CN108191168A - 一种风能太阳能互补模块化污水处理装备 - Google Patents
一种风能太阳能互补模块化污水处理装备 Download PDFInfo
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- H—ELECTRICITY
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Abstract
一种风能太阳能互补模块化污水处理装备,包括风光互补能源模块、污水处理模块、储水调配水池、水泵、蜗轮电机及管道组成,它采用模块化方式利用风能太阳能互补能源来满足污水处理过程对能源的需求,驱动净化湿地中的水泵、蜗轮电机及控制设备,并实现低成本净化污水及再生利用水资源之目的,在污水零排放的前提下,改变了污水处理采用单一能源的习惯思维,避免不利气候的影响,克服了污水污染环境的后顾之忧,结合生态建设,可以多方位获得绿色发展的收益,实现社会效益和经济效益的统一。
Description
技术领域
本发明涉及一种自动化污水净化处理装备,尤其是以模块化方式利用风能太阳能互补能源来满足需求,驱动净化湿地中的水泵及控制设备,达到低能耗净化污水之目的。
背景技术
目前,生活污水处理以及水环境综合治理的技术都比较先进,其中,人工湿地技术成熟、能耗较低,它是由人工建造和控制运行的与沼泽地类似的湿地,将污水通过管道投配到该湿地上,污水在沿一定方向流动的过程中,主要利用土壤、人工介质、植物、微生物的物理、化学、生物三重协同作用,对污水进行处理的,其作用机理包括吸附、滞留、过滤、氧化还原、沉淀、微生物分解、转化、植物遮蔽、残留物积累、蒸腾水分和养分吸收及各类动物的作用,这种技术已经应用在建筑工程及水环境的综合治理工程中,并取得了好的效果,国家环保部也出台了《人工湿地污水处理工程技术规范》(HJ2005-2010),但是,由于我国幅员辽阔,水体水质的生态净化维护又是水处理领域里的一个新的细分领域,很多地方对此缺乏成熟可行的技术与经验,沿用传统的污水处理会额外付出很大的代价,地区发展不平衡造成一些需要污水处理的地方无法实施,其主要原因在于缺乏供电条件或能源供给代价过大,使该值得推广的污水处理技术得不到广泛应用。
我国风能与太阳能光伏发电技术目前都走在世界前沿,相关产品种类齐全,产量大,成本低,而污水处理技术中单一的发电方式本身受气候条件影响大,难以保证稳定供电,因此,采用风能与太阳能互补型供电方式能开创出一种新方法,可以满足人工湿地对能源的需求,它以较小的前期投资与后期运营费用、简单方便的运行维护模式,促进污水处理技术能得到广泛应用和推广,是实现国家提倡的海绵城市目标,造福子孙后代的宏图大政。
发明内容
针对上述需求,本发明提供了一种模块化的、不依赖外部能源供应、采用低成本环保材料的污水处理装备组合。
实施本发明的技术方案为三个部分:
a)风光互补能源模块-----通过风光互补控制器对光伏电池板所产生的直流电和风力发电机所发出的交流电进行调节和控制,所述的风光互补控制器一方面把调整后的电能输送给污水处理水泵,另一方面将多余的能量对蓄电池进行充电,当发出的电能不能满足负载需要时,所述的风光互补控制器自动将蓄电池电能输出做补充、同时保护蓄电池不被过放电,达到风能与太阳能互补目的;
b)污水处理模块-----采用人工湿地处理低能耗的污水处理装置,将需要净化的污水处理达标后,作为绿化浇灌用水、绿色农业用水、生活杂用水,达到水资源再生、节约、利用之目的;
c)调配水池、水泵-----根据具体工程设置水池,如水源泥沙、杂物较多,则在人工湿地前设置沉淀池兼具蓄水功能,如需间歇性使用处理完的水体则在人工湿地末端增加清水蓄水池,所述的水泵用来提升水头,达到保持人工湿地内水体的自然流动之目的。
所述的光伏电池板容量在3-6kw之间、所述的风力发电机功率在2.5-4kw之间、所述的蓄电池容量在10-16KVA之间,所述的水泵采用0.75-2.2kw潜水泵。
附图说明
下面结合附图和具体实施方式对本发明作进一步说明。
图1是风能与太阳能互补人工湿地电气原理图。
图2是风能与太阳能互补模块化污水处理系统结构示意图。
图中1.污水,2.沉淀池,3.水泵,4.人工湿地,5.互补能源模块,6.清水池,7.生态农业灌溉系统,8.蓄电池,9管道,10.风光互补控制器。
具体实施方式
实施本发明的工艺流程:
将需处理污水1包括生活污水、种植养殖污水或其他需要净化的自然水体通过管道9引入沉淀池2,经沉淀过滤后利用水泵3泵入人工湿地4,污水1经人工湿地4净化处理后通过管道9流至清水池6储存,或者直接排放至生态农业灌溉系统7,在上述过程中所需要的电能均由风光互补能源模块5经互补控制器10调控后供给,或由蓄电池8协同供给,在水泵3不工作时,电能由风光互补能源模块5经风光互补控制器10对蓄电池8进行充电,在发电不足时水泵3使用蓄电池8中的电能维持系统正常运行。
该方式在建筑工程的分散式生活污水、雨水收集处理中达到污水零排放和再生利用,同时,因风光互补能源模块的应用,可以减少能源消耗,并给总体布局带来极大的便利性。
在偏远乡村及旅游区,生活污水处理基础设施缺乏,采用污水直排方式势必对环境产生不利影响,采用无需单独供电的模块化风光互补污水处理方式可将污染物处理达标,也没有供电电缆维护及被盗等问题。
