CN108947164B - 一种复合微生物制剂的应用方法 - Google Patents
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Abstract
本发明公开了一种发酵周期长的复合微生物制剂的应用方法,将复合微生物制剂与粪液按重量份比例1:2000~4000应用于生态厕所配比发酵。本发明通过配制新的应用方式,微生物能够与其恶臭气体氨和吲哚胺类气体转化为胺盐,不仅增加肥料,而且大大减少生态厕所的臭味。
Description
技术领域
本发明涉及一种发酵周期长的复合微生物制剂的应用方法。
背景技术
生态厕所( Bio-toilet )是环保厕所中的一类,是指具有不对环境造成污染,并且
能充分利用各种资源,强调污染物自净和资源循环利用概念和功能的一类厕所。目前的生
态厕所利用率最多的是微生物菌种分解粪便的厕所,它利用其生长繁殖活动对粪便中可利
用的大分子有机化合物进行生物降解并转化为菌体生物量,竞争性的抑制并杀死粪便中的
病原性微生物,实现了粪便的无害化、资源化处理。能达到零排放的功能,对环境完全不造
成任何污染。
虽然生态厕所有诸多好处,但是微生物菌种的生长环境比较苛刻,其发酵繁殖经
过若干代后,其子代分解粪便中的有机物、杀死病原性微生物效率会大大降低,使得无水生
态厕所臭味很重;为此必须要定期加入填料和新的微生物菌种,这无疑增加了成本,也制约
微生物在生态厕所的应用。
发明内容
发明目的:为了克服现有技术中存在的不足,本发明提供一种发酵周期长的复合微生物制剂。
技术方案:为实现上述目的,本发明提供的一种用于生态厕所的发酵周期长的复
合微生物制剂,其组分按重量份计由以下成分组成:礞石粉30~60份、硫酸镁6~9份、氧化钾粉20~28份、月桃粉1~3份、桑叶粉2~4份、牛肉膏0 .3~6份、凝胶剂0 .5~0.8份、糊精4~8份、氨基酸1~3份、纤维素酶8~12份、蛋白酶3~12份、吡哆醛0 .05~0 .2份、类黄酮0 .02~0 .08份、盐酸吡哆醇0 .05~0 .1份、复合微生物剂12~20份、水50~80份。
进一步地,所述复合微生物剂按重量百分比包括芽孢杆菌30~40%、兼性厌氧菌
10~20%、酿酒酵母10~20%、乳酸菌10~20%、热淀粉酶链霉菌5~10%、泾阳链霉菌5~10%、余量为黑曲霉。
进一步地,所述芽孢杆菌包括地衣芽孢杆菌、枯草芽孢杆菌以及凝结芽孢杆菌,三
者的重量比重依次为1:4:7。
优选地,其组分按重量份计由以下成分组成:礞石粉30~50份、硫酸镁6~8份、氧化钾粉20~25份、月桃粉1~2份、桑叶粉2~3份、牛肉膏0 .3~5份、凝胶剂0 .5~0 .7份、糊精4~6份、氨基酸1~2份、纤维素酶8~10份、蛋白酶3~8份、吡哆醛0 .05~0 .1份、类黄酮0 .02~0 .05份、盐酸吡哆醇0 .05~0 .1份、复合微生物剂12~20份、水50~80份。
进一步地,所述凝胶剂由液状石蜡与聚乙烯以重量比1:3组成。
上述的用于生态厕所的发酵周期长的复合微生物制剂的制备方法,制备步骤如下:
1 )称取相应的原料组分;
2 )将礞石粉、硫酸镁溶于水中,充分搅拌,再加入氧化钾粉、月桃粉、桑叶粉、牛肉膏、纤维素酶、蛋白酶、吡哆醛、类黄酮和盐酸吡哆醇,搅拌10分钟后加入凝胶剂、糊精和氨基酸;
3)将复合微生物剂与步骤2)得到的液体混合。
上述的发酵周期长的复合微生物制剂的应用,其特征在于:将复合微生物制剂与粪液按重量份比例1:2000~4000应用于生态厕所配比发酵。
有益效果:本发明相对于现有技术而言,具有以下优点:
