Synthesis and Characterization of SRF Fertilizer using a Mixture of Urea and Bentonite Clays

Jurnal Kimia Pub Date : 2023-01-31 DOI:10.24843/jchem.2023.v17.i01.p01

K. Pangestu, P. Suarya, I. A. G. Widihati

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Abstract

ABSTRAK Penggunaan pupuk nitrogen secara berlebihan mengakibatkan pencemaran lingkungan serta merusak kondisi tanah. Penelitian ini bertujuan untuk membuat pupuk slow release fertilizer (SRF) mengunakan formula campuran lempung bentonit dengan urea. Sintesis pupuk SRF mengunakan metode pencampuran padat-cair dengan mengelusikan senyawa urea ke dalam 20 g lempung bentonit dengan variasi massa urea sebesar 10, 20, 30, 40, dan 50 g. Karakterisasi terhadap hasil sintesis pupuk SRF dilakukan dengan FTIR dan metode Kjeldahl. Spektra FTIR menunjukkan adanya vibrasi dari gugus fungsi N-H, C=O, dan C-N yang menjadi penyusun pupuk urea pada bilangan gelombang 3506.59, 1691.57, dan 1176.58. Kadar nitrogen yang terkandung dalam pupuk SRF di analisis dengan metode Kjeldhal dan didapatkan kadar nitrogen tertinggi sebesar 13.35 g/100g, dengan komposisi lempung bentonit 20 g dan 50 g pupuk urea. Kata kunci: lempung bentonit, slow release fertilizer, urea. ABSTRACT Excessive use of nitrogen fertilizers causes environmental pollution and damages soil conditions. This research aimed to synthesis a slow release fertilizer (SRF) using a mixture of bentonite clay with urea. The synthesis of SRF using the solid –liquid method was carried out by eluting the urea fertilizer in the 20 g of bentonite clay with various masses of urea of 10, 20, 30, 40, and 50 g. The characterization of the SRF was done by FTIR and Kjeldhal methods. The FTIR spectra showed the presence of vibration of N-H, C=O, and C-N functional groups, which indicated the urea constituents, at the wave number of 3506.59, 1691.57, and 1176.58 cm-1. The nitrogen content in the SRF analyzed by the Kjeldhal method resulted in the highest value of 13.35 g/100g prepared with a composition of 20 g of bentonite clay and 50 g of urea fertilizer. Keywords: bentonite clay, slow release fertilizer, urea.

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尿素-膨润土复合SRF肥料的合成及性能研究

对氮肥的过度使用导致环境污染和土壤污染。这项研究的目的是使苯丙酮黏土与尿素混合配方结合使用慢释放肥料(SRF)。SRF肥料合成方法将尿素化合物分解成20克的苯丙酮粘土，其质量为10、20、30、40和50克。FTIR和Kjeldahl方法对SRF化肥合成的特性进行了描述。光谱FTIR指出，N-H - h - O - OSRF肥料的氮含量与Kjeldhal方法进行了分析，得到了最高的1335 g/100g液氮，共20 g粘土和50 g尿素。关键词:bentonit附加，缓慢释放fertilizer, urea。试样用氮气使环境污染和恶化条件。这项研究采用了苯乙醇(SRF)与尿素混合。SRF的合成器是用固体材料制成的——聚合酶以20克的苯铁矿和10、20、30、40和50克的尿素混合而成。SRF的性格塑造是由FTIR和kjeldini完成的。FTIR光谱呈现了N-H - C=O和C- n功能集由13.35克/100克的甲基方法分析的SRF中的氮含量。小舌:苯妥粘土，缓慢释放fertilizer, urea。

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Jurnal Kimia

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