在景观水体整治中同样可以采用该方式,建设完成后无需额外能源供给,同时人工湿地植物和风光互补装置都可以作为景观重要元素在设计中一并考虑。
该方式在绿色生态农业中的可以提供充足的处理后的灌溉净水,避免自然水体中有害物质对农作物的二次污染,有利于提供更高品质的农产品。
具体案例:根据维态斯生态事业中心提供的资料,可以证明采用本装备组合具有明显的创造性、新颖性、可实施性及良好的经济效益:
某美丽乡村污水项目,日处理量100吨,建设人工湿地面积500平方米,建设设施费一次性投资45万元,运行费(电费)约5元/天。污水资源化后,提供生态农业的水量每天约80吨,年度提供水量约28000吨,用于种植和养殖类。污水营养物作为肥料转化,湿生苗木从第三年开始,每年出产原种植数目45%植物种苗,年收益约13000-15000元。在追加投资3.6万元投资建设装机容量为4kw的光伏电板,不但解决了自身供电,而且并网后增加收益16-20元/日。
以上所述,仅是实施本发明的较佳事例,并非用以限定发明,凡是依据本发明的技术方案的核心实质对以上实施例所做的任何修改、等同变化与修饰,仍属于本发明的专利保护范围内。
本发明的积极效果是:在污水零排放的前提下,改变了污水处理单一耗能的习惯思维,采用风能与太阳能互补蓄能、并带动湿地水泵运转,避免不利气候的影响,基本杜绝污水污染环境的后顾之忧,结合生态建设,可以多方位获得绿色发展的收益,生态、先进、环保、节能、实现社会、环境、经济效益的统一。
Claims (2)
1.一种风能太阳能互补模块化污水处理装备,包含人工湿地、调配水池、管道、蓄电池、水泵及风光互补控制器,其特征是:提供了一种模块化的、不依赖外部能源的污水处理设备组合,其技术方案为三个部分,
a)风光互补能源模块-----通过风光互补控制器对光伏电池板所产生的直流电和风力发电机所发出的交流电进行调节和控制,所述的风光互补控制器一方面把调整后的电能输送给污水处理水泵,另一方面将多余的能量对蓄电池进行充电,当发出的电能不能满足负载需要时,所述的风光互补控制器自动将蓄电池电能输出做补充、同时保护蓄电池不被过放电,达到风能与太阳能互补目的;
b)污水处理模块-----采用人工湿地处理低能耗的污水处理装置,将需要净化的污水处理达标后,作为绿化浇灌用水、绿色农业用水、生活杂用水,达到水资源再生、节约、利用之目的;
c)调配水池、水泵-----根据具体工程设置水池,如水源泥沙、杂物较多,则在人工湿地前设置沉淀池兼具蓄水功能,如需间歇性使用处理完的水体则在人工湿地末端增加清水蓄水池,所述的水泵用来提升水头,达到保持人工湿地内水体的自然流动之目的。
2.根据权利要求1所述的风能太阳能互补模块化污水处理装备,其特征是:所述的光伏电池板容量在3-6kw之间、所述的风力发电机功率在2.5-4kw之间、所述的蓄电池容量在10-16KVA之间,所述的水泵采用0.75-2.2kw潜水泵。
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CN111453947A (zh) * | 2020-03-30 | 2020-07-28 | 西安理工大学 | 一种风光互补驱动电化学污泥预处理方法 |
CN111620415A (zh) * | 2020-04-20 | 2020-09-04 | 西安理工大学 | 一种基于新能源的电化学除藻方法 |
CN112811718A (zh) * | 2020-12-29 | 2021-05-18 | 江苏大学 | 一种分布式气电混合动力型污水深度处理系统 |
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CN203999264U (zh) * | 2014-07-03 | 2014-12-10 | 杭州金鸣环境科技有限公司 | 一种太阳能风能组合供电污水处理装置 |
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CN203999264U (zh) * | 2014-07-03 | 2014-12-10 | 杭州金鸣环境科技有限公司 | 一种太阳能风能组合供电污水处理装置 |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111453947A (zh) * | 2020-03-30 | 2020-07-28 | 西安理工大学 | 一种风光互补驱动电化学污泥预处理方法 |
CN111620415A (zh) * | 2020-04-20 | 2020-09-04 | 西安理工大学 | 一种基于新能源的电化学除藻方法 |
CN112811718A (zh) * | 2020-12-29 | 2021-05-18 | 江苏大学 | 一种分布式气电混合动力型污水深度处理系统 |
CN112811718B (zh) * | 2020-12-29 | 2022-08-30 | 江苏大学 | 一种分布式气电混合动力型污水深度处理系统 |
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