CN114436713A - 一种硅钛肥及其制备方法 - Google Patents
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Abstract
本发明公开了一种硅钛肥,按照重量百分比计,包括以下原料:纳米级二氧化硅15~20%、小分子态硅溶胶15~20%、纳米级二氧化钛3.5~4.5%、小分子水50~55%、磷酸1~5%、纳米银0.5~1%,其中磷酸的比例是按肥料销售区域所需要的pH值作出相应调整,小分子水的比例随之作出相应调整。本发明的硅钛肥为二氧化硅、二氧化钛混合物分散于水中形成浓缩悬浮剂分散于水中形式供植物营养需求,使得中的硅、钛元素植物有效吸收率最高可达98%,且对植物生长无副作用,不会出现肥伤药害等情况。
Description
技术领域
本发明属于化肥技术领域,具体涉及一种硅钛肥及其制备方法。
背景技术
众所周知,化肥和农药的发明,为农作物增产起到具大的促进作用,因为有了各种化肥,单位面积的农作物产量大大提高,很多饥饿和粮食短缺问题也得以解决。但是,由于化肥农药的不科学使用和过量使用,也给人类带来极为严重的后果。当今的农业世界,是化肥、农药和激素的世界。化肥农药进入土壤之中,只有三分之一被农作物吸收,三分之一进入大气,三分之一留存在土壤里随着地下水进入水循环。这些化肥、农药残留通过大气、水体、土壤、食品,最终进入人体,从而引起各种慢性或急性病害。
近些年来,人们身边的癌症病人越来越多,很多家庭都正受到癌症的困扰。而且全世界每年有300万农药中毒者,我国每年由于农药化肥污染食品造成直接中毒的人数也达20万,占食物中毒人数的三分之一。目前国内以硅为主要营养元素的肥料较多,但有效成份较低,不能供植物直接吸收或有效吸收量低,无法满足植物对营养的需求,发挥不出最佳效果。现阶段无法完全抛弃化肥和农药,因此,提出了一种既能帮助作物茁壮成长,又能对人类的健康构不成危害,通过能够减少使用量的新产品。
发明内容
针对现有技术中的不足之处,本发明提供一种硅钛肥及其制备方法。
为了达到上述目的,本发明技术方案如下:
一种硅钛肥,按照重量百分比计,包括以下原料:纳米级二氧化硅15~20%、小分子态硅溶胶15~20%、纳米级二氧化钛3.5~4.5%、小分子水50~55%、磷酸1~5%、纳米银0.5~1%,其中磷酸的比例是按肥料销售区域所需要的pH值作出相应调整,小分子水的比例随之作出相应调整。
本发明还提供了一种硅钛肥的制备方法,包括以下步骤:
S1)反渗透制水:将原水过滤消毒,除臭除味,除铁、锰、氟、盐,再软化、淡化;制得小分子水,备用;
S2)原料制备:将硅、钛原料分别在1200℃下进行碎取,精工提纯,纳米物理制备,备用;
S3)配料:将步骤S2)获得纳米级二氧化硅、纳米级二氧化钛与小分子态硅溶胶,以及步骤S1)获得的一部分小分子水,按比例混合配料;再混合、搅拌和乳化,获得混合料;
S4)催化:将获得的混合料进行光触媒催化,用黄色强光源对循环流动中的产品进行照射;
S5)二次配料:将催化后的混合料与按比例配制的碳水化合物,及剩下的一部分小分子水配比,加热100℃并搅拌,再搅拌,冷却,备用;
S6)三次配料:按照比例加入纳米银、磷酸,且测得所需PH值后搅拌乳化再利用超声波小分子震荡机进行超声波小分子震荡,分子量1000道尔顿以内;
