Water Treatment in the Agriculture Sector
The purity of these waters, especially those used for growing plants, increases productivity. Considering the particles and microorganisms in groundwater and surface waters, it is very important to purify the water that will be preferred in irrigation processes. Most spring waters have many particles such as lime and clay. In addition, organisms, bacteria and many elements are also found in spring waters. The quality of water required by each plant also varies in this context. For this reason, the need for purification of water used in agriculture is very important as in all other production areas. If you want to have detailed information about water treatment systems that can be used in agriculture, you can reach us from our phone numbers on our website and you can find answers to all your questions.
What is Water Treatment in the Agriculture Sector?
In recent years, using water treatment systems in production areas is among the methods that both increase the quality of production and reduce the cost. After determining the water purity and mineral ratio required by each plant, it is very easy to make treatment water that meets these standards. Since there are different standards for each stage and each plant, it is necessary to choose a treatment method according to the needs. Agricultural water treatment systems include both membrane and chemical methods. Membrane systems are one of the methods used successfully in many fields. It works with the pressure method and is used to purify many minerals in the water. Ozone, on the other hand, is one of the leading chemical methods and is an effective method especially preferred to destroy organisms such as bacteria, viruses, microbes and fungi in water. You can always reach us on our phones to get information about the agricultural water treatment systems you need.
How is Water Treatment Done in the Agriculture Sector?
Especially iodine present in spring waters can be harmful to many plants. For this reason, the water used in plant irrigation processes must be free from salts. Reverse Osmosis method is rthe method ahead of the methods used for this purpose. Working with a membrane system, this water purification method performs the demineralization process by purifying not only the salt in the water but also the harmful minerals. This system ensures that the water passes through a semi-permeable membrane continuously with the help of pressure, and the deionization and demineralization processes are completed. Although there are many different treatment methods, membrane system methods are more preferred in terms of both cost and efficiency. Chlorination and ozonation systems are also widely preferred purification methods in agriculture. If filtering is applied before all these processes, it will be easier to purify and soften the obtained water.
Advantages of Water Treatment in Agriculture Sector
As in every sector, productivity is very important in the agricultural sector. The quality of the water, which is preferred especially for growing plants, is the most important point. For this reason, using the purified water needed by the plant is very important for both efficiency and production quality. At the same time, since the use of raw water in nature will be harmful for many plants, it is necessary to prefer treatment waters in the long rterms to ensure that the soil is healthy and quality standards are not deteriorated. You can contact us for detailed information about the agricultural water treatment systems you would like to use.
FREQUENTLY ASKED QUESTIONS
Are Chemical Water Treatment Systems Used in the Agriculture Sector?
Yes, such treatments systems are used. In particular, ozonation method is one of the necessary methods for the destruction of microorganisms in water.
Are Membrane System Water Treatment Methods Preferred in the Agriculture Sector?
Yes, they are preferred. Particularly in membrane systems, suspended solid substances, limne, clay etc. Particles are removeed from the water by means of filtering by pressure thereby producing pure water as a result of the process.