CN102603390B - 一种纳米复合肥 - Google Patents
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- 229910000359 iron(II) sulfate Inorganic materials 0.000 claims abstract description 19
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- CSNNHWWHGAXBCP-UHFFFAOYSA-L Magnesium sulfate Chemical compound [Mg+2].[O-][S+2]([O-])([O-])[O-] CSNNHWWHGAXBCP-UHFFFAOYSA-L 0.000 claims description 10
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Abstract
本发明提供了一种纳米复合肥,按一定重量份数选取配方量的原料与混合放入反应釜中,用水溶解,在100-120℃下搅拌混合反应2小时;待混合工艺完成后,用200目筛过滤溶液,去掉残渣;在过滤溶液中按重量百分比加入所述纳米硫酸亚铁、纳米碳,搅拌均匀得到最终产品。经统计施用本发明的复合肥后,种子出苗率可达到92%,施用纳米添加剂促进了植株对钾素的吸收,提高了钾肥吸收效率幅增为11%;感染病害的比率减小3.1%,感染虫害减小4.1%;增产率达6.5%。
Description
技术领域
本发明专利涉及一种复合肥料,尤其涉及一种纳米复合肥。
背景技术
目前,肥料的施用存在着一些难以解决的问题,比如肥料的利用率比较低、过多施用化肥对生态环境造成污染等;另外,可溶解有机碳是土壤或水域生态系统中的活性物质,对土壤或水体中的各种微生物和各种养分的组成和形态转化起着重要的作用,同时对地表生态系统中的生物地球化学循环及重金属的毒性和迁移有深刻影响。鉴于以上问题,本发明对纳米添加剂进行了研究,制得了纳米级材料,既具有吸附性、分散性、流变性、多孔性和表面酸性,又具有纳米材料的表面效应,出现许多活性中心。有利于对氮、磷、钾和有机碳的吸附和解吸,改善化肥的施用效益,营造良好的生态环境,也为高效环境友好型肥料的研制和改良土壤,提高土壤肥力提供科学依据。
发明内容
本发明提供了一种纳米复合肥,由下述各组分重量百分比的原料组成:尿素5-20%,磷酸一铵2-5%,硫酸钾4-5%,磷酸二氢钾4-6%,团粒直径为15nm的纳米硫酸亚铁10-15%,团粒直径为10-20nm的纳米碳10-15%,腐植酸10-15%,木质素5-7%,BA3-5%,水5-10%,壳聚糖1-5%,硼砂3-7%,氯化锌0.5-1%,钼酸钠0.05-0.3%,硫酸锰0.05-0.1%,十二烷基苯磺酸钠0.05-0.3%,硫酸亚铁0.8-2%,硫酸镁0.03-0.8%,硫酸铜0.01-0.05%,二甲基亚砜0.2-2%,
(1)按所述重量份数选取配方量的原料;与所述的尿素,磷酸一铵,硫酸钾,磷酸二氢钾,纳米硫酸亚铁,纳米碳,腐植酸,木质素,BA,水,壳聚糖,硼砂,氯化锌,钼酸钠,硫酸锰,十二烷基苯磺酸钠,硫酸亚铁,硫酸镁,硫酸铜,二甲基亚砜混合放入反应釜中,用水溶解,在100-120℃下搅拌混合反应2小时;待混合工艺完成后,用200目筛过滤溶液,去掉残渣;
(5)在过滤溶液中按重量百分比加入所述纳米硫酸亚铁、纳米碳,搅拌均匀得到最终产品。
所述纳米硫酸亚铁、纳米碳制备方法为:将硫酸亚铁、纳米碳混合溶液在0℃下搅拌活化4 h,加入分散剂,4×104 r/min高剪切2 h,反应溶液冷却至室温后减压抽滤,所得沉淀在105℃下干燥至恒重,得到纳米硫酸亚铁、纳米碳。
本发明所述的复合肥制备方法,可以解决不同时期对肥料的需求不同的问题,特别是可以解决同一时期的不同植株存在的不同时期营养物质过多或过少的问题,可以根据每个植株的生长状况,来进行单独调节肥料中各种成分的数量,可以使肥料最大限度的被利用,并且不会浪费肥料,减少对土壤和水源的污染,可以保证植株最佳的生长状态,开花得到保证;纳米添加剂的加入使得植物更容易吸收、增产;生物肥料的加入使得肥效缓解、有利于土壤保护。