S7)成品:灌装、贴标、成品入库。
进一步的,所述碳水化合物采用黑糖,主要作用一是利用黑糖的酵益菌,有效促进植物分解养份所需的微生物的生长;二是利用黑糖中的氨基酸,调节和络合植物营养。
进一步的,所述灌装采用全自动灌装机。
有益效果:本发明的硅钛肥为二氧化硅、二氧化钛混合物分散于水中形成浓缩悬浮剂分散于水中形式供植物营养需求,使得中的硅、钛元素植物有效吸收率最高可达98%,且对植物生长无副作用,不会出现肥伤药害等情况。
附图说明
图1为本发明的流程示意图;
图2为本发明实施例提供的小麦对比试验结果图;
图3为本发明实施例提供的水稻对比试验结果图;
图4为本发明实施例提供的茶叶对比试验结果图;
图5为本发明实施例提供的小白菜对比试验结果图;
图6为本发明实施例提供的辣椒对比试验结果图;
图7为本发明实施例提供的萝卜对比试验结果图。
具体实施方式
以下参照具体的实施例来说明本发明。本领域技术人员能够理解,这些实施例仅用于说明本发明,其不以任何方式限制本发明的范围。
一种硅钛肥,按照重量百分比计,包括以下原料:纳米级二氧化硅20%、小分子态硅溶胶20%、纳米级二氧化钛3.5%、小分子水53%、磷酸3%、纳米银0.5%,其制备方法,如图1所示,包括以下步骤:
S1)反渗透制水:将原水过滤消毒,除臭除味,除铁、锰、氟、盐,再软化、淡化;制得小分子水,备用;
S2)原料制备:将硅、钛原料分别在1200℃下进行碎取,精工提纯,纳米物理制备,备用;
S3)配料:将步骤S2)获得纳米级二氧化硅、纳米级二氧化钛与小分子态硅溶胶,以及步骤S1)获得的一部分小分子水,按比例混合配料;再混合、搅拌和乳化,获得混合料;
S4)催化:将获得的混合料进行光触媒催化,用黄色强光源对循环流动中的产品进行照射;
S5)二次配料:将催化后的混合料与按比例配制的碳水化合物(黑糖),及剩下的一部分小分子水配比,加热100℃并搅拌,再搅拌,冷却,备用;
S6)三次配料:按照比例加入纳米银、磷酸,且测得所需PH值后搅拌乳化再利用超声波小分子震荡机进行超声波小分子震荡,分子量1000道尔顿以内;
S7)成品:全自动灌装机灌装、贴标、成品入库。
本发明的作用:
(1)苗期促根:用作种子处理,对水稻、小麦、玉米、蚕豆、烟草、蔬菜等作物的幼苗根系有明显的促生长作用,根系鲜重比对照增加20%,干重增加15%,表现为根深叶茂,苗株茁壮;
(2)营养期促长:不仅具有促进细胞分裂和细胞伸长的双重作用,而且还能提高叶片叶绿素的含量,增强光合作用,增加光合同化产物的积累,从而明显的促进植物营养生长的效应,提高作物的产量和质量;
(3)生殖期促实:能提高花粉的发芽率,促进花粉管伸长,有利于植物的受精,提高结实率和坐果率。在作物成熟时期表现为粒数和粒重增加,瓜果类变现为果实均匀、改善作物品质;
(4)增加抗逆性:进入植物体内后,不仅加强了光合作用,促进了生长发育,还能激发植物体内某些起保护作用酶活性,可以大大减轻由于逆境下植物体内所产生的有害物质,(如丙二醛等对正常功能的损害);
(5)缓解药害:除草剂、杀虫剂错用,容易出现药害,及时使用还能调节养分输送、补充营养、减轻药害,加快作物恢复生长;
(6)防虫抗病:能使植株表面细胞硅质化,增强植株抗疫力预防各类病害,驱离软体虫害,可少施或不农药,节约种植成本;
