CN109404217A - 基于文丘里效应的风力、水力及太阳能综合发电系统装置 - Google Patents
基于文丘里效应的风力、水力及太阳能综合发电系统装置 Download PDFInfo
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Abstract
本发明公开了基于文丘里效应的风力、水力及太阳能综合发电系统装置,以现有的污水处理厂为基础来搭建系统,所述系统包括污水处理池,在污水处理厂四周搭建小型风力发电装置,在污水处理池表面架设有光伏发电组件,所述污水处理池底部安装有排出管道及电解槽,所述排出管道上连接有水流发电装置,所述电解槽与所述水流发电装置连通;所述综合发电系统装置还包括配合使用的控制器、蓄电池及其它负载,所述风力发电装置、光伏发电组件及水流发电装置均与控制器电连接,蓄电池是电连接在控制器上,控制器还与电解槽及其它负载呈电性连接。本发明提高能量收集效率,将各个发电系统有机结合,解决了现有多种能源综合发电技术中存在的匹配问题。
Description
技术领域
本发明涉及基于文丘里效应的风力、水力及太阳能综合发电系统装置,属于新能源综合发电利用技术领域。
背景技术
随着我国工业经济的迅速发展、城市化进程的加快、人口的不断膨胀,工业废水和生活污水的排放量急剧增加,水污染状况日益严重。在我国,淮河、太湖等江河湖泊因为工业废水排放而遭到严重的污染,对自然环境和居民健康产生了相当大的影响,工业废水和生活污水的综合治理已经成为当前环境保护工作亟待解决的重大问题之一。随着国家可持续发展战略的提出,人们对环境保护不断重视,工业废水处理作为水污染治理行业的一个重要分支,其工艺技术日渐成熟,并不断推出新技术、新工艺、新设备。但目前的污水处理设备,运行成本高且能耗巨大。为此,需要设计相应的技术方案给予解决。
发明内容
本发明目的是提供一种高效的太阳能、风能和水能的综合发电系统,系统以污水处理厂为载体,在污水处理系统附近搭建综合发电系统,立体化利用污水处理厂空间,搭建风力发电机装置、设置光伏组件及水流发电装置,增加水流的通过性降低噪音,提高能量收集效率,旨在将各个发电系统有机结合,解决了现有多种能源综合发电技术中存在的匹配问题。
为解决上述问题,本发明所采取的技术方案如下:
基于文丘里效应的风力、水力及太阳能综合发电系统装置,以现有的污水处理厂为基础来搭建系统,所述系统包括污水处理池,在所述污水处理厂四周搭建小型风力发电装置,在所述污水处理池表面架设有光伏发电组件,所述污水处理池底部安装有排出管道及电解槽,所述排出管道上连接有水流发电装置,所述电解槽与所述水流发电装置连通;
所述风力发电装置包括:风力发电架,所述风力发电架上设有一个顶部呈渐缩喇叭状的引风管,所述引风管底端连接有通风管,所述引风管底端与所述通风管连接处设有风力发电机;
光伏发电组件包括:太阳能支架,所述太阳能支架上设有光伏组件;
水流发电装置包括:与排出管道连接的渐缩管,所述渐缩管的自由端设有喉管,所述喉管上安装有水轮发电机;
综合发电系统装置还包括配合使用的控制器、蓄电池及其它负载,所述风力发电机、光伏组件及水轮发电机均与所述控制器电连接,所述蓄电池是电连接在控制器上,所述控制器还与电解槽及其它负载呈电性连接。
作为上述技术方案的改进,所述风力发电架包括:顶部的第一圆柱架体、中间的圆台架体及底部的第二圆柱架体,所述第一圆柱架体的直径大于所述第二圆柱架体的直径,所述第一圆柱架体的直径所述圆台架体顶端面的直径,所述第二圆柱架体的直径等于所述圆台架体底端面的直径。
作为上述技术方案的改进,所述第一圆柱架体、圆台架体及第二圆柱架体呈一体成型设置,所述第二圆柱架体上开设有孔,所述通风管是穿过孔设置。
作为上述技术方案的改进,所述渐缩管的内部是呈螺纹结构设置。
本发明与现有技术相比较,本发明的实施效果如下:
(1)本系统实现污水处理与发电一体化,形成一套完整的能源利用、转化、再利用系统,在解决污水带来的环境问题的同时,系统综合发电降低了污水处理的能耗,解决了以往通过高能耗换取低排放的技术问题。
