水溶性农用聚磷酸铵的研究与应用进展
收稿日期: 2020-06-20
网络出版日期: 2020-12-15
基金资助
国家重点研发计划项目(2016YFD0300805)
Research and application progress of water-soluble agricultural ammonium polyphosphate
Received date: 2020-06-20
Online published: 2020-12-15
刘续 , 汤建伟 , 刘咏 , 化全县 , 王保明 . 水溶性农用聚磷酸铵的研究与应用进展[J]. 无机盐工业, 2020 , 52(12) : 7 -11 . DOI: 10.11962/1006-4990.2020-0079
Low polymerization degree water-soluble ammonium polyphosphate is a new type of high-concentration fertilizer,which has been widely welcomed in fertilizer research and agricultural applications in recent years because of the advantages of slow release,high efficiency,safety and easy compounding.The recent research progress in the synthesis methods and agri-cultural experiments of water-soluble agricultural ammonium polyphosphate were summarized.In addition,the application advantages of water-soluble agricultural ammonium polyphosphate in agricultural production and the related quality testing methods of fertilizers were discussed,and the hydrolysis mechanism of water-soluble agricultural ammonium polyphosphate in soil was briefly analyzed.The problems in the practical production and application of agricultural ammonium polyphosphate at present as well as the development direction were expounded.
Key words: ammonium polyphosphate; low degree of polymerization; fertilizer
[1] | Watanabe M, Sakurai M, Yamaguchi Y, et al. Phase transition of APP form Ⅰ to Ⅱ and synjournal of APP form Ⅱ from the fystem of ammo-nium orthophosphate-urea[J]. Phosphorus,Sulfur,and Silicon and the Related Elements, 1999,144(1):235-238. |
[2] | McBeath T M, Lombi E, McLaughlin M J, et al. Polyphosphate-fer-tilizer solution stability with time,temperature,and pH[J]. Journal of Plant Nutrition and Soil Science, 2007,170(3):387-391. |
[3] | 者加云, 罗勇, 谢德龙, 等. 聚磷酸铵的应用研究进展[J]. 塑料工业, 2019,47(2):1-5,36. |
[4] | 焦立强, 汤建伟, 化全县, 等. 聚磷酸铵的研发、生产及应用[J]. 无机盐工业, 2009,41(4):4-7. |
[5] | Thilo E. The structural chemistry of condensed inorganic phosphates[J]. Angewandte Chemie-International Edition, 1965,4(12):1061-1071. |
[6] | 王雪薇, 王冲, 褚贵新. 短链聚磷酸磷肥对土壤无机磷转化及铁锰锌有效性的影响[J]. 应用生态学报, 2018,29(9):2970-2978. |
[7] | 刘树春. 聚磷酸铵的生产和应用[J]. 磷酸盐工业, 2001(3):9-14. |
[8] | Gittenait M. Reaction of phosphoric acid, urea, and ammonia:US,3713802[P]. 1973-01-30. |
[9] | Young D C, Harbolt B A. Production of ammonium polyphosphates:US, 3949058[P]. 1976-04-06. |
[10] | McGill K E, Kerns O S. Update on curtain granulation of phosphates[J]. Fertilizer Research, 1990,25(2):179-181. |