(7)阻制重金属:
硅元素能与重金属形成硅酸化合物,从而降低活性、减小毒性;
硅元素影响根际的氧化还原力来降低重金属的活性;硅元素影响土壤中的PH值来影响植物对重金属的吸收;
硅元素改变重金属在土壤中的形态来抑制植物的吸收;
硅元素在植株地上部分的淀积阻碍了重金属向地上部分的迁移;
硅元素会对植物根系分泌物产生影响,增加对重金属的络合和吸附;
硅元素从调控作物的茎叶分配、运输蛋白活性、竞争运输通道等方面入手抑制重金属镉、砷的运输,实现对作物重金属的精准阻控。
对小麦、水稻、茶叶、小白菜、辣椒以及萝卜进行喷洒对比试验
1.小麦
如图2所示,(1)对试验组使用实施例1的硅钛肥喷洒三次,对照组未使用硅钛肥,从果期到采收期采样对照;
(2)观察结果:
a)外观检测:试验组穗长,单穗粒数50粒以上,颗粒饱满;对比组穗短,单穗粒数35粒左右,颗粒饱满;
b)病虫害检测:试验组未发现病虫害;对比组成品叶鞘、穗颈、茎节均有不同病害;
c)瑕疵检测:试验组和对比组皆通过采购方标准;
(3)结论:喷施硅钛肥可以提高肥料的利用率,加速成长,分蘖增多,茎秆粗壮,叶片挺直,结实率高,千粒重增加,抗旱、抗干热风、抗倒伏能力提高80%以上。
2.水稻
如图3所示,(1)对试验组使用实施例1的硅钛肥喷洒三次,对照组未使用硅钛肥,从果期到采收期采样对照;
(2)观察结果:
a)外观检测:试验组穗长籽多,颗粒饱满无空壳,成熟后无落粒,无倒伏,无稻曲菌孢子;对比组穗短,空壳率达20%,落粒严重,稻曲菌孢子严重;
b)病虫害检测:试验组未发现病虫害;对比组成品叶鞘、穗颈、茎节、谷粒均有不同病害;
c)瑕疵检测:试验组通过采购方标准,对比组未通过采购方标准;
(3)结论:试用硅钛肥可以提高肥料的利用率。水稻是喜硅作物,使用了硅肥后,水稻细胞表面细胞加厚,作物茎叶粗壮挺直,根系发达,叶片上冲,光合作用增强,促进有效分蘖,结实率高,穗大粒多,抗旱、抗倒伏的能力提高85%以上,促早熟,提高稻米的质量,抗病虫害,可降低发病率75%。
3.茶叶
如图4所示,(1)对试验组使用实施例1的硅钛肥喷洒三次成品,对照组未使用硅钛肥,从发芽期同天同区域采样对照;
(2)观察结果:
a)外观检测:试验组早发、齐发、壮发,叶片厚实,嫩绿持久,提早采收约一周;对比组发芽参差不齐,新叶单薄,芽茎老化不易采摘;
b)病虫害检测:试验组未发现病虫害;对比组少量茶尺蠖、蚜虫;
c)瑕疵检测:试验组和对比组皆通过采购方标准;
(3)结论:喷施硅钛肥提高肥料的利用率,增产效果达到30%左右,并且明显提高茶叶的品质,增加茶叶厚度,提高幼叶发芽率和新芽的持嫩性,提高茶叶中茶多酚、儿茶素、蛋白质等的含量,尤其是茶基酸及茶氨酸含量显著增加,茶叶香味浓厚。还能促进光合作用,促进根系发达,促进新陈代谢,增加茶树的寿命,抗病虫害,可降低发病率75%。
4.小白菜
如图5所示,(1)对试验组使用实施例1的硅钛肥30天成品,对照组未使用硅钛肥的成品;
(2)观察结果:
a)发芽率检测:试验组的发芽率10分钟以下高于10分钟以上4.98%,比对照组高15.66%;
b)外观检测:试验组颜色呈现嫩绿,叶片茂盛紧凑扎实,平均单颗重约50g;对比组颜色深绿,叶片松散,生长杂乱不齐,最大单颗重约36g;
