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| Study on Preparation and Performance of Phosphate ModifiedUrea Formaldehyde Slow-controlled Release Fertilizer |
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| DOI:10.16768/j.issn.1004-874X.2022.02.007 |
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| Abstract: |
| 【Objective】The nutrient release cycle of urea-formaldehyde (UF) slow-release fertilizer is
too long, usually up to 1-2 years, which is not conducive to the full absorption of nutrients by crops. In order to
shorten the nutrient release cycle of UF, the phosphate was used to modify UF in order that the nutrient release of
the prepared slow-controlled release fertilizer was more suitable for the law of crop growth.【Method】With the
combination of solution polymerization and in-situ extrusion technology, in the process of generating UF, phosphates
(calcium dihydrogen phosphate MCP, ammonium dihydrogen phosphate ADP and phosphate rock powder PRP)
were interspersed between the formed UF macromolecular chains. A new type of slow-controlled release fertilizer
containing nitrogen and phosphorus nutrients was prepared. The structure and functional groups of the fertilizer were
characterized and analyzed by means of TG, XRD and FTIR, and the changes in the surface element valence state of
the fertilizer were studied by XPS.【Result】ADP had the best dispersibility in the UF matrix and the greatest damage to the intermolecular hydrogen bonds of UF. After being treated for 90 days, the cumulative nitrogen release rates of UF,
MCP-modified UF (MCP-UF), ADP-modified UF (ADP-UF) and PRP-modified UF (PRP-UF) were 68.46%, 76.47%,
80.45% and 78.17%, respectively, which increased by 7.15%, 10.20%, 9.1%, and 10.83% respectively compared with
those at 42 d. In summary, the addition of phosphate reduced the crystallinity of the modified slow-controlled release
fertilizer, and the nitrogen and phosphorus nutrients showed an excellent slow-release effect.【Conclusion】Slow�controlled release fertilizers MCP-UF, ADP-UF and PRP-UF were prepared. The addition of phosphate to UF improves
the release of nitrogen and phosphorus nutrients, making it more suitable for crop growth, which is conducive to the large�scale in dustrial production of fertilizers. |
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