1. 可以提供高效的增氧和搅拌功能,使底部的有 机物质被搅拌到水面,以便进行进一步的处理。
2. 小孔径的微孔曝气管可以提供更均匀、细微的气泡,有效地增加水中溶解氧的浓度,提高水体的环境。
3. 设备结构紧凑,易于安装和维护,成本相对较低。
4. 能够承受高流量和压力,不易堵塞,使用寿命相对较长。
一、高效、高产高收益
池塘底部通过 微孔增氧管产生的微小气泡,溶解氧——快速增加水体上下对流交换,对池塘底部积压的有害物质如:氨氮、硫化氯、亚硝酸盐等起到有效的氧化、分解、挥发作用,使水体长时间良好,藻相、菌相、虫相保持平衡。减少养殖产品的发病率和水产养殖药品的使用量,直接降低养殖成本投入,达到高效、高产、高收益的养殖效果。
二、鱼好
溶氧高产量高,溶氧高饵料系数低,溶氧高病害少。
三、水好
微孔管道增氧是从池塘底部增氧,因而有效阻止了池底压氧层的产生,水底微生物的分解物迅速得以转化。
四、省电
底部微孔曝气增氧设备亩增均配置的动力功率仅需传统增氧机的1/3。
产品优点:
底部微孔增氧曝气设备主机在岸上工作,因而不易漏电;也没有像水车式、叶轮式增氧机那样的转盘在水中搅动,不会对人和鱼、虾、蟹产生潜在的危害,同时也不会给水体带来噪音而对鱼、虾、蟹产生应激反应。
1. high efficiency, high yield and high yield
The micro-bubbles produced in the bottom of the pond through the microporous oxygen pipecan rapidly increase the convection and exchange between the upper and lower parts of the water body. They can effectively oxidize, decompose and volatilize the harmful substances such as ammonia nitrogen, chlorine sulfide and nitrite in the bottom of the pond, and keep the water in good condition for a long time, algae, bacteria and insect phases flat. Heng. Reduce the incidence of aquaculture products and the use of aquaculture drugs, directly reduce the cost of aquaculture investment, to achieve efficient, high-yield, high-yield aquaculture effect.
2. Good fish
High yield of dissolved oxygen, low feed coefficient of dissolved oxygen and low disease of dissolved oxygen.
3. Good water
Microporous pipeline aeration is to increase oxygen from the bottom of the pond, which effectively prevents the production of the bottom oxygen layer, and the decomposition of bottom microorganisms can be rapidly transformed
4. Power saving
The power capacity of the bottom porous aeration equipment is only 1/3 of the conventional aerator.
Product advantages:
The main engine of the bottom microporous aeration equipment works on the shore, so it is not easy to leak electricity; and there is no turntable like the water truck type and impeller type aerator agitated in water, which will not cause potential harm to people and fish, shrimp and crab, and will not bring noise to the water body and produce stress response to fish, shrimp and crab.