(2)本系统建立在污水处理池附近,风能、太阳能的获取率较高,且污水处理厂的排水管道系统适合改进匹配使用本系统的内螺纹水力发电装置,由于借助污水处理厂这个平台搭建起综合发电系统,降低了一大部分的土地使用成本,具有极大的低成本优势,“因地制宜”充分利用现有厂区的土地资源,不需使用额外的土地,节能减排效果十分显著,对各式工厂均适用,对降低生产成本提高效益具有重要的指导意义。
(3)本系统发电效率高,安全性能强,具有很强的运行稳定性,维护方便;本系统每度电成本在0.8-0.9元,接近风电成本,且系统维护简单,运行成本低,投资回收期很短,两至三年即可收回成本。
附图说明
图1为本发明基于文丘里效应的综合发电系统模拟图;
图2为本发明所述风力发电装置结构示意图;
图3为本发明所述光伏发电组件结构示意图;
图4为本发明所述水流发电装置结构示意图;
图5为本发明系统能量转化示意图;
图6为本发明系统结构示意图。
具体实施方式
下面将结合具体的实施例来说明本发明的内容。
如图1至图6所示:为本发明所述基于文丘里效应的风力、水力及太阳能综合发电系统装置结构示意图。
本发明所述基于文丘里效应的风力、水力及太阳能综合发电系统装置,以现有的污水处理厂为基础来搭建系统,所述系统包括污水处理池,在污水处理厂四周搭建小型风力发电装置10,在污水处理池表面架设有光伏发电组件20,污水处理池底部安装有排出管道40及电解槽50,排出管道40上连接有水流发电装置30,电解槽50与水流发电装置30连通;本系统通过在污水处理池上方搭建光伏组件和文丘里风力发电机组,以及管道末端的改进,进行风能、光能、水能发电技术的全方位、立体化综合发电,单位面积产能提高,节约用地成本,且新型发电装置安全系数高,稳定性好,方便检修维护等,高效的收集低品位能源,降低了发电成本。
如图2所示:所述风力发电装置10包括:风力发电架11,风力发电架11上设有一个顶部呈渐缩喇叭状的引风管12(能收集各方向的风能,并且为流体压缩加速,提高对内部窄口处涡轮的冲击力,从而使发电机高效运行),引风管12底端连接有通风管13,引风管12底端与通风管13连接处设有风力发电机14。目前,文丘里风力发电已经有实际应用,可用于微风发电从3.2km/h到90km/h的风能都可以利用,发电效率高,安全性能强,具有较强运行稳定性且成本低、便于安装维护;在本系统采用等比例缩小的中小型风力发电机,应用面十分广泛,相比于传统风机,不仅对风能的利用率更高,还可使其效率提高至年均6000小时以上,并且每年发电超过1000万度,其1度电成本也就相当于2毛钱左右;同时,封闭式的风力发动机,也避免了意外伤害到飞禽和维修人员的风险,噪音和振动也更加微小,其叶片比传统风机叶片小84%之多。
如图3所示:所述光伏发电组件20包括:太阳能支架21,太阳能支架21上设有光伏组件22;在污水处理池表面架设光伏发电组件20,利用太阳能进行发电,不与其他结构发生遮挡,因地制宜,提高了单位面积产能,符合当今社会节能减排的主题。
如图4所示:所述水流发电装置30包括:与排出管道40连接的渐缩管31(渐缩管31的内部是呈螺纹结构设置,增强了水流在管中的导向性,降低了污水在管中的粘滞力,提升了装置的发电效率,同时具有降噪、减震的功能;内螺纹渐缩管与水轮发电机33直接接在排出管道40上,对污水处理不产生影响,并且检查维修方便),渐缩管31的自由端设有喉管32,喉管32上安装有水轮发电机33;在排出管道40后加装文丘里渐缩管31,改造不影响整个排污排水系统的结构,改造成本较低;当水从文丘里管流出时,文丘里效应使其流速加快,提高能量密度,在文丘里管管径最窄处安装水轮发电机33,此处流速达到最高,带动涡轮叶片高速旋转,提高水轮发电机33的发电量,增强了对能量的收集能力。
