Down-streaming Small-Scale Green Ammonia to Nitrogen-Phosphorus Fertilizer Tablets for Rural Communities

Q1 Multidisciplinary Emerging Science Journal Pub Date : 2024-04-01 DOI:10.28991/esj-2024-08-02-016
R. Koestoer, Tri Ligayanti, S. Kartohardjono, Harris Susanto
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Abstract

This study aims to evaluate the growth and production of sweet corn plants in response to the application of commercial NPK fertilizer and various doses of nitrogen-phosphorus fertilizer tablets. From early October 2022 to late January 2023, research was conducted at Research and Development Luas Birus Utama to produce nitrogen-phosphorus fertilizer tablets and at Research and Development Syngenta Indonesia Cikampek Station, Karawang, to perform a semi-field analysis. A factorial randomized block design with two treatment factors was employed in this study. The first factor was five types of nitrogen-phosphorus fertilizer tablets, namely, A (0% nitrogen and 6.3% phosphorus), B (0.81% nitrogen and 6.3% phosphorus), C (1.57% nitrogen and 6.1% phosphorus), D (2.33% nitrogen and 6.2% phosphorus), and E (3.06% nitrogen and 6.2% phosphorus). The second factor was F (standard nitrogen, phosphorus, and potassium). The results revealed that applying different dosages of nitrogen-phosphorus fertilizer tablets in combination with potassium chloride fertilizer yielded no different effect on the growth, biomass, and yield components of sweet corn plants when compared to applying NPK fertilizer. A comparison between the soil test results before and after application revealed that the formulation of fertilizers in tablet form helps plants to effectively absorb the required nutrients. It is currently possible to develop small-scale or microscale green ammonia production technology to fulfill the fertilizer requirements of rural communities because of its low cost, low carbon emissions, and low renewable energy consumption. The scarcity of fertilizer supplies endangers Indonesia’s food sustainability. Nitrogen-phosphorus fertilizer tablet production technology can be used in areas with a scarcity of inorganic fertilizers but with the potential for low-grade phosphate mines using commercial ammonia solutions. Thus, understanding how to produce nitrogen-phosphorus fertilizer tablets from ammonia solution will aid in the acceptance of microscale green ammonia production technology. Doi: 10.28991/ESJ-2024-08-02-016 Full Text: PDF
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将小规模绿色氨水下流为农村社区的氮磷化肥片剂
本研究旨在评估甜玉米植株的生长和产量对施用商业氮磷钾肥料和不同剂量氮磷钾肥片的反应。2022 年 10 月初至 2023 年 1 月底,研究人员在 Luas Birus Utama 研发中心生产氮磷肥片,并在卡拉旺的先正达印尼 Cikampek 研发站进行半田间分析。本研究采用了具有两个处理因子的因子随机区组设计。第一个因子是五种氮磷肥片,即 A(0% 氮和 6.3%磷)、B(0.81% 氮和 6.3%磷)、C(1.57% 氮和 6.1%磷)、D(2.33% 氮和 6.2%磷)和 E(3.06% 氮和 6.2%磷)。第二个因子是 F(标准氮、磷和钾)。结果表明,与施用氮磷钾肥相比,施用不同剂量的氮磷钾肥片和氯化钾肥料对甜玉米植株的生长、生物量和产量成分没有不同的影响。通过比较施肥前后的土壤检测结果发现,片剂肥料配方有助于植物有效吸收所需的养分。目前,开发小规模或微型绿色氨生产技术以满足农村社区的肥料需求是可行的,因为这种技术成本低、碳排放少、可再生能源消耗低。化肥供应稀缺危及印尼粮食的可持续发展。氮磷化肥片剂生产技术可用于无机肥料匮乏但有可能使用商业氨溶液开采低品位磷酸盐矿的地区。因此,了解如何用氨溶液生产氮磷化肥片剂将有助于接受微型绿色氨生产技术。Doi: 10.28991/ESJ-2024-08-02-016 全文:PDF
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来源期刊
Emerging Science Journal
Emerging Science Journal Multidisciplinary-Multidisciplinary
CiteScore
5.40
自引率
0.00%
发文量
155
审稿时长
10 weeks
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