CN113142103A - 地源热泵新能源和生物菌构建高密度生态养殖体系方法 - Google Patents
地源热泵新能源和生物菌构建高密度生态养殖体系方法 Download PDFInfo
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Abstract
本发明提供地源热泵新能源和生物菌构建高密度生态养殖体系方法,包括如下步骤:S1.建立养殖池,在地面挖掘养殖池,养殖池四周及底部采用瓷砖铺设,在养殖池底部设置滤板,并在滤网与养殖池底部之间设置排泄物回收机构;S2.养殖池侧面固定连接滤板,并在滤板与养殖池之间铺设冷凝管,需要注意的是,位于养殖池内的冷凝管应当是一体结构,冷凝管两端与地源热泵中的压缩机、膨胀阀连接,地源热泵所连接的位于养殖池中的冷凝管与压缩机、膨胀阀活动连接,本发明中,通过地源热泵与冷凝管连通,利用地源热泵将底层热量提供养殖池中水的热量,保持养殖池中有益微生物菌在较为舒适的环境条件下生长、繁殖,从而保证了养殖池中菌群的稳定性。
Description
技术领域
本发明涉及地源热泵领域,尤其涉及地源热泵新能源和生物菌构建高密度生态养殖体系方法。
背景技术
地源热泵是利用地层热量供暖的设备,即将地层中储蓄的地热转化为生活、工业生产中所需要的热量;高密度水产养殖是将水中的生物密度提高,以较小的占用面积养殖大量的水产,发展集约化高密度养殖技术在未来水产养殖业中占有重要地位。利用湖泊、水库、河沟发展高密度淡水养鱼潜力很大。适宜的淡水养鱼方式有网箱养鱼、围栏养鱼和流水养鱼等。
专利号为CN108323458B公开了一种金钱鱼当年鱼种的室内高密度养殖方法,由养殖准备、苗种拉网计数、苗种运输和投放、饵料管理、水质管理、拉网捕获组成,是采用室内水泥池进行金钱鱼当年鱼种高密度养殖,养殖用水为河口半咸水,将人工繁育的已转食鳗鱼饲料的幼鱼转运至室内水泥池,规格体长1.3~1.5cm,养殖密度为300~400尾/m2,体长3cm以下投喂鳗鱼饲料,体长3cm开始转食浮性颗粒饲料,养殖期间按时吸污清底,及时换水、翻池,规格体长4~5cm以上的当年鱼种,即可拉网捕获转移至池塘开展养殖。本发明室内高密度养殖181天的成活率为80%~85%,填补了当年鱼种室内集约化、规模化生产的技术空白。
但是由于高密度养殖中会产生较多的排泄物,导致细菌滋生,现有技术利用微生物拮抗作用抑制有害菌的生长繁殖,但是由于有益菌的生长、繁殖对水的温度要求较高,因此需要对养殖池的水温进行控制。
发明内容
本发明的目的在于提供地源热泵新能源和生物菌构建高密度生态养殖体系方法,以解决上述技术问题。
本发明为解决上述技术问题,采用以下技术方案来实现:地源热泵新能源和生物菌构建高密度生态养殖体系方法,包括如下步骤:
S1.建立养殖池,在地面挖掘养殖池,养殖池四周及底部采用瓷砖铺设,在养殖池底部设置滤板,并在滤网与养殖池底部之间设置排泄物回收机构;
S2.养殖池侧面固定连接滤板,并在滤板与养殖池之间铺设冷凝管,需要注意的是,位于养殖池内的冷凝管应当是一体结构,冷凝管两端与地源热泵中的压缩机、膨胀阀连接,地源热泵所连接的位于养殖池中的冷凝管与压缩机、膨胀阀活动连接,地源热泵所连接的蒸发管位于蒸发箱内,蒸发箱通过水泵与地下水源连通;
