The invention discloses a solar energy biogas energy-saving reaction equipment, which comprises a water storage tank, a solar collector, a biogas fermentation tank and a gas collecting place. The water storage tank is connected with the solar collector. The solar collector is connected with the biogas fermentation tank through a water inlet channel. The internal part of the biogas fermentation tank is provided with a process heating pipeline, and the process heating pipeline enters and exits. The mouth is connected with the water inlet channel and the water flow channel respectively through the tank body, and the water flow channel is connected with the water storage tank. A stirring rod is longitudinally arranged in the interior of the biogas fermentation tank, and a stirring wheel is connected at the lower end of the stirring rod. The interior of the biogas generating tank is also provided with a temperature transmitter. The top of the biogas fermentation tank is provided with an input opening and an exhaust pipe, and the biogas fermentation tank is provided with a stirr The bottom of the gas fermentation tank is provided with a waste outlet, and the exhaust pipe connects the gas collecting place. The beneficial effect of the present invention is that the raw material is heated by using solar acidification heating and waste heat of biogas, the temperature required for biogas fermentation is maintained, the gas production of the biogas fermentation tank is stable in four seasons, the utilization rate of the biogas fermentation project is improved, and the energy is saved.
【技术实现步骤摘要】
一种太阳能沼气节能反应设备
本专利技术涉及环保节能
,具体说是一种太阳能沼气节能反应设备。
技术介绍
沼气是一种性能优良的清洁燃料,不仅原料来源丰富、价格低廉,而且具有燃烧热效率高、成本低、绿色、低污染、可再生、抗爆性能好的特点,是一种优质生物质能源,在世界上受到了越来越多的关注,有关研究发现在沼气发酵的过程中,沼气池内的发酵温度是影响沼气产气率的关键因素之一,在一定温度范围内,温度越高,沼气微生物的代谢越旺盛,沼气产量越多,即在一定范围内温度升高有利于提高沼气的产量,经实验证明在8~60℃温度范围内都能发酵产沼气。但是,对于中温发酵而言,最理想的温度是35℃左右,在40~45℃时,产气量会有所下降,从发酵的周期来看,温度越低,原料的发酵周期越长,温度越高,发酵周期越短,沼气发酵温度的突然升高或降低,对产气量都会有明显的影响,若变化过大,则产气几乎停止,因此,必须寻求一种可维持沼气池内温度稳定在最适宜厌氧发酵范围内的方法,以强化稳定沼气产气量。
技术实现思路
针对上述现有技术存在的问题,本专利技术提供一种太阳能沼气节能反应设备。为实现上述目的,本专利技术采用的技术方案是:一种太阳能沼气节能反应设备,包括储水罐、收集太阳器械、沼气发酵罐和收集气体处,所述储水罐与收集太阳器械连接,所述收集太阳器械通过一入水通道与沼气发酵罐连接,所述沼气发酵罐的内部设置有过程加热管道,过程加热管道的进出口经罐体分别连接有入水通道和水流通道,所述水流通道与所述储水罐连接,所述沼气发酵罐的内部中间纵向设置有一搅拌棒,在搅拌棒的下端连接有搅拌轮子,在搅拌棒的上端连接有一风力发电机, ...
【技术保护点】
1.一种太阳能沼气节能反应设备,包括储水罐、收集太阳器械、沼气发酵罐和收集气体处,其特征在于:所述储水罐与收集太阳器械连接,所述收集太阳器械通过一入水通道与所述沼气发酵罐连接,所述沼气发酵罐的内部设置有一过程加热管道,在过程加热管道的进出口经罐体分别连接有入水通道和水流通道,所述水流通道与所述储水罐连接,所述沼气发酵罐的内部中间纵向设置有一搅拌棒,在搅拌棒的下端连接有搅拌轮子,在搅拌棒的上端连接有一风力发电机,所述沼气发生罐的内部还设置有一传温器,所述沼气发酵罐的顶部设置有投入料口和排气管道,所述沼气发酵罐的底部设置有废料出口,所述排气管道连接一收集气体处。
【技术特征摘要】
1.一种太阳能沼气节能反应设备,包括储水罐、收集太阳器械、沼气发酵罐和收集气体处,其特征在于:所述储水罐与收集太阳器械连接,所述收集太阳器械通过一入水通道与所述沼气发酵罐连接,所述沼气发酵罐的内部设置有一过程加热管道,在过程加热管道的进出口经罐体分别连接有入水通道和水流通道,所述水流通道与所述储水罐连接,所述沼气发酵罐的内部中间纵向设置有一搅拌棒,在搅拌棒的下端连接有搅拌轮子,在搅拌棒的上端连接有一风力发电机,所述沼气发生罐的内部还设置有一传温器,所述沼气发酵罐的顶部设置有投入料口和排气管道,所述沼气发酵罐的底部设置有废料出口,所述排气管道连接一收集气体处。2.根据权利要求1所述的一种太阳能沼气节能反应设备,其特征在于:...
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