[11] | Breed C E, McGill K E, Holt M T. Pilot-plant production of a concentrated ammonium polyphosphate suspension fertilizer[J]. Journal of Environmental Science and Health.Part A:Environmental Science and Engineering, 1986,21(6):609-623. |
[12] | 林明, 印华亮. 谈聚磷酸铵水溶液在液体肥料发展中的重要作用[J]. 企业科技与发展, 2014(5):12-14. |
[13] | 梅军, 钟矿, 张林锋, 等. 工业磷酸-尿素缩聚法制备低聚磷酸铵工艺研究[J]. 无机盐工业, 2019,51(4):48-50. |
[14] | 马凯, 马培华, 王金铭, 等. 一种由湿法磷酸生产聚磷酸铵的方法:中国,101613095[P]. 2009-12-30. |
[15] | 王瑶, 田娟, 汪东远, 等. 农用水溶性聚磷酸铵合成工艺条件研究[J]. 化肥工业, 2017,44(3):26-28. |
[16] | 胡海洋, 周贵云. 磷酸一铵生产农用聚磷酸铵工艺技术的研究[J]. 磷肥与复肥, 2018,33(6):12-14. |
[17] | 郎江华, 邓伏礼, 龙秉文, 等. 短链聚磷酸铵的制备与表征[J]. 化学与生物工程, 2019,36(5):66-68. |
[18] | 徐保明, 陈坤, 胡传群, 等 一种利用湿法磷酸生产农用多聚磷酸铵的方法:中国,108675275A[P]. 2018-10-19. |
[19] | 徐保明, 陈坤, 陈驰, 等 利用工业磷酸铵盐-氨气生产水溶性多聚磷酸铵的方法:中国,109279591A[P]. 2019-01-29. |
[20] | 张宝华. 水溶性聚磷酸铵制备工艺研究[J]. 石家庄学院学报, 2018,20(3):11-14. |
[21] | 熊陈杰, 刘琼. 微波辐射连续合成全水溶性聚磷酸铵[J]. 硫磷设计与粉体工程, 2015(5):17-18,19. |
[22] | 王辛龙, 杨升东, 许德华, 等 含螯合态中微量元素的水溶性聚磷酸铵及其制备方法:中国,109503236A[[P]. 2019-03-22. |
[23] | 高艳菊, 刘腾, 亢龙飞, 等. 聚磷酸铵肥料聚合度与聚合率测定方法比较[J]. 新疆农业科学, 2017,54(10):1822-1831. |
[24] | 谢汶级, 王辛龙, 许德华, 等. 不同pH对焦磷酸铵水解的影响[J]. 无机盐工业, 2019,51(10):28-31. |
[25] | 王蕾, 龚林, 邓兰生, 等. 不同温度和pH对聚磷酸铵水解的影响[J]. 磷肥与复肥, 2015,30(12):8-11. |
[26] | Yang S S, Chen Z B. The study on aging and degradation mecha-nism of ammonium polyphosphate in artificial accelerated aging[J]. Procedia Engineering, 2018,211(8):906-910. |
[27] | Lindsay W L, Frazier A W, Stephenson H F. Identification of reaction products from phosphate fertilizers in soils[J]. Soil Science Society Proceedings, 1962,26(5):446-452. |
[28] | Torres-Dorante L O, Claassen N, Steingrobe B, et al. Hydrolysisrates of inorganic polyphosphates in aqueous solution as well as in soils and effects on P availability[J]. Journal of Plant Nutrition and Soil Science, 2005,168(3):352-358. |
[29] | 陈小娟, 陈煜林, 林净净, 等. 不同聚合度的聚磷酸铵对土壤磷动态转化及有效性的影响[J]. 浙江农业学报, 2019,31(10):1681-1688. |
[30] | 杨依彬, 陈小娟, 邓兰生, 等. 不同形态聚磷酸铵种肥同播对大豆、小麦生长及养分累积的影响[J]. 广东农业科学, 2019,46(6):52-58. |
[31] | Venugopalan M V, Prasad R. Relative efficiency of ammonium polyphosphate and orthophosphates for wheat and their residual effects on succeeding cowpea fodder[J]. Fertilizer Research, 1989,20(2):109-114. |
[32] | 王连祥, 张学杰. 新型含聚磷酸铵水溶肥料喷施应用效果初探[J]. 化肥工业, 2019,46(2):62-64,69. |
[33] | 王朝玲. 不同聚合度的聚磷酸铵及与磷酸一铵配施对果菜效果研究[D]. 武汉:华中农业大学, 2019. |
[34] | 傅瑞斌, 徐绍霞, 张海波, 等. 聚磷酸铵在轻度盐碱地玉米种植上的肥效[J]. 磷肥与复肥, 2018,33(7):37-38,42. |
[35] | 岳焕芳, 孟范玉, 安顺伟, 等. 新型水溶性肥料对番茄产量、品质及土壤养分的影响[J]. 蔬菜, 2018(9):20-25. |
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