The Release of Fertilizer on Corncob Cellulose – Based Acid-Acrylamide Hydrogel Prepared by Chemical Cross-Binding Method

Renda Amalia Anggraini, M. Kurniati, C. Winarti, I. Irmansyah
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Abstract

Farmers' knowledge of the amount and dosage of fertilizers recommended for a practical fertilization system is low. As the result, the plant does not fully absorb the given fertilizer. Some fertilizers are leached by the flowing water and wasted into the soil layer. In long term basis, this practice can cause environmental pollution, especially on the land, water and air. Due to this fertilization problem in agriculture practice, a material with a high-water absorption capacity, which further releases it together with the fertilizer over a desirable period of time, is needed. One way to effectively provide water and nutrients to the plants and improve the physical and chemical properties of the fertilizzer is by the application of hydrogel. In this work, the release of urea fertilizer in a hydrogel-based on corncob cellulose was prepared using N, N'-Methylene Bis-acrylamide (MBA) as a crosslinker was studied. This research aims to produce a hydrogel with good physical and mechanical properties using acrylamide based on corn cobs cellulose and can be applied as a fertilizer carrier matrix whose structure can regulate fertilizer release. The treatments tested were MBA concentrations of 0%, 1%, and 2%, while the ratio of cellulose: solvent was 1: 2 and the addition of urea fertilizer with a concentration of 5%. The results showed that the swelling value increased with increasing acrylamide in the treatment ratio of the concentration of cellulose: acrylamide-acrylamide (NS: AAm). Fertilizer factors also gave a good swelling value. This shows that the addition of fertilizers gives maximum results. The hydrogel with the best treatment, namely the concentration ratio of 1% MBA, produced a swelling value of 7633.3%, a gel fraction of 76.51%, 1.73 miligram fertilizer loading, fertilizer release by 2.9%, a hardness of 7,865 N, with the morphology showing urea crystals in the form of white spots and showing the results of a slow but optimum release rate of fertilizer so that it can be applied for agriculture that requires a lot of nutrients at the beginning of growth.Keywords: corncorb; cellulose; hydrogel; N’,N’-Methylene Bis-acrylamide (MBA), slow released fertilizer
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化学交联法制备玉米芯纤维素基酸-丙烯酰胺水凝胶对肥料的释放
农民对实用施肥系统所推荐的肥料数量和用量的了解很少。结果,植物不能完全吸收所施的肥料。有些肥料被流水滤出,浪费在土层中。长期来看,这种做法会造成环境污染,特别是对土地、水和空气的污染。由于农业实践中的施肥问题,需要一种具有高吸水能力的材料,它可以在理想的时间内将其与肥料一起进一步释放。有效地为植物提供水分和养分并改善肥料的物理和化学特性的一种方法是应用水凝胶。以N, N'-亚甲基双丙烯酰胺(MBA)为交联剂,制备了玉米芯纤维素水凝胶,研究了尿素在水凝胶中的释放。本研究旨在以玉米芯纤维素为基础,利用丙烯酰胺制备具有良好物理力学性能的水凝胶,其结构可以调节肥料的释放,可作为肥料载体基质。MBA浓度为0%、1%和2%,纤维素与溶剂的比例为1:2,尿素肥料浓度为5%。结果表明:在纤维素:丙烯酰胺-丙烯酰胺(NS: AAm)浓度处理比下,膨胀值随丙烯酰胺浓度的增加而增大;肥料因素也给予了良好的膨胀值。这表明,添加肥料的效果最大。最好的水凝胶治疗,即1%的浓度比MBA,产生膨胀值的7633.3%,76.51%的凝胶分数,加载1.73毫克肥料,肥料释放2.9%,硬度为7865 N,形态学显示尿素晶体形式的白色斑点,缓慢但结果最优肥料的释放率,这样就可以将申请农业需要大量的营养物质开始增长。关键词:corncorb;纤维素;水凝胶;N′,N′-亚甲基双丙烯酰胺(MBA),缓释肥料
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