HOME / our product / Liquid Urea
Our methodology is our quality stack that we offer to our clients. With each stride precisely crafted to convey best results amid the complete improvement procedure is the thing that makes us unique in relation to others.
Nano Fertilizer is a new innovation from Arihant that has nanoparticles. Nanoparticles are basically particles of the minutest of the sizes. The size of nanoparticles is generally measured in terms of Nanometers, which, for common understanding, is 1 cm divided into 1 crore parts. The nanoparticles in Nano Fertilizer are usually of the size of about 100 nanometers. This facilitates a greater uptake of the much needed nitrogen. The plants absorb the 44% nitrogen present in Liquid Urea and unutilized portions of the same are stored in certain parts, to be absorbed as and when needed. The nanoparticles, given their minute size, help increase the Liquid Urea availability to crops by almost 80%.
Liquid urea fertilizer solutions and fluid fertilizers are popular in many areas because they’re safe to handle, convenient to mix with other nutrients and chemicals, and are easily applied. Liquid Urea containing 44 percent nitrogen (N) is the most popular fluid N fertilizer.
Solutions of Liquid Urea are extremely versatile as a source of plant nutrition. Its chemical properties, make Liquid Urea compatible with many other nutrients and agricultural chemicals, so its frequently mixed with solutions containing phosphorus, potassium and other essential plant nutrients. Fluid fertilizers can be blended to precisely meet the specific needs of a soil or crop.
Liquid Urea solutions are commonly injected into the soil beneath the surface, sprayed onto the soil surface, dribbled as a band onto the surface, added to irrigation water, or sprayed onto plant leaves as a source of foliar nutrition
Nitrogen plays the most important role in the world of plants. It is an essential nutrient to create plant mass and, therefore, appears in many fertilizers.
When Liquid Urea is first applied to soil, the urea and the NO₃- molecules will move freely with water in the soil. The NH₄+ will be retained in the soil where it first contacts cation exchange sites on clay or organic matter. Within two to 10 days, most of the urea will be converted to NH₄+ and no longer be mobile. The originally added NH₄+ plus the NH₄+ coming from urea will eventually be converted to NO₃- by soil microorganisms.