Nano iron biological coupling device for organic wastewater and its process

What is claimed is: 1. A nano iron biological coupling process for organic wastewater, wherein the nano iron biological coupling process is applied to a nano iron biological coupling device comprising: a continuous flow stirred reactor; a flocculation sedimentation device; and a membrane bioreactor; wherein the continuous flow stirred reactor, the flocculation sedimentation device, and the membrane bioreactor are arranged in series; a nano zero valent iron feeding device is arranged in the continuous flow stirred reactor, a flocculant and a coagulant aid are arranged in the flocculation sedimentation device, and a microbial reaction liquid is arranged in the membrane bioreactor; wherein the nano iron biological coupling process comprises the following steps: S 1 , placing the organic wastewater in the continuous flow stirred reactor, adding 0.05-0.2 g/L of nano zero valent iron, stirring and mixing for 1-3 hours to obtain first treated organic wastewater; S 2 , placing the first treated organic wastewater treated after step S 1 in the flocculation sedimentation device to obtain second treated organic wastewater, wherein the flocculant is polymeric ferric sulfate, and the coagulant aid is polyacrylamide; S 3 , placing the second treated organic wastewater treated after step S 2 in the membrane bioreactor and interacting the second treated organic wastewater with the microbial reaction liquid for 6-10 hours to obtain third treated organic wastewater, wherein mixed liquor suspended solids (MLSS) of the microbial reaction liquid is 4-6 g/L; and S 4 , performing a membrane separation on the third treated organic wastewater treated after step S 3 in the membrane bioreactor to obtain purified organic wastewater; wherein the organic wastewater comprises industrial wastewater, underground water body, sludge, and semi-solid pollutants, wherein the industrial wastewater, the underground water body, the sludge, and the semi-solid pollutants are polluted by heavy metals, organic pollutants, and composite pollutants, wherein the heavy metals comprise chromium, copper, nickel, lead and zinc, and the organic pollutants comprise halogenated hydrocarbons, polychlorinated biphenyls and p-octylphenol (POPs). 2. The nano iron biological coupling process according to claim 1 , wherein in step S 1 , a redox potential of the organic wastewater and a pH value of the organic wastewater are detected by a detection device, and the nano zero valent iron is added into the organic wastewater intermittently. 3. The nano iron biological coupling process according to claim 1 , wherein an average particle size of the nano zero valent iron is 40-75 nm. 4. The nano iron biological coupling process according to claim 1 , wherein a concentration of the polymeric ferric sulfate is 80-100 mg/L, and a concentration of the polyacrylamide is 1-5 mg/L. 5. The nano iron biological coupling process according to claim 1 , wherein the continuous flow stirred reactor comprises a detection device, wherein the detection device comprises a potential detection device and a pH value detection device. 6. The nano iron biological coupling process according to claim 1 , wherein a reflux pipeline is arranged between the continuous flow stirred reactor and the flocculation sedimentation device.