所述综合发电系统装置还包括配合使用的控制器60、蓄电池70及其它负载80,风力发电机14、光伏组件22及水轮发电机33均与控制器60电连接,蓄电池70是电连接在控制器60上,控制器60与电解槽50及其它负载80呈电性连接。本系统建立在污水处理池附近,风能、太阳能的获取率较高,且污水处理厂的排水管道系统适合改进匹配使用本系统的内螺纹水力发电装置,由于借助污水处理厂这个平台搭建起综合发电系统,降低了一大部分的土地使用成本,具有极大的低成本优势,“因地制宜”充分利用现有厂区的土地资源,不需使用额外的土地,节能减排效果十分显著,对各式工厂均适用,对降低生产成本提高效益具有重要的指导意义。
此外,一般污水处理厂地处偏远,风能、太阳能获取率较高,系统利用太阳能、风能、水流机械能等形式的能量进行综合发电,因为本系统采用的新型发电装置,对于能量的收集利用率较高,相对来说发电量就越多,因此,有足够的能量在污水电解处理的同时制取氢气,获得更高的效益。
进一步改进地,如图2所示:所述风力发电架11包括:顶部的第一圆柱架体111、中间的圆台架体112及底部的第二圆柱架体113,第一圆柱架体111的直径大于第二圆柱架体113的直径,第一圆柱架体111的直径等于圆台架体112顶端面的直径,第二圆柱架体113的直径等于圆台架体112底端面的直径;第一圆柱架体111、圆台架体112及第二圆柱架体113呈一体成型设置,第二圆柱架体113上开设有孔1131,通风管13是穿过孔1131设置。
以上内容是结合具体的实施例对本发明所作的详细说明,不能认定本发明具体实施仅限于这些说明。对于本发明所属技术领域的技术人员来说,在不脱离本发明构思的前提下,还可以做出若干简单推演或替换,都应当视为属于本发明保护的范围。
Claims (4)
1.基于文丘里效应的风力、水力及太阳能综合发电系统装置,其特征在于:以现有的污水处理厂为基础来搭建系统,所述系统包括污水处理池,在所述污水处理厂四周搭建小型风力发电装置(10),在所述污水处理池表面架设有光伏发电组件(20),所述污水处理池底部安装有排出管道(40)及电解槽(50),所述排出管道(40)上连接有水流发电装置(30),所述电解槽(50)与所述水流发电装置(30)连通;
所述风力发电装置(10)包括:风力发电架(11),所述风力发电架(11)上设有一个顶部呈渐缩喇叭状的引风管(12),所述引风管(12)底端连接有通风管(13),所述引风管(12)底端与所述通风管(13)连接处设有风力发电机(14);
所述光伏发电组件(20)包括:太阳能支架(21),所述太阳能支架(21)上设有光伏组件(22);
所述水流发电装置(30)包括:与排出管道(40)连接的渐缩管(31),所述渐缩管(31)的自由端设有喉管(32),所述喉管(32)上安装有水轮发电机(33);
所述综合发电系统装置还包括配合使用的控制器(60)、蓄电池(70)及其它负载(80),所述风力发电机(14)、光伏组件(22)及水轮发电机(33)均与所述控制器(60)电连接,所述蓄电池(70)是电连接在控制器(60)上,所述控制器(60)还与电解槽(50)及其它负载(80)呈电性连接。
2.根据权利要求1所述的基于文丘里效应的风力、水力及太阳能综合发电系统装置,其特征在于:所述风力发电架(11)包括:顶部的第一圆柱架体(111)、中间的圆台架体(112)及底部的第二圆柱架体(113),所述第一圆柱架体(111)的直径大于所述第二圆柱架体(113)的直径,所述第一圆柱架体(111)的直径等于所述圆台架体(112)顶端面的直径,所述第二圆柱架体(113)的直径等于所述圆台架体(112)底端面的直径。
3.根据权利要求2所述的基于文丘里效应的风力、水力及太阳能综合发电系统装置,其特征在于:所述第一圆柱架体(111)、圆台架体(112)及第二圆柱架体(113)呈一体成型设置,所述第二圆柱架体(113)上开设有孔(1131),所述通风管(13)是穿过孔(1131)设置。
4.根据权利要求1所述的基于文丘里效应的风力、水力及太阳能综合发电系统装置,其特征在于:所述渐缩管(31)的内部是呈螺纹结构设置。
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