S3.首先通过水泵向养殖池中注入水,同时向养殖池内加入定量的微生物菌剂,通过实时监测养殖池内的水温,将温度数据传递至控制地源热泵的控制系统,控制系统控制地源热泵工作向养殖池内供热,以保证养殖池内的水温适宜人工添加的微生物均生存、繁殖,之后将鱼苗倒入养殖池中;
S4.在养殖池旁设置用于定时定量投放微生物菌剂的添加机构,微生物菌剂的投放频率及投放量由养殖池中的水量、养殖密度确定;
S5.养殖池内位于滤板下方的排泄物、残饵通过排泄物回收机构定时清理,以保证养殖池中的水质。
优选的,所述S1中排泄物回收机构采用倾斜的筛板,使倾斜的筛板顶部与滤板相对滑动,筛板由养殖池一侧滑动至另一侧时将水中排泄物、残饵集中到养殖池一侧并通过打捞处理。
优选的,所述地源热泵在养殖池内部水温低于鱼苗、微生物均的适宜生长温度时汲取地下水中的热量向养殖池的池水中泵热,以保证鱼苗、微生物菌稳定存活,在水温较高时,将养殖池中的冷凝管两端分别与地源热泵的压缩机、膨胀阀断开,将冷凝管的端口与蒸发管的端互换位置,将养殖池中的热量泵入地下水中,实现降温。
优选的,所述S2中的微生物菌剂包括光合菌、芽孢杆菌、乳酸菌、酵母菌、蛭弧菌。
优选的,所述添加机构通过控制系统控制,微生物菌剂与:鱼苗质量比为 0.01:200,养殖池养鱼量为100㎏/㎡。
本发明的有益效果是:
1、构件便于清理的养殖池,养殖池侧面铺设瓷砖,便于将养殖中产生的排泄物清理出来,养殖池内铺设冷凝管,通过地源热泵与冷凝管连通,利用地源热泵将底层热量提供养殖池中水的热量,保持养殖池中有益微生物菌在较为舒适的环境条件下生长、繁殖,从而保证了养殖池中菌群的稳定性,保证养殖鱼的生长环境;
2、养殖池中铺设滤板,使自然沉降的杂物沉降到齿底,并定期通过筛板将沉淀杂物析出,避免杂物发酵导致菌群失衡;
3、地源热泵采用可逆转供热的安装方式,在养殖池水温较低时能够供热,养殖池水温较高时能够将水中热量经地源热泵将热量送入到地层中,实现养殖池降温同时,保证地源热的热平衡;
4、以特定的菌群定期投入到养殖池中,保证养殖池中鱼类生长所需的含氧量及各种成分。
具体实施方式
为了使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体实施例,进一步阐述本发明,但下述实施例仅仅为本发明的优选实施例,并非全部。基于实施方式中的实施例,本领域技术人员在没有做出创造性劳动的前提下所获得其它实施例,都属于本发明的保护范围。
下面描述本发明的具体实施例。
实施例
地源热泵新能源和生物菌构建高密度生态养殖体系方法,包括如下步骤:
S1.建立养殖池,在地面挖掘养殖池,养殖池四周及底部采用瓷砖铺设,在养殖池底部设置滤板,并在滤网与养殖池底部之间设置排泄物回收机构;
S2.养殖池侧面固定连接滤板,并在滤板与养殖池之间铺设冷凝管,需要注意的是,位于养殖池内的冷凝管应当是一体结构,冷凝管两端与地源热泵中的压缩机、膨胀阀连接,地源热泵所连接的位于养殖池中的冷凝管应当是可移动的,地源热泵所连接的蒸发管位于蒸发箱内,蒸发箱通过水泵与地下水源连通;
S3.首先通过水泵向养殖池中注入水,同时向养殖池内加入定量的微生物菌剂,通过实时监测养殖池内的水温,将温度数据传递至控制地源热泵的控制系统,控制系统控制地源热泵工作向养殖池内供热,以保证养殖池内的水温适宜人工添加的微生物均生存、繁殖,之后将鱼苗倒入养殖池中;