具体实施方式
本发明通过如下方法进行实施:
一种纳米复合肥,由下述各组分重量百分比的原料组成:尿素5-20%,磷酸一铵2-5%,硫酸钾4-5%,磷酸二氢钾4-6%,团粒直径为15nm的纳米硫酸亚铁10-15%,团粒直径为10-20nm的纳米碳10-15%,腐植酸10-15%,木质素5-7%,BA3-5%,水5-10%,壳聚糖1-5%,硼砂3-7%,氯化锌0.5-1%,钼酸钠0.05-0.3%,硫酸锰0.05-0.1%,十二烷基苯磺酸钠0.05-0.3%,硫酸亚铁0.8-2%,硫酸镁0.03-0.8%,硫酸铜0.01-0.05%,二甲基亚砜0.2-2%,
(1)按所述重量份数选取配方量的原料;与所述的尿素,磷酸一铵,硫酸钾,磷酸二氢钾,纳米硫酸亚铁,纳米碳,腐植酸,木质素,BA,水,壳聚糖,硼砂,氯化锌,钼酸钠,硫酸锰,十二烷基苯磺酸钠,硫酸亚铁,硫酸镁,硫酸铜,二甲基亚砜混合放入反应釜中,用水溶解,在100-120℃下搅拌混合反应2小时;待混合工艺完成后,用200目筛过滤溶液,去掉残渣;
(5)在过滤溶液中按重量百分比加入所述纳米硫酸亚铁、纳米碳,搅拌均匀得到最终产品。
所述纳米硫酸亚铁、纳米碳制备方法为:将硫酸亚铁、纳米碳混合溶液在0℃下搅拌活化4 h,加入分散剂,4×104 r/min高剪切2 h,反应溶液冷却至室温后减压抽滤,所得沉淀在105℃下干燥至恒重,得到纳米硫酸亚铁、纳米碳。
专用复合肥的应用,其特征在于:
(1)播种期,将所述复合肥用水稀释200倍,从播种时喷施于土壤,分2次喷施,两次施肥的时间间隔是3天;
(2)苗期,将所述复合肥用水稀释400倍,从播种时喷施于土壤,均匀喷施于叶面,每周2次。
(3)开花前期,将所述复合肥用水稀释300倍,从花蕾出现时开始分3次施完,两次施肥的时间间隔是2天,将肥料均匀喷洒在植株周围及叶片上;
(4)开花期,将所述复合肥用水稀释400倍,花朵出现喷施1次,将肥料溶液均匀喷洒在植株周围,尽量避免与花瓣接触。
在施肥时将本发明营养肥料与园艺领域常用的复合肥进行对比试验,种植区域随机设置,各肥料采用一次性施入,采用同样的田间管理措施,经统计:
施用本发明的复合肥后,种子出苗率可达到92%,施用纳米添加剂促进了植株对钾素的吸收,提高了钾肥吸收效率幅增为11%;感染病害的比率减小3.1%,感染虫害减小4.1%;增产率达6.5%。
Claims (1)
1.一种纳米复合肥,其特征在于:
由下述各组分重量百分比的原料组成:尿素5-20%,磷酸一铵2-5%,硫酸钾4-5%,磷酸二氢钾4-6%,团粒直径为15nm的纳米硫酸亚铁10-15%,团粒直径为10-20nm的纳米碳10-15%,腐植酸10-15%,木质素5-7%,BA3-5%,水5-10%,壳聚糖1-5%,硼砂3-7%,氯化锌0.5-1%,钼酸钠0.05-0.3%,硫酸锰0.05-0.1%,十二烷基苯磺酸钠0.05-0.3%,硫酸亚铁0.8-2%,硫酸镁0.03-0.8%,硫酸铜0.01-0.05%,二甲基亚砜0.2-2%。
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| CN105084999A (zh) * | 2014-05-21 | 2015-11-25 | 山东捷利尔肥业有限公司 | 一种纳米材料制成的流体肥料农药增效剂的生产方法 |
| CN104817381A (zh) * | 2015-04-20 | 2015-08-05 | 广东大众农业科技股份有限公司 | 一种稻草生物质炭基复合肥及其制备方法 |
| CN110396026A (zh) * | 2019-08-07 | 2019-11-01 | 广西壮族自治区农业科学院 | 一种甘蔗专用纳米水溶性肥及其制备方法 |
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