greatly in both overall salt tolerance and specific ion toxicity.

■ Climatic conditions such as precipitation, temperature, relative humidity, soil type and irrigation process affect the relationship between plants and irrigation water quality.

■ Relationships between compounds in irrigation water are also important. The effect of an ion can be altered by the presence of another ion. Examples of interrelationships include calcium and sodium, boron and nitrate, and selenium and sulfate.

■ Due to the above factors, it is not possible to clearly state the salinity limit of the irrigation water. The four most important criteria in determining the quality of irrigation water are listed below.


1. Total concentration of soluble salts,
2. the ratio of sodium ions to other cations,
3. Specific ion concentration
4. The relationship between bicarbonate ion concentration and calcium magnesium concentration under certain conditions

3.1. Total concentration of soluble salts
Since there is a linear relationship between the amount of salt in the water and the electrical conductivity of the water and the electrical conductivity can be easily measured, the electrical units of water quality according to salinity are expressed in dS/m. = mS/cm or mmhos/cm, micromohs/cm. mmhos/cm and micromhos/cm are now obsolete units. Most water successfully used in irrigated agriculture has an electrical conductivity of less than 2,250 mS/cm.
3.2 Relative ratio of sodium ions to other cations
The ratio of sodium ions to other cations in the water, especially the amount of calcium and magnesium, also has a significant effect on the quality of irrigation water. This rate is called the sodium adsorption rate (SAR). 3.3 Specific Ionic Concentration The total salt concentration of irrigation water generally affects the rate of water use by plants due to the osmotic pressure that plants create during soil dissolution. It also has properties that affect plant growth independent of the osmotic pressure of the melt. This feature is the toxic (harmful) effect of some ions in the water. The table below lists toxic ions and their concentrations that may be harmful with prolonged use.

How does agricultural water purification work?

If there is too much salt in the water used in agriculture, the water absorption of the plant roots decreases and the plant dies. Therefore, salinity of water used for agricultural purposes should be investigated. You can improve the quality of the water by adjusting the salt content. Since there is no soil in soilless agriculture, plants get all the vitamins and minerals they need from the water, so the quality of the water is very important. There should be no bacteria and microbes in the water, and the minerals should be balanced.
If these conditions are met, high quality results can be obtained by using the efficiency of soilless agriculture. Reverse osmosis or ultrafiltration is generally preferred in agricultural water treatment systems used in soilless agriculture. With reverse osmosis, water values are optimized and membrane filters are used in this system, which also makes it possible to reuse water. By developing sea water treatment technologies, agriculture can be done by purifying sea, river or well water in agricultural water treatment systems. You can get information about agricultural water treatment systems by meeting with our expert teams and discussing the solutions we offer according to your needs.

What is the purpose of agricultural water treatment?

Agriculture is one of the most developed sectors of our country. Unconscious irrigation in agriculture consumes more water than necessary, reduces water resources and makes the soil unproductive. Drip irrigation is a good way to avoid unnecessary water. It prevents unnecessary watering and does not damage the soil, it provides the necessary water to the plants. Agricultural water treatment systems, on the other hand, provide the opportunity to make more efficient agriculture by capturing the required water quality. It reduces the salinity of the water and removes all the substances that can harm the plants from the water. You can get information about affordable options by calling us for the treatment systems needed to use quality water in agriculture.
Benefits of agricultural water treatment
Agricultural water treatment systems offer you many benefits. Agricultural water treatment systems used in soilless agriculture ensure controlled plant growth and greatly increase yield. While it saves water, it also removes all harmful substances in the water. Thus, there is no need for fertilizers and pesticides. The resulting products are of high quality. If you want to get information about agricultural water treatment systems, you can call our phone numbers.

Features of agricultural water treatment

Agricultural water treatment systems are a completely organic solution without chemicals to remove harmful organisms from water. As a result, dissolved oxygen to plant roots

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