Irrigation filter system, how much do you know about it

Background:

Knowing how to filter irrigation water can have a major impact on crop quality and overall farming activity. As all growers know, good irrigation is critical to crop success, yet many inadvertently overlook the quality of water that actually reaches the roots of each plant. In order to plan successfully, it is essential to understand how irrigation water is filtered and how an agricultural water irrigation filter system can positively impact your farming operation.

What is an irrigation filter system?

If you have questions about how to filter your irrigation water, agricultural irrigation filter systems are the answer. There are several types of systems in this niche, each offering beneficial results, but the overall goal is to provide clean, fresh water for your crops and other growing needs. These systems use sand, gravel, screens, discs, and even chemicals to filter out unwanted particles.

Types of Agricultural Water Filtration Systems

1.Sand. Sand filtration is one of the oldest known forms of water filtration, dating back to the Roman Empire, to remove tiny particles and prepare water for human consumption.

2.Media. Resins, chemicals and carbon steel are used to filter particles and produce clean water for common agricultural irrigation systems.

3.Gravel. Crushed granite, silica and basalt help filter the water and again remove unwanted particles, making the water clean and usable for agriculture.

4.Screen. These screens use a woven mesh made of stainless steel, polypropylene, polyester, and nylon to filter out unwanted elements.

5.CD. Circulating the water through several slotted discs enables the water to pass through various filter checkpoints designed to remove particles of different sizes.

Drip irrigation filter

The filter system in the irrigation sand filter is composed of one or more standard high-speed filter units. The raw water passes through the internal water tank and the filter layer collector. The filter layer medium is used to effectively remove suspended solids and reduce the turbidity of the water (such as loading specific filter materials such as activated carbon, anthracite, etc., can also adsorb and remove the corresponding organic matter and harmful ion).

The filter is widely used in agricultural irrigation, industrial water, steel industry, electric power, food, parks and other industries.

How can learning how to filter irrigation water help improve crop quality?

First, it’s not just about crop quality. In many regions with harsh climatic conditions, improving water quality for agricultural operations can improve both crop numbers and the overall quality and yield of each plant. Preventing crop loss is critical, and improving the cleanliness of irrigation water can help make this happen.

But particulate filters are of limited use, and the use of chemicals is increasingly frowned upon. To address these issues, the use of ultraviolet (UV) sterilizers is becoming a popular solution that aligns with the goals of sustainable agriculture and more natural crop growth. UV water sterilizers destroy harmful bacteria, pathogens, viruses, diseases and other microorganisms that may be detrimental to healthy crop growth but cannot be removed by using a simple mesh filter. As part of an agricultural water filtration system, UV sterilizers will enable farmers to provide their crops with the highest quality water through various irrigation methods.

Best way to irrigate to get the most out of agricultural water filtration systems

Precision drip irrigation is by far the most efficient form of irrigation in agriculture. By delivering water directly to the roots of each plant, farmers are able to reduce overconsumption through evaporation and overspray. Combined with a UV water sterilizer, crops can grow to their full potential in dry or challenging conditions.