S4.在养殖池旁设置用于定时定量投放微生物菌剂的添加机构,添加机构通过控制系统控制,微生物菌剂与:鱼苗质量比为0.01:200,养殖池鱼群密度为100㎏/㎡-120kg/㎡;
S5.养殖池内位于滤板下方的排泄物、残饵通过排泄物回收机构定时清理,以保证养殖池中的水质。
结合现有的密度水产养殖方法作为对比例,对比结果如表1所示
表1
可知通过地源热泵与养殖池换热,不仅能够提高有益菌的生长量,且能够为鱼群生长提供更好的生长环境,在相同的养殖时间内,鱼群密度更高,相较于其他的供热方式更为节能,作用面积更大,可在大范围养殖产业中使用。
以上显示和描述了本发明的基本原理、主要特征和本发明的优点。本行业的技术人员应该了解,本发明不受上述实施例的限制,上述实施例和说明书中描述的仅为本发明的优选例,并不用来限制本发明,在不脱离本发明精神和范围的前提下,本发明还会有各种变化和改进,这些变化和改进都落入要求保护的本发明范围内。本发明要求保护范围由所附的权利要求书及其等效物界定。
Claims (5)
1.地源热泵新能源和生物菌构建高密度生态养殖体系方法,其特征在于:包括如下步骤:
S1.建立养殖池,在地面挖掘养殖池,养殖池四周及底部采用瓷砖铺设,在养殖池底部设置滤板,并在滤网与养殖池底部之间设置排泄物回收机构;
S2.养殖池侧面固定连接滤板,并在滤板与养殖池之间铺设冷凝管,需要注意的是,位于养殖池内的冷凝管应当是一体结构,冷凝管两端与地源热泵中的压缩机、膨胀阀连接地源热泵所连接的位于养殖池中的冷凝管与压缩机、膨胀阀活动连接,地源热泵所连接的蒸发管位于蒸发箱内,蒸发箱通过水泵与地下水源连通;
S3.首先通过水泵向养殖池中注入水,同时向养殖池内加入定量的微生物菌剂,通过实时监测养殖池内的水温,将温度数据传递至控制地源热泵的控制系统,控制系统控制地源热泵工作向养殖池内供热,以保证养殖池内的水温适宜人工添加的微生物均生存、繁殖,之后将鱼苗倒入养殖池中;
S4.在养殖池旁设置用于定时定量投放微生物菌剂的添加机构,微生物菌剂的投放频率及投放量由养殖池中的水量、养殖密度确定;
S5.养殖池内位于滤板下方的排泄物、残饵通过排泄物回收机构定时清理,以保证养殖池中的水质。
2.根据权利要求1所述的地源热泵新能源和生物菌构建高密度生态养殖体系方法,其特征在于:所述S1中排泄物回收机构采用倾斜的筛板,使倾斜的筛板顶部与滤板相对滑动,筛板由养殖池一侧滑动至另一侧时将水中排泄物、残饵集中到养殖池一侧并通过打捞处理。
3.根据权利要求1所述的地源热泵新能源和生物菌构建高密度生态养殖体系方法,其特征在于:所述地源热泵在养殖池内部水温低于鱼苗、微生物均的适宜生长温度时汲取地下水中的热量向养殖池的池水中泵热,以保证鱼苗、微生物菌稳定存活,在水温较高时,将养殖池中的冷凝管两端分别与地源热泵的压缩机、膨胀阀断开,将冷凝管的端口与蒸发管的端互换位置,将养殖池中的热量泵入地下水中,实现降温。
4.根据权利要求1所述的地源热泵新能源和生物菌构建高密度生态养殖体系方法,其特征在于:所述S2中的微生物菌剂包括光合菌、芽孢杆菌、乳酸菌、酵母菌、蛭弧菌。
5.根据权利要求1所述的地源热泵新能源和生物菌构建高密度生态养殖体系方法,其特征在于:所述添加机构通过控制系统控制,微生物菌剂与:鱼苗质量比为0.01:200,养殖池养鱼量为260㎏/㎡。
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