c)病虫害检测:试验组未发现病虫害;对比组成品有卷叶虫和青虫,有少量的蜗牛;
d)瑕疵检测:试验组和对比组皆通过采购方标准;
(3)结论:使用硅钛肥后大大提高肥料的利用率,植株健壮,叶色浓绿,成活率高,表光好、品相端正、单株重、叶片厚、含水量高、增产15%,耐运输,延长保鲜期。
5.辣椒
如图6所示,(1)对试验组使用实施例1的硅钛肥喷洒后30天成品,对照组未使用硅钛肥,从结果期现株采样对照;
(2)观察结果:
a)外观检测:试验组颜色呈现嫩绿,成品均匀,生长期缩短;对比组颜色深绿,生长畸形量较多;
b)病虫害检测:试验组未发现病虫害;对比组成品有少量的蚜虫、茶黄螨、棉铃虫、叶螨类
c)瑕疵检测:试验组通过采购方标准,对比组未通过采购方标准;
(3)结论:施用硅钛肥可以提高肥料的利用率,植株生长健壮,叶色深绿,根系发达,长势好,结实多、抗倒伏、成熟早、分枝多,果仁充实饱满、空壳少、成仁率高、商品性好,增产效果一般在15%以上。
6.萝卜
如图7所示,(1)对试验组使用实施例1的硅钛肥喷洒后30天后成品,对照组未使用硅钛肥,从肉质根生长盛期到采收期采样对照;
(2)观察结果:
a)外观检测:试验组成品粗壮、生长均匀、叶面与肉质根联结良好;对比组肉质根呈现弯曲、畸形,叶面与肉质根联结损坏;
b)病虫害检测:试验组未发现病虫害;对比组成品有少量的蚜虫、钻心虫;
c)瑕疵检测:试验组通过采购方标准,对比组未通过采购方标准;
(3)结论:硅钛肥是一种非常好的调节性肥料,品质肥料和保健性肥料,是其他的化学肥料都无法相比的一直新型肥料,是生产优质无公害农产品的首选。
Claims (4)
1.一种硅钛肥,其特征在于,按照重量百分比计,包括以下原料:纳米级二氧化硅15~20%、小分子态硅溶胶15~20%、纳米级二氧化钛3.5~4.5%、小分子水50~55%、磷酸1~5%、纳米银0.5~1%,其中磷酸的比例是按肥料销售区域所需要的pH值作出相应调整,小分子水的比例随之作出相应调整。
2.一种权利要求1所述的硅钛肥的制备方法,其特征在于,包括以下步骤:
S1)反渗透制水:将原水过滤消毒,除臭除味,除铁、锰、氟、盐,再软化、淡化;制得小分子水,备用;
S2)原料制备:将硅、钛原料分别在1200℃下进行碎取,精工提纯,纳米物理制备,备用;
S3)配料:将步骤S2)获得纳米级二氧化硅、纳米级二氧化钛与小分子态硅溶胶,以及步骤S1)获得的一部分小分子水,按比例混合配料;再混合、搅拌和乳化,获得混合料;
S4)催化:将获得的混合料进行光触媒催化,用黄色强光源对循环流动中的产品进行照射;
S5)二次配料:将催化后的混合料与按比例配制的碳水化合物,及剩下的一部分小分子水配比,加热100℃并搅拌,再搅拌,冷却,备用;
S6)三次配料:按照比例加入纳米银、磷酸,且测得所需PH值后搅拌乳化再利用超声波小分子震荡机进行超声波小分子震荡,分子量1000道尔顿以内;
S7)成品:灌装、贴标、成品入库。
3.如权利要求2所述的硅钛肥的制备方法,其特征在于,所述碳水化合物采用黑糖。
4.如权利要求2所述的硅钛肥的制备方法,其特征在于,所述灌装采用全自动灌装机。
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