Preparation and application of gradient long-effective catalytic membrane with high-strength and anti-deposition property

What is claimed is: 1 . An application method of a gradient long-effective catalytic membrane with high-strength and anti-deposition property in conversion of organic pollutants, comprising the following steps: adding a nanometal oxide catalyst into an N,N-dimethylformamide solution of one of polyacrylonitrile and polystyrene and then uniform mixing to obtain a mixture solution; performing electrostatic spinning on the mixture solution to obtain a precursor membrane of the catalytic membrane; wherein a receiver is at a temperature in a range of −190° C. to −200° C. during the electrostatic spinning; and performing freeze-drying on the precursor membrane of the catalytic membrane obtained after the electrostatic spinning is finished to obtain the gradient long-effective catalytic membrane with high-strength and anti-deposition property; wherein a preparation method of the nanometal oxide catalyst comprises the following steps: depositing one of iron acetylacetonate, copper acetylacetonate and chromium acetylacetonate in a protective atmosphere to obtain a nanometal catalyst precursor; and roasting the nanometal catalyst precursor in air to obtain the nanometal oxide catalyst; wherein a mass ratio of the nanometal oxide catalyst to the one of polyacrylonitrile and polystyrene is 1˜3:2.5˜5; wherein conditions of the electrostatic spinning are as follows: a voltage is in a range of +10 kV to +17 kV and another voltage is in a range of −2 kV to −4 kV, a distance between the receiver and a needle is in a range of 5 cm to 7 cm, and a time of the electrostatic spinning is in a range of 30 min to 60 min; and the receiver is placed in a low-temperature control device, and the low-temperature control device is configured to control temperature by adjusting a volume of liquid nitrogen. 2 . The application method of the gradient long-effective catalytic membrane with high-strength and anti-deposition property in the conversion of organic pollutants according to claim 1 , wherein the protective atmosphere is one of nitrogen and argon, and conditions of the depositing are as follows: a deposition temperature is in a range of 200° C. to 300° C., a heating rate is in a range of 5° C./min to 8° C./min, and a deposition time is in a range of 60 min to 90 min. 3 . The application method of the gradient long-effective catalytic membrane with high-strength and anti-deposition property in the conversion of organic pollutants according to claim 1 , wherein conditions of the roasting are as follows: a roasting temperature is in a range of 450° C. to 600° C., a heating rate is in a range of 1° C./min to 3° C./min, and a roasting time is in a range of 4 h to 8 h. 4 . The application method of the gradient long-effective catalytic membrane with high-strength and anti-deposition property in the conversion of organic pollutants according to claim 1 , wherein the freeze-drying specifically comprises: vacuumizing at a temperature in a range of 10° C. to 35° C. until a vacuum degree is in a range of 10 Pa to 30 Pa, keeping the temperature and the vacuum degree unchanged, drying for a time in a range of 4 h to 8 h, and then taking out.