1 )本发明解决了传统生态厕所湿度过大影响微生物生长和发酵,本发明通过配制 独特的填料,保证微生物在湿度较大即水分较多的环境中仍然具备较高的生长速度和分解 效率,有机物分解效率较常规的提高20%以上,适于大规模推广。
2)本发明通过配制独特的填料与微生物制剂的巧妙组合,微生物能够与其恶臭气 体氨和吲哚胺类气体转化为胺盐,不仅增加肥料,而且大大减少生态厕所的臭味。
3)本发明单位用量比常规微生物用量更小,效率更高。
4 )本发明通过配制独特的填料与微生物制剂的巧妙组合,大大增加了微生物的有 效发酵时间,经过若干代繁殖后,微生物依然较高的数量和质量,对有机物保持高效的分解 能力和除臭能力。
具体实施方式
下面结合实施例对本发明作更进一步的说明。
实施例1:一种发酵周期长的复合微生物制剂,其组分按重量份计由以下成分组成:礞石粉 40份、硫酸镁9份、氧化钾粉28份、月桃粉3份、桑叶粉4份、牛肉膏6份、凝胶剂0.8份、糊精8 份、氨基酸3份、纤维素酶12份、蛋白酶12份、吡哆醛0 .2份、类黄酮0 .08份、盐酸吡哆醇0 .1 份、复合微生物剂12份、水50份。所述复合微生物剂按重量百分比包括芽孢杆菌30%、兼性厌氧菌20%、酿酒酵母 10%、乳酸菌20%、热淀粉酶链霉菌5%、泾阳链霉菌10%、余量为黑曲霉。
所述芽孢杆菌包括地衣芽孢杆菌、枯草芽孢杆菌以及凝结芽孢杆菌,三者的重量比重依次为1:4:7。
上述的发酵周期长的复合微生物制剂的制备方法,制备步骤如下:
1)称取相应的原料组分;
2 )将礞石粉、硫酸镁、甘蔗糖蜜溶于水中,充分搅拌,再加入氧化钾粉、锯末粉,月 桃粉、桑叶粉、牛肉膏、纤维素酶、蛋白酶,搅拌10分钟后加入凝胶剂、糊精和氨基酸;
3)将复合微生物剂与步骤2)得到的液体混合。
上述发酵周期长的复合微生物制剂的应用,将复合微生物制剂与粪液按重量份比例1:500应用于生态厕所配比发酵。
实施例2:
一种用于生态厕所的发酵周期长的复合微生物制剂,其组分按重量份计由以下成分组成:礞石粉60份、硫酸镁6份、氧化钾粉20份、月桃粉1份、桑叶粉2份、牛肉膏0 .3份、凝胶 剂0 .5份、糊精4份、氨基酸1份、纤维素酶8份、蛋白酶3份、吡哆醛0 .05份、类黄酮0 .02份、盐酸吡哆醇0 .05份、复合微生物剂20份、水80份。
所述复合微生物剂按重量百分比包括芽孢杆菌40%、兼性厌氧菌10%、酿酒酵母
20%、乳酸菌10%、热淀粉酶链霉菌10%、泾阳链霉菌5%、余量为黑曲霉。
所述芽孢杆菌包括地衣芽孢杆菌、枯草芽孢杆菌以及凝结芽孢杆菌,三者的重量
比重依次为1:4:7。
所述凝胶剂由液状石蜡与聚乙烯以重量比1:3组成。
制备方法与实施例1相同。
上述发酵周期长的复合微生物制剂的应用,将复合微生物制剂与粪液按重量份比
例1:1000应用于生态厕所配比发酵。
实施例3:
一种用于生态厕所的发酵周期长的复合微生物制剂,其组分按重量份计由以下成
分组成:礞石粉30份、硫酸镁8份、氧化钾粉25份、月桃粉2份、桑叶粉3份、牛肉膏3份、凝胶剂0 .6份、糊精7份、氨基酸2份、纤维素酶10份、蛋白酶9份、吡哆醛0 .08份、类黄酮0 .07份、盐酸吡哆醇0 .08份、复合微生物剂15份、水60份。
所述复合微生物剂按重量百分比包括芽孢杆菌35%、兼性厌氧菌15%、酿酒酵母
15%、乳酸菌15%、热淀粉酶链霉菌8%、泾阳链霉菌8%、余量为黑曲霉。
进一步地,所述芽孢杆菌包括地衣芽孢杆菌、枯草芽孢杆菌以及凝结芽孢杆菌,三
者的重量比重依次为1:4:7。
所述凝胶剂由液状石蜡与聚乙烯以重量比1:3组成。
制备方法与实施例1相同。
上述发酵周期长的复合微生物制剂的应用,将复合微生物制剂与粪液按重量份比例1:1500应用于生态厕所配比发酵。
实施例4:
一种用于生态厕所的发酵周期长的复合微生物制剂,其组分按重量份计由以下成分组成:礞石粉50份、硫酸镁7份、氧化钾粉22份、月桃粉2份、桑叶粉3份、牛肉膏2份、凝胶剂0 .7份、糊精6份、氨基酸2份、纤维素酶11份、蛋白酶11份、吡哆醛0 .09份、类黄酮0 .04份、盐 酸吡哆醇0 .07份、复合微生物剂18份、水70份。
所述复合微生物剂按重量百分比包括芽孢杆菌36%、兼性厌氧菌16%、酿酒酵母18%、乳酸菌14%、热淀粉酶链霉菌6%、泾阳链霉菌9%、余量为黑曲霉。
所述芽孢杆菌包括地衣芽孢杆菌、枯草芽孢杆菌以及凝结芽孢杆菌,三者的重量比重依次为1:4:7。所述凝胶剂由液状石蜡与聚乙烯以重量比1:3组成。
上述制备方法与实施例1相同
上述发酵周期长的复合微生物制剂的应用,将复合微生物制剂与粪液按重量份比例1:2000应用于生态厕所配比发酵。
对比例:
一种畜禽粪便除臭发酵液,由以下重比的组分组成:甘蔗糖蜜10~18%、鱼精膏 0.5~1 .8%、淀粉10~20%;嗜粪乳杆菌、嗜热乳链球菌、酿酒酵母菌、异常汉逊酵母菌、嫌气纤维素分解菌种子液各0 .6~1 .5%;余量为纯净水。
上述发酵周期长的复合微生物制剂的应用,将复合微生物制剂与粪液按重量份比
例1:800应用于生态厕所配比发酵。
实施例1~4应用后性能见下表:
以上所述仅是本发明的优选实施方式,应当指出:对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。
Claims (3)
1.一种发酵周期长的复合微生物制剂的应用方法,其特征在于:将复合微生物制剂与粪液按重量份比例1:2000~4000应用于生态厕所配比发酵;所述复合微生物制剂按其组分按重量份计由以下成分组成:礞石粉30~60份、硫酸镁6~9份、氧化钾粉20~28份、月桃粉1~3份、桑叶粉2~4份、牛肉膏0.3~6份、凝胶剂0.5~0.8份、糊精4~8份、氨基酸1~3份、纤维素酶8~12份、蛋白酶3~12份、吡哆醛0.05~0.2份、类黄酮0.02~0.08份、盐酸吡哆醇0.05~0.1份、复合微生物剂12~20份、水50~80份;所述复合微生物剂按重量百分比包括芽孢杆菌(Bacillus)30~40%、兼性厌氧菌(facultative anaerobe)10~20%、酿酒酵母(Saccharomyces cerevisiae)10~20%、乳酸菌(lactobacillus)10~20%、热淀粉酶链霉菌(Streptomyces thermodiastaticus)5~10%、泾阳链霉菌(Streptomycesjingyangensis)5~10%、余量为黑曲霉(Aspergillus niger)。
2.根据权利要求1所述的一种发酵周期长的复合微生物制剂的应用方法,其特征在于:其组分按重量份计由以下成分组成:礞石粉30~50份、硫酸镁6~8份、氧化钾粉20~25份、月桃粉1~2份、桑叶粉2~3份、牛肉膏0.3~5份、凝胶剂0.5~0.7份、糊精4~6份、氨基酸1~2份、纤维素酶8~10份、蛋白酶3~8份、吡哆醛0.05~0.1份、类黄酮0.02~0.05份、盐酸吡哆醇0.05~0.1份、复合微生物剂12~20份、水50~80份。
3.根据权利要求1所述的一种发酵周期长的复合微生物制剂的应用方法,其特征在于:所述凝胶剂由液状石蜡与聚乙烯以重量比1:3组成。
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